Quizbank/Electricity and Magnetism (calculus) Exams/T1(5-10)
calcPhyEMt/T1(5-10) ID153290827354 (Study guide)
Exams: A0 A1 A2 B0 B1 B2 C0 C1 C2 D0 D1 D2 E0 E1 E2 F0 F1 F2 G0 G1 G2 H0 H1 H2 I0 I1 I2 J0 J1 J2 K0 K1 K2 L0 L1 L2 M0 M1 M2 N0 N1 N2 O0 O1 O2 P0 P1 P2 Q0 Q1 Q2 R0 R1 R2 S0 S1 S2 T0 T1 T2 U0 U1 U2 V0 V1 V2 W0 W1 W2 X0 X1 X2 Y0 Y1 Y2 Z0 Z1 Z2
Answers: A0 A1 A2 B0 B1 B2 C0 C1 C2 D0 D1 D2 E0 E1 E2 F0 F1 F2 G0 G1 G2 H0 H1 H2 I0 I1 I2 J0 J1 J2 K0 K1 K2 L0 L1 L2 M0 M1 M2 N0 N1 N2 O0 O1 O2 P0 P1 P2 Q0 Q1 Q2 R0 R1 R2 S0 S1 S2 T0 T1 T2 U0 U1 U2 V0 V1 V2 W0 W1 W2 X0 X1 X2 Y0 Y1 Y2 Z0 Z1 Z2
78 Tests = 3 versions x 26 variations: Each of the 26 variations (A, B, ...) represents a different random selection of questions taken from the study guide.The 3 versions (0,1,..) all have the same questions but in different order and with different numerical inputs. Unless all students take version "0" it is best to reserve it for the instructor because the questions are grouped according to the order in which they appear on the study guide.
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T1(5-10) A0
edit- a) 5.581E+09 N/C2
- b) 6.139E+09 N/C2
- c) 6.753E+09 N/C2
- d) 7.428E+09 N/C2
- e) 8.171E+09 N/C2
- a) 4.357E+01 degrees
- b) 4.793E+01 degrees
- c) 5.272E+01 degrees
- d) 5.799E+01 degrees
- e) 6.379E+01 degrees
3) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=8, y=0), (x=0, y=8), and (x=8, y=8), where x and y are measured in meters. The electric field is,
- a) 9.027E+03 V·m
- b) 9.930E+03 V·m
- c) 1.092E+04 V·m
- d) 1.202E+04 V·m
- e) 1.322E+04 V·m
4) A non-conducting sphere of radius R=3.5 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.2 (r≤R) where a=2 nC·m-1.8. What is the magnitude of the electric field at a distance of 2.3 m from the center?
- a) 2.777E+02 N/C
- b) 3.055E+02 N/C
- c) 3.361E+02 N/C
- d) 3.697E+02 N/C
- e) 4.066E+02 N/C
5) When a 3.8 V battery operates a 1.67 W bulb, how many electrons pass through it each second?
- a) 1.873E+18 electrons
- b) 2.061E+18 electrons
- c) 2.267E+18 electrons
- d) 2.494E+18 electrons
- e) 2.743E+18 electrons
- a) 5.998E+01 J
- b) 6.598E+01 J
- c) 7.257E+01 J
- d) 7.983E+01 J
- e) 8.781E+01 J
7) An empty parallel-plate capacitor with metal plates has an area of 2.42 m2, separated by 1.33 mm. How much charge does it store if the voltage is 1.130E+03 V?
- a) 1.368E+01 μC
- b) 1.505E+01 μC
- c) 1.655E+01 μC
- d) 1.820E+01 μC
- e) 2.003E+01 μC
8) Imagine a substance could be made into a very hot filament. Suppose the resitance is 2.94 Ω at a temperature of 30°C and that the temperature coefficient of expansion is 5.900E-03 (°C)−1). What is the resistance at a temperature of 445 °C?
- a) 1.014E+01 Ω
- b) 1.065E+01 Ω
- c) 1.118E+01 Ω
- d) 1.174E+01 Ω
- e) 1.232E+01 Ω
- a) 9.240E+00 s
- b) 1.016E+01 s
- c) 1.118E+01 s
- d) 1.230E+01 s
- e) 1.353E+01 s
- a) 3.055E+00 mA
- b) 3.360E+00 mA
- c) 3.696E+00 mA
- d) 4.066E+00 mA
- e) 4.472E+00 mA
T1(5-10) A1
edit- a) 5.178E+01 J
- b) 5.696E+01 J
- c) 6.266E+01 J
- d) 6.892E+01 J
- e) 7.582E+01 J
- a) 3.661E+00 mA
- b) 4.027E+00 mA
- c) 4.430E+00 mA
- d) 4.873E+00 mA
- e) 5.360E+00 mA
- a) 4.743E+01 degrees
- b) 5.217E+01 degrees
- c) 5.739E+01 degrees
- d) 6.313E+01 degrees
- e) 6.944E+01 degrees
4) An empty parallel-plate capacitor with metal plates has an area of 2.51 m2, separated by 1.44 mm. How much charge does it store if the voltage is 2.230E+03 V?
- a) 2.351E+01 μC
- b) 2.586E+01 μC
- c) 2.844E+01 μC
- d) 3.129E+01 μC
- e) 3.442E+01 μC
- a) 1.296E+01 s
- b) 1.425E+01 s
- c) 1.568E+01 s
- d) 1.725E+01 s
- e) 1.897E+01 s
6) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=6, y=0), (x=0, y=3), and (x=6, y=3), where x and y are measured in meters. The electric field is,
- a) 1.969E+02 V·m
- b) 2.166E+02 V·m
- c) 2.383E+02 V·m
- d) 2.621E+02 V·m
- e) 2.883E+02 V·m
7) When a 7.78 V battery operates a 1.35 W bulb, how many electrons pass through it each second?
- a) 7.397E+17 electrons
- b) 8.137E+17 electrons
- c) 8.951E+17 electrons
- d) 9.846E+17 electrons
- e) 1.083E+18 electrons
8) Imagine a substance could be made into a very hot filament. Suppose the resitance is 2.89 Ω at a temperature of 89°C and that the temperature coefficient of expansion is 5.340E-03 (°C)−1). What is the resistance at a temperature of 566 °C?
- a) 9.763E+00 Ω
- b) 1.025E+01 Ω
- c) 1.076E+01 Ω
- d) 1.130E+01 Ω
- e) 1.187E+01 Ω
- a) 1.764E+09 N/C2
- b) 1.941E+09 N/C2
- c) 2.135E+09 N/C2
- d) 2.348E+09 N/C2
- e) 2.583E+09 N/C2
10) A non-conducting sphere of radius R=1.4 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.6 (r≤R) where a=3 nC·m-1.4. What is the magnitude of the electric field at a distance of 1.3 m from the center?
- a) 1.457E+02 N/C
- b) 1.603E+02 N/C
- c) 1.763E+02 N/C
- d) 1.939E+02 N/C
- e) 2.133E+02 N/C
T1(5-10) A2
edit- a) 3.728E+00 s
- b) 4.101E+00 s
- c) 4.511E+00 s
- d) 4.962E+00 s
- e) 5.458E+00 s
- a) 7.982E+01 J
- b) 8.780E+01 J
- c) 9.658E+01 J
- d) 1.062E+02 J
- e) 1.169E+02 J
3) Imagine a substance could be made into a very hot filament. Suppose the resitance is 2.61 Ω at a temperature of 92°C and that the temperature coefficient of expansion is 4.260E-03 (°C)−1). What is the resistance at a temperature of 422 °C?
- a) 6.279E+00 Ω
- b) 6.593E+00 Ω
- c) 6.923E+00 Ω
- d) 7.269E+00 Ω
- e) 7.632E+00 Ω
- a) 5.243E+01 degrees
- b) 5.767E+01 degrees
- c) 6.343E+01 degrees
- d) 6.978E+01 degrees
- e) 7.676E+01 degrees
5) When a 4.63 V battery operates a 2.26 W bulb, how many electrons pass through it each second?
- a) 2.770E+18 electrons
- b) 3.047E+18 electrons
- c) 3.351E+18 electrons
- d) 3.686E+18 electrons
- e) 4.055E+18 electrons
6) An empty parallel-plate capacitor with metal plates has an area of 1.81 m2, separated by 1.26 mm. How much charge does it store if the voltage is 4.610E+03 V?
- a) 4.005E+01 μC
- b) 4.405E+01 μC
- c) 4.846E+01 μC
- d) 5.330E+01 μC
- e) 5.864E+01 μC
- a) 7.119E+09 N/C2
- b) 7.831E+09 N/C2
- c) 8.614E+09 N/C2
- d) 9.476E+09 N/C2
- e) 1.042E+10 N/C2
- a) 1.725E+00 mA
- b) 1.898E+00 mA
- c) 2.087E+00 mA
- d) 2.296E+00 mA
- e) 2.526E+00 mA
9) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=6, y=0), (x=0, y=5), and (x=6, y=5), where x and y are measured in meters. The electric field is,
- a) 2.067E+03 V·m
- b) 2.274E+03 V·m
- c) 2.501E+03 V·m
- d) 2.752E+03 V·m
- e) 3.027E+03 V·m
10) A non-conducting sphere of radius R=2.9 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=2 nC·m-1.5. What is the magnitude of the electric field at a distance of 1.5 m from the center?
- a) 1.383E+02 N/C
- b) 1.522E+02 N/C
- c) 1.674E+02 N/C
- d) 1.841E+02 N/C
- e) 2.025E+02 N/C
T1(5-10) B0
edit1)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 5.647E+00 V/m2
- b) 6.212E+00 V/m2
- c) 6.833E+00 V/m2
- d) 7.517E+00 V/m2
- e) 8.268E+00 V/m2
- a) 1.764E+09 N/C2
- b) 1.941E+09 N/C2
- c) 2.135E+09 N/C2
- d) 2.348E+09 N/C2
- e) 2.583E+09 N/C2
- a) 3.662E+01 N·m2/C
- b) 4.028E+01 N·m2/C
- c) 4.430E+01 N·m2/C
- d) 4.873E+01 N·m2/C
- e) 5.361E+01 N·m2/C
- a) 7.876E+01 N·m2/C
- b) 8.664E+01 N·m2/C
- c) 9.531E+01 N·m2/C
- d) 1.048E+02 N·m2/C
- e) 1.153E+02 N·m2/C
5) Two large parallel conducting plates are separated by 9.71 mm. Equal and opposite surface charges of 7.550E-07 C/m2 exist on the surfaces between the plates. What is the distance between equipotential planes which differ by 73 V?
- a) 7.444E-01 mm
- b) 8.561E-01 mm
- c) 9.845E-01 mm
- d) 1.132E+00 mm
- e) 1.302E+00 mm
6) Calculate the final speed of a free electron accelerated from rest through a potential difference of 12 V.
- a) 1.698E+06 m/s
- b) 1.868E+06 m/s
- c) 2.055E+06 m/s
- d) 2.260E+06 m/s
- e) 2.486E+06 m/s
7) An empty parallel-plate capacitor with metal plates has an area of 2.51 m2, separated by 1.44 mm. How much charge does it store if the voltage is 2.230E+03 V?
- a) 2.351E+01 μC
- b) 2.586E+01 μC
- c) 2.844E+01 μC
- d) 3.129E+01 μC
- e) 3.442E+01 μC
8) A device requires consumes 88 W of power and requires 11.3 A of current which is supplied by a single core 10-guage (2.588 mm diameter) wire. Find the magnitude of the average current density.
- a) 1.467E+06 A/m2
- b) 1.614E+06 A/m2
- c) 1.775E+06 A/m2
- d) 1.953E+06 A/m2
- e) 2.148E+06 A/m2
- a) 1.299E+00 mA
- b) 1.429E+00 mA
- c) 1.572E+00 mA
- d) 1.729E+00 mA
- e) 1.902E+00 mA
10) A given battery has a 15 V emf and an internal resistance of 0.177 Ω. If it is connected to a 0.824 Ω resistor what is the power dissipated by that load?
- a) 1.682E+02 W
- b) 1.850E+02 W
- c) 2.035E+02 W
- d) 2.239E+02 W
- e) 2.463E+02 W
T1(5-10) B1
edit1) An empty parallel-plate capacitor with metal plates has an area of 2.42 m2, separated by 1.33 mm. How much charge does it store if the voltage is 1.130E+03 V?
- a) 1.368E+01 μC
- b) 1.505E+01 μC
- c) 1.655E+01 μC
- d) 1.820E+01 μC
- e) 2.003E+01 μC
- a) 3.959E+01 N·m2/C
- b) 4.354E+01 N·m2/C
- c) 4.790E+01 N·m2/C
- d) 5.269E+01 N·m2/C
- e) 5.796E+01 N·m2/C
3)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 8.933E+00 V/m2
- b) 9.826E+00 V/m2
- c) 1.081E+01 V/m2
- d) 1.189E+01 V/m2
- e) 1.308E+01 V/m2
4) Two large parallel conducting plates are separated by 6.95 mm. Equal and opposite surface charges of 7.360E-07 C/m2 exist on the surfaces between the plates. What is the distance between equipotential planes which differ by 83 V?
- a) 6.565E-01 mm
- b) 7.550E-01 mm
- c) 8.683E-01 mm
- d) 9.985E-01 mm
- e) 1.148E+00 mm
- a) 3.159E+09 N/C2
- b) 3.475E+09 N/C2
- c) 3.823E+09 N/C2
- d) 4.205E+09 N/C2
- e) 4.626E+09 N/C2
6) A given battery has a 13 V emf and an internal resistance of 0.159 Ω. If it is connected to a 0.617 Ω resistor what is the power dissipated by that load?
- a) 1.301E+02 W
- b) 1.431E+02 W
- c) 1.574E+02 W
- d) 1.732E+02 W
- e) 1.905E+02 W
- a) 1.085E+00 mA
- b) 1.194E+00 mA
- c) 1.313E+00 mA
- d) 1.444E+00 mA
- e) 1.589E+00 mA
- a) 5.606E+01 N·m2/C
- b) 6.167E+01 N·m2/C
- c) 6.784E+01 N·m2/C
- d) 7.462E+01 N·m2/C
- e) 8.208E+01 N·m2/C
9) A device requires consumes 168 W of power and requires 11.0 A of current which is supplied by a single core 10-guage (2.588 mm diameter) wire. Find the magnitude of the average current density.
- a) 1.901E+06 A/m2
- b) 2.091E+06 A/m2
- c) 2.300E+06 A/m2
- d) 2.530E+06 A/m2
- e) 2.783E+06 A/m2
10) Calculate the final speed of a free electron accelerated from rest through a potential difference of 46 V.
- a) 3.022E+06 m/s
- b) 3.324E+06 m/s
- c) 3.657E+06 m/s
- d) 4.023E+06 m/s
- e) 4.425E+06 m/s
T1(5-10) B2
edit- a) 1.332E+00 mA
- b) 1.465E+00 mA
- c) 1.612E+00 mA
- d) 1.773E+00 mA
- e) 1.950E+00 mA
2) A device requires consumes 73 W of power and requires 9.14 A of current which is supplied by a single core 10-guage (2.588 mm diameter) wire. Find the magnitude of the average current density.
- a) 1.187E+06 A/m2
- b) 1.306E+06 A/m2
- c) 1.436E+06 A/m2
- d) 1.580E+06 A/m2
- e) 1.738E+06 A/m2
3)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 5.647E+00 V/m2
- b) 6.212E+00 V/m2
- c) 6.833E+00 V/m2
- d) 7.517E+00 V/m2
- e) 8.268E+00 V/m2
4) An empty parallel-plate capacitor with metal plates has an area of 2.1 m2, separated by 1.13 mm. How much charge does it store if the voltage is 1.680E+03 V?
- a) 2.764E+01 μC
- b) 3.041E+01 μC
- c) 3.345E+01 μC
- d) 3.679E+01 μC
- e) 4.047E+01 μC
- a) 4.788E+09 N/C2
- b) 5.267E+09 N/C2
- c) 5.793E+09 N/C2
- d) 6.373E+09 N/C2
- e) 7.010E+09 N/C2
- a) 6.270E+01 N·m2/C
- b) 6.897E+01 N·m2/C
- c) 7.586E+01 N·m2/C
- d) 8.345E+01 N·m2/C
- e) 9.179E+01 N·m2/C
- a) 3.924E+01 N·m2/C
- b) 4.316E+01 N·m2/C
- c) 4.748E+01 N·m2/C
- d) 5.222E+01 N·m2/C
- e) 5.745E+01 N·m2/C
8) Two large parallel conducting plates are separated by 6.95 mm. Equal and opposite surface charges of 7.360E-07 C/m2 exist on the surfaces between the plates. What is the distance between equipotential planes which differ by 83 V?
- a) 6.565E-01 mm
- b) 7.550E-01 mm
- c) 8.683E-01 mm
- d) 9.985E-01 mm
- e) 1.148E+00 mm
9) Calculate the final speed of a free electron accelerated from rest through a potential difference of 83 V.
- a) 4.466E+06 m/s
- b) 4.912E+06 m/s
- c) 5.403E+06 m/s
- d) 5.944E+06 m/s
- e) 6.538E+06 m/s
10) A given battery has a 13 V emf and an internal resistance of 0.159 Ω. If it is connected to a 0.617 Ω resistor what is the power dissipated by that load?
- a) 1.301E+02 W
- b) 1.431E+02 W
- c) 1.574E+02 W
- d) 1.732E+02 W
- e) 1.905E+02 W
T1(5-10) C0
edit1)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 1.022E+00 V/m2
- b) 1.125E+00 V/m2
- c) 1.237E+00 V/m2
- d) 1.361E+00 V/m2
- e) 1.497E+00 V/m2
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.6 m. Evaluate at x=0.73 m if a=0.64 m, b=1.8 m. The total charge on the rod is 3 nC.
- a) 2.955E+00 V/m2
- b) 3.250E+00 V/m2
- c) 3.575E+00 V/m2
- d) 3.933E+00 V/m2
- e) 4.326E+00 V/m2
3) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=7, y=0), (x=0, y=4), and (x=7, y=4), where x and y are measured in meters. The electric field is,
- a) 2.610E+03 V·m
- b) 2.871E+03 V·m
- c) 3.158E+03 V·m
- d) 3.474E+03 V·m
- e) 3.822E+03 V·m
4) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 1.9 nano-Coulombs. What is the magnitude of the electric field at a distance of 2.1 m from the center of the shells?
- a) 5.297E+00 N/C
- b) 5.827E+00 N/C
- c) 6.409E+00 N/C
- d) 7.050E+00 N/C
- e) 7.755E+00 N/C
- a) 3.819E+01 J
- b) 4.201E+01 J
- c) 4.621E+01 J
- d) 5.083E+01 J
- e) 5.591E+01 J
6) If a 14 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=83 V is x2 + y2 + z2 = R2, where R=
- a) 1.378E+00 m
- b) 1.516E+00 m
- c) 1.668E+00 m
- d) 1.834E+00 m
- e) 2.018E+00 m
- a) 2.515E+01 μC
- b) 2.766E+01 μC
- c) 3.043E+01 μC
- d) 3.347E+01 μC
- e) 3.682E+01 μC
8) Imagine a substance could be made into a very hot filament. Suppose the resitance is 3.75 Ω at a temperature of 24°C and that the temperature coefficient of expansion is 4.300E-03 (°C)−1). What is the resistance at a temperature of 423 °C?
- a) 1.018E+01 Ω
- b) 1.069E+01 Ω
- c) 1.123E+01 Ω
- d) 1.179E+01 Ω
- e) 1.238E+01 Ω
- a) 1.332E+00 mA
- b) 1.465E+00 mA
- c) 1.612E+00 mA
- d) 1.773E+00 mA
- e) 1.950E+00 mA
- a) 1.770E-01 A
- b) 1.947E-01 A
- c) 2.141E-01 A
- d) 2.355E-01 A
- e) 2.591E-01 A
T1(5-10) C1
edit1) Imagine a substance could be made into a very hot filament. Suppose the resitance is 5.73 Ω at a temperature of 99°C and that the temperature coefficient of expansion is 5.260E-03 (°C)−1). What is the resistance at a temperature of 420 °C?
- a) 1.267E+01 Ω
- b) 1.331E+01 Ω
- c) 1.397E+01 Ω
- d) 1.467E+01 Ω
- e) 1.540E+01 Ω
- a) 5.998E+01 J
- b) 6.598E+01 J
- c) 7.257E+01 J
- d) 7.983E+01 J
- e) 8.781E+01 J
3) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=7, y=0), (x=0, y=6), and (x=7, y=6), where x and y are measured in meters. The electric field is,
- a) 3.337E+03 V·m
- b) 3.670E+03 V·m
- c) 4.037E+03 V·m
- d) 4.441E+03 V·m
- e) 4.885E+03 V·m
- a) 1.213E-01 A
- b) 1.334E-01 A
- c) 1.468E-01 A
- d) 1.614E-01 A
- e) 1.776E-01 A
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.9 m. Evaluate at x=0.83 m if a=0.7 m, b=1.8 m. The total charge on the rod is 9 nC.
- a) 6.897E+00 V/m2
- b) 7.587E+00 V/m2
- c) 8.345E+00 V/m2
- d) 9.180E+00 V/m2
- e) 1.010E+01 V/m2
6)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 3.228E+00 V/m2
- b) 3.551E+00 V/m2
- c) 3.906E+00 V/m2
- d) 4.297E+00 V/m2
- e) 4.727E+00 V/m2
- a) 1.725E+00 mA
- b) 1.898E+00 mA
- c) 2.087E+00 mA
- d) 2.296E+00 mA
- e) 2.526E+00 mA
- a) 2.385E+01 μC
- b) 2.623E+01 μC
- c) 2.886E+01 μC
- d) 3.174E+01 μC
- e) 3.492E+01 μC
9) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 2.8 nano-Coulombs. What is the magnitude of the electric field at a distance of 4.8 m from the center of the shells?
- a) 2.988E+00 N/C
- b) 3.287E+00 N/C
- c) 3.616E+00 N/C
- d) 3.977E+00 N/C
- e) 4.375E+00 N/C
10) If a 18 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=12 V is x2 + y2 + z2 = R2, where R=
- a) 1.114E+01 m
- b) 1.226E+01 m
- c) 1.348E+01 m
- d) 1.483E+01 m
- e) 1.631E+01 m
T1(5-10) C2
edit1) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 3.4 nano-Coulombs. What is the magnitude of the electric field at a distance of 2.8 m from the center of the shells?
- a) 5.865E+00 N/C
- b) 6.451E+00 N/C
- c) 7.096E+00 N/C
- d) 7.806E+00 N/C
- e) 8.587E+00 N/C
2) If a 18 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=12 V is x2 + y2 + z2 = R2, where R=
- a) 1.114E+01 m
- b) 1.226E+01 m
- c) 1.348E+01 m
- d) 1.483E+01 m
- e) 1.631E+01 m
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.7 m. Evaluate at x=0.52 m if a=0.88 m, b=1.3 m. The total charge on the rod is 6 nC.
- a) 6.804E+00 V/m2
- b) 7.485E+00 V/m2
- c) 8.233E+00 V/m2
- d) 9.056E+00 V/m2
- e) 9.962E+00 V/m2
- a) 1.299E+00 mA
- b) 1.429E+00 mA
- c) 1.572E+00 mA
- d) 1.729E+00 mA
- e) 1.902E+00 mA
- a) 1.886E-01 A
- b) 2.075E-01 A
- c) 2.282E-01 A
- d) 2.510E-01 A
- e) 2.761E-01 A
6)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 4.295E+00 V/m2
- b) 4.724E+00 V/m2
- c) 5.196E+00 V/m2
- d) 5.716E+00 V/m2
- e) 6.288E+00 V/m2
- a) 5.178E+01 J
- b) 5.696E+01 J
- c) 6.266E+01 J
- d) 6.892E+01 J
- e) 7.582E+01 J
8) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=6, y=0), (x=0, y=5), and (x=6, y=5), where x and y are measured in meters. The electric field is,
- a) 2.067E+03 V·m
- b) 2.274E+03 V·m
- c) 2.501E+03 V·m
- d) 2.752E+03 V·m
- e) 3.027E+03 V·m
- a) 2.451E+01 μC
- b) 2.696E+01 μC
- c) 2.966E+01 μC
- d) 3.262E+01 μC
- e) 3.589E+01 μC
10) Imagine a substance could be made into a very hot filament. Suppose the resitance is 2.89 Ω at a temperature of 89°C and that the temperature coefficient of expansion is 5.340E-03 (°C)−1). What is the resistance at a temperature of 566 °C?
- a) 9.763E+00 Ω
- b) 1.025E+01 Ω
- c) 1.076E+01 Ω
- d) 1.130E+01 Ω
- e) 1.187E+01 Ω
T1(5-10) D0
editis an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.4 m. Evaluate at x=1.1 m if a=0.69 m, b=2.2 m. The total charge on the rod is 6 nC.
- a) 3.161E+00 V/m2
- b) 3.477E+00 V/m2
- c) 3.825E+00 V/m2
- d) 4.208E+00 V/m2
- e) 4.628E+00 V/m2
- a) 2.013E+09 N/C2
- b) 2.214E+09 N/C2
- c) 2.435E+09 N/C2
- d) 2.679E+09 N/C2
- e) 2.947E+09 N/C2
- a) 6.192E+01 N·m2/C
- b) 6.811E+01 N·m2/C
- c) 7.492E+01 N·m2/C
- d) 8.242E+01 N·m2/C
- e) 9.066E+01 N·m2/C
4) A non-conducting sphere of radius R=1.4 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.6 (r≤R) where a=3 nC·m-1.4. What is the magnitude of the electric field at a distance of 1.3 m from the center?
- a) 1.457E+02 N/C
- b) 1.603E+02 N/C
- c) 1.763E+02 N/C
- d) 1.939E+02 N/C
- e) 2.133E+02 N/C
5) If a 14 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=83 V is x2 + y2 + z2 = R2, where R=
- a) 1.378E+00 m
- b) 1.516E+00 m
- c) 1.668E+00 m
- d) 1.834E+00 m
- e) 2.018E+00 m
6) A 12.0 V battery can move 12,000 C of charge. How many Joules does it deliver?
- a) 1.190E+05 J
- b) 1.309E+05 J
- c) 1.440E+05 J
- d) 1.584E+05 J
- e) 1.742E+05 J
7) An empty parallel-plate capacitor with metal plates has an area of 2.42 m2, separated by 1.33 mm. How much charge does it store if the voltage is 1.130E+03 V?
- a) 1.368E+01 μC
- b) 1.505E+01 μC
- c) 1.655E+01 μC
- d) 1.820E+01 μC
- e) 2.003E+01 μC
8) What is consumer cost to operate one 115−W incandescent bulb for 12 hours per day for 1 year (365 days) if the cost of electricity is $0.128 per kilowatt-hour?
- a) $5.328E+01
- b) $5.861E+01
- c) $6.447E+01
- d) $7.092E+01
- e) $7.801E+01
- a) 2.089E-01 A
- b) 2.298E-01 A
- c) 2.528E-01 A
- d) 2.781E-01 A
- e) 3.059E-01 A
10) A given battery has a 11 V emf and an internal resistance of 0.0998 Ω. If it is connected to a 0.417 Ω resistor what is the power dissipated by that load?
- a) 1.419E+02 W
- b) 1.561E+02 W
- c) 1.717E+02 W
- d) 1.889E+02 W
- e) 2.078E+02 W
T1(5-10) D1
edit1) An empty parallel-plate capacitor with metal plates has an area of 2.82 m2, separated by 1.29 mm. How much charge does it store if the voltage is 7.420E+03 V?
- a) 1.187E+02 μC
- b) 1.306E+02 μC
- c) 1.436E+02 μC
- d) 1.580E+02 μC
- e) 1.738E+02 μC
2) A 12.0 V battery can move 19,000 C of charge. How many Joules does it deliver?
- a) 1.713E+05 J
- b) 1.884E+05 J
- c) 2.073E+05 J
- d) 2.280E+05 J
- e) 2.508E+05 J
3) If a 11 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=43 V is x2 + y2 + z2 = R2, where R=
- a) 2.299E+00 m
- b) 2.529E+00 m
- c) 2.782E+00 m
- d) 3.060E+00 m
- e) 3.366E+00 m
- a) 7.119E+09 N/C2
- b) 7.831E+09 N/C2
- c) 8.614E+09 N/C2
- d) 9.476E+09 N/C2
- e) 1.042E+10 N/C2
5) A given battery has a 9 V emf and an internal resistance of 0.16 Ω. If it is connected to a 0.45 Ω resistor what is the power dissipated by that load?
- a) 6.691E+01 W
- b) 7.360E+01 W
- c) 8.096E+01 W
- d) 8.905E+01 W
- e) 9.796E+01 W
6) A non-conducting sphere of radius R=3.9 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.4 (r≤R) where a=2 nC·m-1.6. What is the magnitude of the electric field at a distance of 2.6 m from the center?
- a) 3.821E+02 N/C
- b) 4.203E+02 N/C
- c) 4.624E+02 N/C
- d) 5.086E+02 N/C
- e) 5.594E+02 N/C
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.6 m. Evaluate at x=0.73 m if a=0.64 m, b=1.8 m. The total charge on the rod is 3 nC.
- a) 2.955E+00 V/m2
- b) 3.250E+00 V/m2
- c) 3.575E+00 V/m2
- d) 3.933E+00 V/m2
- e) 4.326E+00 V/m2
- a) 7.081E+01 N·m2/C
- b) 7.789E+01 N·m2/C
- c) 8.568E+01 N·m2/C
- d) 9.425E+01 N·m2/C
- e) 1.037E+02 N·m2/C
9) What is consumer cost to operate one 74−W incandescent bulb for 9 hours per day for 1 year (365 days) if the cost of electricity is $0.119 per kilowatt-hour?
- a) $1.976E+01
- b) $2.173E+01
- c) $2.391E+01
- d) $2.630E+01
- e) $2.893E+01
- a) 1.203E-01 A
- b) 1.324E-01 A
- c) 1.456E-01 A
- d) 1.602E-01 A
- e) 1.762E-01 A
T1(5-10) D2
edit1) An empty parallel-plate capacitor with metal plates has an area of 2.21 m2, separated by 1.25 mm. How much charge does it store if the voltage is 1.580E+03 V?
- a) 2.249E+01 μC
- b) 2.473E+01 μC
- c) 2.721E+01 μC
- d) 2.993E+01 μC
- e) 3.292E+01 μC
- a) 4.788E+09 N/C2
- b) 5.267E+09 N/C2
- c) 5.793E+09 N/C2
- d) 6.373E+09 N/C2
- e) 7.010E+09 N/C2
- a) 1.552E-01 A
- b) 1.707E-01 A
- c) 1.878E-01 A
- d) 2.065E-01 A
- e) 2.272E-01 A
4) A given battery has a 9 V emf and an internal resistance of 0.141 Ω. If it is connected to a 0.663 Ω resistor what is the power dissipated by that load?
- a) 5.674E+01 W
- b) 6.242E+01 W
- c) 6.866E+01 W
- d) 7.553E+01 W
- e) 8.308E+01 W
- a) 1.740E+01 N·m2/C
- b) 1.914E+01 N·m2/C
- c) 2.106E+01 N·m2/C
- d) 2.316E+01 N·m2/C
- e) 2.548E+01 N·m2/C
6) A 12.0 V battery can move 44,000 C of charge. How many Joules does it deliver?
- a) 4.800E+05 J
- b) 5.280E+05 J
- c) 5.808E+05 J
- d) 6.389E+05 J
- e) 7.028E+05 J
7) If a 13 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=84 V is x2 + y2 + z2 = R2, where R=
- a) 1.391E+00 m
- b) 1.530E+00 m
- c) 1.683E+00 m
- d) 1.851E+00 m
- e) 2.036E+00 m
8) What is consumer cost to operate one 87−W incandescent bulb for 11 hours per day for 1 year (365 days) if the cost of electricity is $0.117 per kilowatt-hour?
- a) $2.791E+01
- b) $3.071E+01
- c) $3.378E+01
- d) $3.715E+01
- e) $4.087E+01
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.5 m. Evaluate at x=1.0 m if a=1.1 m, b=1.4 m. The total charge on the rod is 5 nC.
- a) 4.602E+00 V/m2
- b) 5.062E+00 V/m2
- c) 5.568E+00 V/m2
- d) 6.125E+00 V/m2
- e) 6.738E+00 V/m2
10) A non-conducting sphere of radius R=1.5 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=2 nC·m-1.5. What is the magnitude of the electric field at a distance of 0.73 m from the center?
- a) 2.285E+01 N/C
- b) 2.514E+01 N/C
- c) 2.765E+01 N/C
- d) 3.042E+01 N/C
- e) 3.346E+01 N/C
T1(5-10) E0
edit- a) 4.357E+01 degrees
- b) 4.793E+01 degrees
- c) 5.272E+01 degrees
- d) 5.799E+01 degrees
- e) 6.379E+01 degrees
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.7 m. Evaluate at x=0.76 m if a=1.1 m, b=1.6 m. The total charge on the rod is 8 nC.
- a) 5.267E+00 V/m2
- b) 5.794E+00 V/m2
- c) 6.374E+00 V/m2
- d) 7.011E+00 V/m2
- e) 7.712E+00 V/m2
3) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 6.4 nano-Coulombs. What is the magnitude of the electric field at a distance of 1.1 m from the center of the shells?
- a) 3.251E+01 N/C
- b) 3.577E+01 N/C
- c) 3.934E+01 N/C
- d) 4.328E+01 N/C
- e) 4.760E+01 N/C
- a) 1.992E+01 N·m2/C
- b) 2.192E+01 N·m2/C
- c) 2.411E+01 N·m2/C
- d) 2.652E+01 N·m2/C
- e) 2.917E+01 N·m2/C
- a) 3.852E+02 V
- b) 4.238E+02 V
- c) 4.661E+02 V
- d) 5.127E+02 V
- e) 5.640E+02 V
6) Calculate the final speed of a free electron accelerated from rest through a potential difference of 83 V.
- a) 4.466E+06 m/s
- b) 4.912E+06 m/s
- c) 5.403E+06 m/s
- d) 5.944E+06 m/s
- e) 6.538E+06 m/s
- a) 5.482E+00 μF
- b) 6.030E+00 μF
- c) 6.633E+00 μF
- d) 7.296E+00 μF
- e) 8.026E+00 μF
8) A DC winch moter draws 26 amps at 153 volts as it lifts a 4.100E+03 N weight at a constant speed of 0.609 m/s. Assuming that all the electrical power is either converted into gravitational potential energy or ohmically heats the motor's coils, calculate the coil's resistance.
- a) 2.191E+00 Ω
- b) 2.410E+00 Ω
- c) 2.651E+00 Ω
- d) 2.916E+00 Ω
- e) 3.208E+00 Ω
- a) 1.770E-01 A
- b) 1.947E-01 A
- c) 2.141E-01 A
- d) 2.355E-01 A
- e) 2.591E-01 A
- a) 1.906E+01 V
- b) 2.097E+01 V
- c) 2.306E+01 V
- d) 2.537E+01 V
- e) 2.790E+01 V
T1(5-10) E1
edit- a) 4.743E+01 degrees
- b) 5.217E+01 degrees
- c) 5.739E+01 degrees
- d) 6.313E+01 degrees
- e) 6.944E+01 degrees
- a) 8.147E-02 A
- b) 8.962E-02 A
- c) 9.858E-02 A
- d) 1.084E-01 A
- e) 1.193E-01 A
- a) 4.173E+00 μF
- b) 4.590E+00 μF
- c) 5.049E+00 μF
- d) 5.554E+00 μF
- e) 6.110E+00 μF
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.8 m. Evaluate at x=1.0 m if a=1.0 m, b=1.8 m. The total charge on the rod is 6 nC.
- a) 3.610E+00 V/m2
- b) 3.971E+00 V/m2
- c) 4.368E+00 V/m2
- d) 4.804E+00 V/m2
- e) 5.285E+00 V/m2
- a) 1.056E+01 V
- b) 1.161E+01 V
- c) 1.277E+01 V
- d) 1.405E+01 V
- e) 1.545E+01 V
6) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 7.8 nano-Coulombs. What is the magnitude of the electric field at a distance of 1.3 m from the center of the shells?
- a) 2.837E+01 N/C
- b) 3.121E+01 N/C
- c) 3.433E+01 N/C
- d) 3.776E+01 N/C
- e) 4.154E+01 N/C
- a) 4.324E+02 V
- b) 4.757E+02 V
- c) 5.232E+02 V
- d) 5.755E+02 V
- e) 6.331E+02 V
8) A DC winch moter draws 26 amps at 177 volts as it lifts a 4.820E+03 N weight at a constant speed of 0.696 m/s. Assuming that all the electrical power is either converted into gravitational potential energy or ohmically heats the motor's coils, calculate the coil's resistance.
- a) 1.677E+00 Ω
- b) 1.845E+00 Ω
- c) 2.030E+00 Ω
- d) 2.233E+00 Ω
- e) 2.456E+00 Ω
- a) 2.186E+01 N·m2/C
- b) 2.404E+01 N·m2/C
- c) 2.645E+01 N·m2/C
- d) 2.909E+01 N·m2/C
- e) 3.200E+01 N·m2/C
10) Calculate the final speed of a free electron accelerated from rest through a potential difference of 83 V.
- a) 4.466E+06 m/s
- b) 4.912E+06 m/s
- c) 5.403E+06 m/s
- d) 5.944E+06 m/s
- e) 6.538E+06 m/s
T1(5-10) E2
edit- a) 5.796E+02 V
- b) 6.375E+02 V
- c) 7.013E+02 V
- d) 7.714E+02 V
- e) 8.486E+02 V
- a) 8.334E+00 V
- b) 9.167E+00 V
- c) 1.008E+01 V
- d) 1.109E+01 V
- e) 1.220E+01 V
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.7 m. Evaluate at x=0.76 m if a=1.1 m, b=1.6 m. The total charge on the rod is 8 nC.
- a) 5.267E+00 V/m2
- b) 5.794E+00 V/m2
- c) 6.374E+00 V/m2
- d) 7.011E+00 V/m2
- e) 7.712E+00 V/m2
4) Calculate the final speed of a free electron accelerated from rest through a potential difference of 45 V.
- a) 3.617E+06 m/s
- b) 3.979E+06 m/s
- c) 4.376E+06 m/s
- d) 4.814E+06 m/s
- e) 5.296E+06 m/s
5) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 9.7 nano-Coulombs. What is the magnitude of the electric field at a distance of 4.4 m from the center of the shells?
- a) 1.491E+01 N/C
- b) 1.640E+01 N/C
- c) 1.804E+01 N/C
- d) 1.984E+01 N/C
- e) 2.182E+01 N/C
- a) 1.427E-01 A
- b) 1.569E-01 A
- c) 1.726E-01 A
- d) 1.899E-01 A
- e) 2.089E-01 A
- a) 3.924E+01 N·m2/C
- b) 4.316E+01 N·m2/C
- c) 4.748E+01 N·m2/C
- d) 5.222E+01 N·m2/C
- e) 5.745E+01 N·m2/C
- a) 4.091E+01 degrees
- b) 4.500E+01 degrees
- c) 4.950E+01 degrees
- d) 5.445E+01 degrees
- e) 5.990E+01 degrees
9) A DC winch moter draws 17 amps at 187 volts as it lifts a 5.600E+03 N weight at a constant speed of 0.381 m/s. Assuming that all the electrical power is either converted into gravitational potential energy or ohmically heats the motor's coils, calculate the coil's resistance.
- a) 2.471E+00 Ω
- b) 2.718E+00 Ω
- c) 2.990E+00 Ω
- d) 3.288E+00 Ω
- e) 3.617E+00 Ω
- a) 3.700E+00 μF
- b) 4.070E+00 μF
- c) 4.477E+00 μF
- d) 4.925E+00 μF
- e) 5.417E+00 μF
T1(5-10) F0
edit1)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 8.253E-01 V/m2
- b) 9.079E-01 V/m2
- c) 9.987E-01 V/m2
- d) 1.099E+00 V/m2
- e) 1.208E+00 V/m2
- a) 4.142E+09 N/C2
- b) 4.556E+09 N/C2
- c) 5.012E+09 N/C2
- d) 5.513E+09 N/C2
- e) 6.064E+09 N/C2
3) A non-conducting sphere of radius R=3.0 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.2 (r≤R) where a=2 nC·m-1.8. What is the magnitude of the electric field at a distance of 2.1 m from the center?
- a) 2.274E+02 N/C
- b) 2.501E+02 N/C
- c) 2.751E+02 N/C
- d) 3.026E+02 N/C
- e) 3.329E+02 N/C
- a) 1.698E+01 N·m2/C
- b) 1.868E+01 N·m2/C
- c) 2.055E+01 N·m2/C
- d) 2.260E+01 N·m2/C
- e) 2.486E+01 N·m2/C
- a) 1.071E+01 μC
- b) 1.178E+01 μC
- c) 1.296E+01 μC
- d) 1.426E+01 μC
- e) 1.568E+01 μC
6) Calculate the final speed of a free electron accelerated from rest through a potential difference of 46 V.
- a) 3.022E+06 m/s
- b) 3.324E+06 m/s
- c) 3.657E+06 m/s
- d) 4.023E+06 m/s
- e) 4.425E+06 m/s
7) An empty parallel-plate capacitor with metal plates has an area of 2.83 m2, separated by 1.14 mm. How much charge does it store if the voltage is 4.180E+03 V?
- a) 6.275E+01 μC
- b) 6.903E+01 μC
- c) 7.593E+01 μC
- d) 8.352E+01 μC
- e) 9.188E+01 μC
8) A device requires consumes 73 W of power and requires 9.14 A of current which is supplied by a single core 10-guage (2.588 mm diameter) wire. Find the magnitude of the average current density.
- a) 1.187E+06 A/m2
- b) 1.306E+06 A/m2
- c) 1.436E+06 A/m2
- d) 1.580E+06 A/m2
- e) 1.738E+06 A/m2
- a) 1.401E-01 A
- b) 1.542E-01 A
- c) 1.696E-01 A
- d) 1.865E-01 A
- e) 2.052E-01 A
- a) 1.906E+01 V
- b) 2.097E+01 V
- c) 2.306E+01 V
- d) 2.537E+01 V
- e) 2.790E+01 V
T1(5-10) F1
edit- a) 1.304E+01 μC
- b) 1.434E+01 μC
- c) 1.577E+01 μC
- d) 1.735E+01 μC
- e) 1.909E+01 μC
2) Calculate the final speed of a free electron accelerated from rest through a potential difference of 30 V.
- a) 2.441E+06 m/s
- b) 2.685E+06 m/s
- c) 2.953E+06 m/s
- d) 3.249E+06 m/s
- e) 3.573E+06 m/s
3)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 4.295E+00 V/m2
- b) 4.724E+00 V/m2
- c) 5.196E+00 V/m2
- d) 5.716E+00 V/m2
- e) 6.288E+00 V/m2
- a) 7.793E+01 N·m2/C
- b) 8.572E+01 N·m2/C
- c) 9.429E+01 N·m2/C
- d) 1.037E+02 N·m2/C
- e) 1.141E+02 N·m2/C
5) A device requires consumes 168 W of power and requires 11.0 A of current which is supplied by a single core 10-guage (2.588 mm diameter) wire. Find the magnitude of the average current density.
- a) 1.901E+06 A/m2
- b) 2.091E+06 A/m2
- c) 2.300E+06 A/m2
- d) 2.530E+06 A/m2
- e) 2.783E+06 A/m2
6) A non-conducting sphere of radius R=1.7 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=3 nC·m-1.5. What is the magnitude of the electric field at a distance of 0.64 m from the center?
- a) 2.039E+01 N/C
- b) 2.243E+01 N/C
- c) 2.467E+01 N/C
- d) 2.714E+01 N/C
- e) 2.985E+01 N/C
- a) 8.754E+00 V
- b) 9.630E+00 V
- c) 1.059E+01 V
- d) 1.165E+01 V
- e) 1.282E+01 V
- a) 3.159E+09 N/C2
- b) 3.475E+09 N/C2
- c) 3.823E+09 N/C2
- d) 4.205E+09 N/C2
- e) 4.626E+09 N/C2
- a) 1.886E-01 A
- b) 2.075E-01 A
- c) 2.282E-01 A
- d) 2.510E-01 A
- e) 2.761E-01 A
10) An empty parallel-plate capacitor with metal plates has an area of 2.82 m2, separated by 1.29 mm. How much charge does it store if the voltage is 7.420E+03 V?
- a) 1.187E+02 μC
- b) 1.306E+02 μC
- c) 1.436E+02 μC
- d) 1.580E+02 μC
- e) 1.738E+02 μC
T1(5-10) F2
edit1) A device requires consumes 196 W of power and requires 2.4 A of current which is supplied by a single core 10-guage (2.588 mm diameter) wire. Find the magnitude of the average current density.
- a) 4.563E+05 A/m2
- b) 5.019E+05 A/m2
- c) 5.521E+05 A/m2
- d) 6.073E+05 A/m2
- e) 6.680E+05 A/m2
- a) 7.415E+09 N/C2
- b) 8.156E+09 N/C2
- c) 8.972E+09 N/C2
- d) 9.869E+09 N/C2
- e) 1.086E+10 N/C2
- a) 1.552E-01 A
- b) 1.707E-01 A
- c) 1.878E-01 A
- d) 2.065E-01 A
- e) 2.272E-01 A
- a) 9.184E+00 μC
- b) 1.010E+01 μC
- c) 1.111E+01 μC
- d) 1.222E+01 μC
- e) 1.345E+01 μC
5) An empty parallel-plate capacitor with metal plates has an area of 2.51 m2, separated by 1.44 mm. How much charge does it store if the voltage is 2.230E+03 V?
- a) 2.351E+01 μC
- b) 2.586E+01 μC
- c) 2.844E+01 μC
- d) 3.129E+01 μC
- e) 3.442E+01 μC
6) A non-conducting sphere of radius R=3.5 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.2 (r≤R) where a=2 nC·m-1.8. What is the magnitude of the electric field at a distance of 2.3 m from the center?
- a) 2.777E+02 N/C
- b) 3.055E+02 N/C
- c) 3.361E+02 N/C
- d) 3.697E+02 N/C
- e) 4.066E+02 N/C
- a) 6.488E+00 V
- b) 7.137E+00 V
- c) 7.850E+00 V
- d) 8.635E+00 V
- e) 9.499E+00 V
8) Calculate the final speed of a free electron accelerated from rest through a potential difference of 45 V.
- a) 3.288E+06 m/s
- b) 3.617E+06 m/s
- c) 3.979E+06 m/s
- d) 4.376E+06 m/s
- e) 4.814E+06 m/s
9)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 1.258E+00 V/m2
- b) 1.384E+00 V/m2
- c) 1.522E+00 V/m2
- d) 1.674E+00 V/m2
- e) 1.842E+00 V/m2
- a) 1.992E+01 N·m2/C
- b) 2.192E+01 N·m2/C
- c) 2.411E+01 N·m2/C
- d) 2.652E+01 N·m2/C
- e) 2.917E+01 N·m2/C
T1(5-10) G0
edit- a) 8.613E-15 N
- b) 9.474E-15 N
- c) 1.042E-14 N
- d) 1.146E-14 N
- e) 1.261E-14 N
- a) 1.353E+09 N/C2
- b) 1.488E+09 N/C2
- c) 1.637E+09 N/C2
- d) 1.801E+09 N/C2
- e) 1.981E+09 N/C2
3) A non-conducting sphere of radius R=3.7 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.4 (r≤R) where a=2 nC·m-1.6. What is the magnitude of the electric field at a distance of 3.1 m from the center?
- a) 6.411E+02 N/C
- b) 7.052E+02 N/C
- c) 7.757E+02 N/C
- d) 8.533E+02 N/C
- e) 9.386E+02 N/C
- a) 2.214E+01 N·m2/C
- b) 2.436E+01 N·m2/C
- c) 2.679E+01 N·m2/C
- d) 2.947E+01 N·m2/C
- e) 3.242E+01 N·m2/C
5) A 7 C charge is separated from a 11 C charge by distance of 11 cm. What is the work done by increasing this separation to 19 cm?
- a) 2.408E-06 J
- b) 2.649E-06 J
- c) 2.914E-06 J
- d) 3.205E-06 J
- e) 3.526E-06 J
- a) 1.038E+01 μC
- b) 1.142E+01 μC
- c) 1.256E+01 μC
- d) 1.381E+01 μC
- e) 1.519E+01 μC
- a) 1.764E+01 μJ
- b) 1.940E+01 μJ
- c) 2.134E+01 μJ
- d) 2.348E+01 μJ
- e) 2.583E+01 μJ
8) What is the average current involved when a truck battery sets in motion 738 C of charge in 3.87 s while starting an engine?
- a) 1.907E+02 A
- b) 2.098E+02 A
- c) 2.307E+02 A
- d) 2.538E+02 A
- e) 2.792E+02 A
- a) 1.157E+01 W
- b) 1.273E+01 W
- c) 1.400E+01 W
- d) 1.540E+01 W
- e) 1.694E+01 W
- a) 1.137E-01 A
- b) 1.251E-01 A
- c) 1.376E-01 A
- d) 1.514E-01 A
- e) 1.665E-01 A
T1(5-10) G1
edit1) A non-conducting sphere of radius R=1.2 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.6 (r≤R) where a=2 nC·m-1.4. What is the magnitude of the electric field at a distance of 0.76 m from the center?
- a) 2.406E+01 N/C
- b) 2.646E+01 N/C
- c) 2.911E+01 N/C
- d) 3.202E+01 N/C
- e) 3.522E+01 N/C
2) A 4 C charge is separated from a 9 C charge by distance of 9 cm. What is the work done by increasing this separation to 14 cm?
- a) 8.769E-07 J
- b) 9.646E-07 J
- c) 1.061E-06 J
- d) 1.167E-06 J
- e) 1.284E-06 J
- a) 8.336E+09 N/C2
- b) 9.170E+09 N/C2
- c) 1.009E+10 N/C2
- d) 1.110E+10 N/C2
- e) 1.220E+10 N/C2
4) What is the average current involved when a truck battery sets in motion 682 C of charge in 5.29 s while starting an engine?
- a) 1.065E+02 A
- b) 1.172E+02 A
- c) 1.289E+02 A
- d) 1.418E+02 A
- e) 1.560E+02 A
- a) 2.248E-14 N
- b) 2.473E-14 N
- c) 2.721E-14 N
- d) 2.993E-14 N
- e) 3.292E-14 N
- a) 1.096E+01 W
- b) 1.206E+01 W
- c) 1.326E+01 W
- d) 1.459E+01 W
- e) 1.605E+01 W
- a) 1.744E+01 μC
- b) 1.918E+01 μC
- c) 2.110E+01 μC
- d) 2.321E+01 μC
- e) 2.554E+01 μC
- a) 1.203E-01 A
- b) 1.324E-01 A
- c) 1.456E-01 A
- d) 1.602E-01 A
- e) 1.762E-01 A
- a) 4.420E+01 N·m2/C
- b) 4.862E+01 N·m2/C
- c) 5.348E+01 N·m2/C
- d) 5.882E+01 N·m2/C
- e) 6.471E+01 N·m2/C
- a) 6.750E+00 μJ
- b) 7.425E+00 μJ
- c) 8.168E+00 μJ
- d) 8.984E+00 μJ
- e) 9.883E+00 μJ
T1(5-10) G2
edit1) A 7 C charge is separated from a 11 C charge by distance of 11 cm. What is the work done by increasing this separation to 19 cm?
- a) 2.408E-06 J
- b) 2.649E-06 J
- c) 2.914E-06 J
- d) 3.205E-06 J
- e) 3.526E-06 J
- a) 9.750E-15 N
- b) 1.072E-14 N
- c) 1.180E-14 N
- d) 1.298E-14 N
- e) 1.427E-14 N
- a) 2.186E+01 N·m2/C
- b) 2.404E+01 N·m2/C
- c) 2.645E+01 N·m2/C
- d) 2.909E+01 N·m2/C
- e) 3.200E+01 N·m2/C
- a) 1.303E+01 μJ
- b) 1.434E+01 μJ
- c) 1.577E+01 μJ
- d) 1.735E+01 μJ
- e) 1.908E+01 μJ
5) A non-conducting sphere of radius R=1.7 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=3 nC·m-1.5. What is the magnitude of the electric field at a distance of 0.64 m from the center?
- a) 2.039E+01 N/C
- b) 2.243E+01 N/C
- c) 2.467E+01 N/C
- d) 2.714E+01 N/C
- e) 2.985E+01 N/C
- a) 1.770E-01 A
- b) 1.947E-01 A
- c) 2.141E-01 A
- d) 2.355E-01 A
- e) 2.591E-01 A
- a) 2.013E+09 N/C2
- b) 2.214E+09 N/C2
- c) 2.435E+09 N/C2
- d) 2.679E+09 N/C2
- e) 2.947E+09 N/C2
- a) 1.900E+01 μC
- b) 2.090E+01 μC
- c) 2.299E+01 μC
- d) 2.529E+01 μC
- e) 2.782E+01 μC
9) What is the average current involved when a truck battery sets in motion 701 C of charge in 4.98 s while starting an engine?
- a) 1.280E+02 A
- b) 1.408E+02 A
- c) 1.548E+02 A
- d) 1.703E+02 A
- e) 1.874E+02 A
- a) 1.784E+01 W
- b) 1.963E+01 W
- c) 2.159E+01 W
- d) 2.375E+01 W
- e) 2.612E+01 W
T1(5-10) H0
edit- a) 2.544E-14 N
- b) 2.798E-14 N
- c) 3.078E-14 N
- d) 3.385E-14 N
- e) 3.724E-14 N
2) A large thin isolated square plate has an area of 3 m2. It is uniformly charged with 9 nC of charge. What is the magnitude of the electric field 3 mm from the center of the plate's surface?
- a) 1.694E+02 N/C
- b) 1.864E+02 N/C
- c) 2.050E+02 N/C
- d) 2.255E+02 N/C
- e) 2.480E+02 N/C
3) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 1.2 nano-Coulombs. What is the magnitude of the electric field at a distance of 5.8 m from the center of the shells?
- a) 1.096E+00 N/C
- b) 1.206E+00 N/C
- c) 1.327E+00 N/C
- d) 1.459E+00 N/C
- e) 1.605E+00 N/C
- a) 8.415E+01 N·m2/C
- b) 9.256E+01 N·m2/C
- c) 1.018E+02 N·m2/C
- d) 1.120E+02 N·m2/C
- e) 1.232E+02 N·m2/C
5) Calculate the final speed of a free electron accelerated from rest through a potential difference of 12 V.
- a) 1.698E+06 m/s
- b) 1.868E+06 m/s
- c) 2.055E+06 m/s
- d) 2.260E+06 m/s
- e) 2.486E+06 m/s
- a) 3.697E-01 N
- b) 4.067E-01 N
- c) 4.474E-01 N
- d) 4.921E-01 N
- e) 5.413E-01 N
- a) 3.018E+00 μF
- b) 3.320E+00 μF
- c) 3.652E+00 μF
- d) 4.017E+00 μF
- e) 4.419E+00 μF
8) The charge passing a plane intersecting a wire is , where =27 C and 0.0154 s. What is the current at 0.0177 s?
- a) 4.591E+02 A
- b) 5.050E+02 A
- c) 5.555E+02 A
- d) 6.111E+02 A
- e) 6.722E+02 A
- a) 2.247E+00 mA
- b) 2.472E+00 mA
- c) 2.719E+00 mA
- d) 2.991E+00 mA
- e) 3.290E+00 mA
- a) 1.552E-01 A
- b) 1.707E-01 A
- c) 1.878E-01 A
- d) 2.065E-01 A
- e) 2.272E-01 A
T1(5-10) H1
edit1) Calculate the final speed of a free electron accelerated from rest through a potential difference of 16 V.
- a) 2.157E+06 m/s
- b) 2.372E+06 m/s
- c) 2.610E+06 m/s
- d) 2.871E+06 m/s
- e) 3.158E+06 m/s
- a) 3.038E+00 μF
- b) 3.341E+00 μF
- c) 3.675E+00 μF
- d) 4.043E+00 μF
- e) 4.447E+00 μF
- a) 1.770E-01 A
- b) 1.947E-01 A
- c) 2.141E-01 A
- d) 2.355E-01 A
- e) 2.591E-01 A
- a) 2.348E-01 N
- b) 2.583E-01 N
- c) 2.841E-01 N
- d) 3.126E-01 N
- e) 3.438E-01 N
- a) 2.036E-14 N
- b) 2.240E-14 N
- c) 2.464E-14 N
- d) 2.710E-14 N
- e) 2.981E-14 N
- a) 7.264E-01 mA
- b) 7.990E-01 mA
- c) 8.789E-01 mA
- d) 9.668E-01 mA
- e) 1.063E+00 mA
7) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 6.5 nano-Coulombs. What is the magnitude of the electric field at a distance of 1.3 m from the center of the shells?
- a) 2.601E+01 N/C
- b) 2.861E+01 N/C
- c) 3.147E+01 N/C
- d) 3.462E+01 N/C
- e) 3.808E+01 N/C
8) A large thin isolated square plate has an area of 5 m2. It is uniformly charged with 7 nC of charge. What is the magnitude of the electric field 1 mm from the center of the plate's surface?
- a) 6.534E+01 N/C
- b) 7.187E+01 N/C
- c) 7.906E+01 N/C
- d) 8.696E+01 N/C
- e) 9.566E+01 N/C
9) The charge passing a plane intersecting a wire is , where =42 C and 0.0166 s. What is the current at 0.0156 s?
- a) 9.886E+02 A
- b) 1.087E+03 A
- c) 1.196E+03 A
- d) 1.316E+03 A
- e) 1.447E+03 A
- a) 5.439E+01 N·m2/C
- b) 5.983E+01 N·m2/C
- c) 6.581E+01 N·m2/C
- d) 7.239E+01 N·m2/C
- e) 7.963E+01 N·m2/C
T1(5-10) H2
edit1) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 9.0 nano-Coulombs. What is the magnitude of the electric field at a distance of 5.5 m from the center of the shells?
- a) 9.144E+00 N/C
- b) 1.006E+01 N/C
- c) 1.106E+01 N/C
- d) 1.217E+01 N/C
- e) 1.339E+01 N/C
- a) 1.374E-01 N
- b) 1.511E-01 N
- c) 1.662E-01 N
- d) 1.828E-01 N
- e) 2.011E-01 N
- a) 1.825E+00 mA
- b) 2.007E+00 mA
- c) 2.208E+00 mA
- d) 2.429E+00 mA
- e) 2.672E+00 mA
4) The charge passing a plane intersecting a wire is , where =38 C and 0.0167 s. What is the current at 0.0183 s?
- a) 5.715E+02 A
- b) 6.286E+02 A
- c) 6.915E+02 A
- d) 7.606E+02 A
- e) 8.367E+02 A
- a) 3.222E+01 N·m2/C
- b) 3.544E+01 N·m2/C
- c) 3.899E+01 N·m2/C
- d) 4.289E+01 N·m2/C
- e) 4.718E+01 N·m2/C
6) Calculate the final speed of a free electron accelerated from rest through a potential difference of 45 V.
- a) 3.617E+06 m/s
- b) 3.979E+06 m/s
- c) 4.376E+06 m/s
- d) 4.814E+06 m/s
- e) 5.296E+06 m/s
7) A large thin isolated square plate has an area of 6 m2. It is uniformly charged with 9 nC of charge. What is the magnitude of the electric field 2 mm from the center of the plate's surface?
- a) 7.000E+01 N/C
- b) 7.701E+01 N/C
- c) 8.471E+01 N/C
- d) 9.318E+01 N/C
- e) 1.025E+02 N/C
- a) 3.018E+00 μF
- b) 3.320E+00 μF
- c) 3.652E+00 μF
- d) 4.017E+00 μF
- e) 4.419E+00 μF
- a) 1.464E-01 A
- b) 1.610E-01 A
- c) 1.772E-01 A
- d) 1.949E-01 A
- e) 2.144E-01 A
- a) 8.259E-15 N
- b) 9.085E-15 N
- c) 9.993E-15 N
- d) 1.099E-14 N
- e) 1.209E-14 N
T1(5-10) I0
edit- a) 5.569E+01 degrees
- b) 6.125E+01 degrees
- c) 6.738E+01 degrees
- d) 7.412E+01 degrees
- e) 8.153E+01 degrees
2)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 3.228E+00 V/m2
- b) 3.551E+00 V/m2
- c) 3.906E+00 V/m2
- d) 4.297E+00 V/m2
- e) 4.727E+00 V/m2
3) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=5, y=0), (x=0, y=7), and (x=5, y=7), where x and y are measured in meters. The electric field is,
- a) 1.128E+04 V·m
- b) 1.241E+04 V·m
- c) 1.365E+04 V·m
- d) 1.502E+04 V·m
- e) 1.652E+04 V·m
- a) 4.809E+01 N·m2/C
- b) 5.290E+01 N·m2/C
- c) 5.819E+01 N·m2/C
- d) 6.401E+01 N·m2/C
- e) 7.041E+01 N·m2/C
5) If a 11 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=61 V is x2 + y2 + z2 = R2, where R=
- a) 1.107E+00 m
- b) 1.218E+00 m
- c) 1.339E+00 m
- d) 1.473E+00 m
- e) 1.621E+00 m
- a) 3.814E+02 V
- b) 4.195E+02 V
- c) 4.615E+02 V
- d) 5.077E+02 V
- e) 5.584E+02 V
7) An empty parallel-plate capacitor with metal plates has an area of 2.1 m2, separated by 1.13 mm. How much charge does it store if the voltage is 1.680E+03 V?
- a) 2.764E+01 μC
- b) 3.041E+01 μC
- c) 3.345E+01 μC
- d) 3.679E+01 μC
- e) 4.047E+01 μC
8) A DC winch moter draws 25 amps at 119 volts as it lifts a 4.730E+03 N weight at a constant speed of 0.47 m/s. Assuming that all the electrical power is either converted into gravitational potential energy or ohmically heats the motor's coils, calculate the coil's resistance.
- a) 1.094E+00 Ω
- b) 1.203E+00 Ω
- c) 1.323E+00 Ω
- d) 1.456E+00 Ω
- e) 1.601E+00 Ω
- a) 3.890E+00 V
- b) 4.279E+00 V
- c) 4.707E+00 V
- d) 5.178E+00 V
- e) 5.695E+00 V
- a) 2.247E+00 mA
- b) 2.472E+00 mA
- c) 2.719E+00 mA
- d) 2.991E+00 mA
- e) 3.290E+00 mA
T1(5-10) I1
edit- a) 4.743E+01 degrees
- b) 5.217E+01 degrees
- c) 5.739E+01 degrees
- d) 6.313E+01 degrees
- e) 6.944E+01 degrees
- a) 8.457E+01 N·m2/C
- b) 9.303E+01 N·m2/C
- c) 1.023E+02 N·m2/C
- d) 1.126E+02 N·m2/C
- e) 1.238E+02 N·m2/C
3) A DC winch moter draws 19 amps at 175 volts as it lifts a 4.230E+03 N weight at a constant speed of 0.483 m/s. Assuming that all the electrical power is either converted into gravitational potential energy or ohmically heats the motor's coils, calculate the coil's resistance.
- a) 3.551E+00 Ω
- b) 3.906E+00 Ω
- c) 4.297E+00 Ω
- d) 4.726E+00 Ω
- e) 5.199E+00 Ω
4)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 3.228E+00 V/m2
- b) 3.551E+00 V/m2
- c) 3.906E+00 V/m2
- d) 4.297E+00 V/m2
- e) 4.727E+00 V/m2
5) An empty parallel-plate capacitor with metal plates has an area of 1.94 m2, separated by 1.36 mm. How much charge does it store if the voltage is 8.530E+03 V?
- a) 7.359E+01 μC
- b) 8.094E+01 μC
- c) 8.904E+01 μC
- d) 9.794E+01 μC
- e) 1.077E+02 μC
- a) 8.687E+00 V
- b) 9.555E+00 V
- c) 1.051E+01 V
- d) 1.156E+01 V
- e) 1.272E+01 V
7) If a 23 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=62 V is x2 + y2 + z2 = R2, where R=
- a) 2.277E+00 m
- b) 2.505E+00 m
- c) 2.755E+00 m
- d) 3.031E+00 m
- e) 3.334E+00 m
- a) 1.717E+00 mA
- b) 1.888E+00 mA
- c) 2.077E+00 mA
- d) 2.285E+00 mA
- e) 2.514E+00 mA
- a) 5.645E+02 V
- b) 6.210E+02 V
- c) 6.831E+02 V
- d) 7.514E+02 V
- e) 8.266E+02 V
10) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=6, y=0), (x=0, y=6), and (x=6, y=6), where x and y are measured in meters. The electric field is,
- a) 4.820E+03 V·m
- b) 5.302E+03 V·m
- c) 5.832E+03 V·m
- d) 6.415E+03 V·m
- e) 7.057E+03 V·m
T1(5-10) I2
edit1)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 4.961E-01 V/m2
- b) 5.457E-01 V/m2
- c) 6.002E-01 V/m2
- d) 6.603E-01 V/m2
- e) 7.263E-01 V/m2
2) If a 24 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=97 V is x2 + y2 + z2 = R2, where R=
- a) 1.838E+00 m
- b) 2.022E+00 m
- c) 2.224E+00 m
- d) 2.446E+00 m
- e) 2.691E+00 m
3) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=6, y=0), (x=0, y=6), and (x=6, y=6), where x and y are measured in meters. The electric field is,
- a) 9.952E+03 V·m
- b) 1.095E+04 V·m
- c) 1.204E+04 V·m
- d) 1.325E+04 V·m
- e) 1.457E+04 V·m
- a) 2.731E+02 V
- b) 3.004E+02 V
- c) 3.304E+02 V
- d) 3.634E+02 V
- e) 3.998E+02 V
5) A DC winch moter draws 26 amps at 177 volts as it lifts a 4.820E+03 N weight at a constant speed of 0.696 m/s. Assuming that all the electrical power is either converted into gravitational potential energy or ohmically heats the motor's coils, calculate the coil's resistance.
- a) 1.677E+00 Ω
- b) 1.845E+00 Ω
- c) 2.030E+00 Ω
- d) 2.233E+00 Ω
- e) 2.456E+00 Ω
- a) 3.712E+01 N·m2/C
- b) 4.083E+01 N·m2/C
- c) 4.491E+01 N·m2/C
- d) 4.940E+01 N·m2/C
- e) 5.434E+01 N·m2/C
- a) 4.275E+00 V
- b) 4.703E+00 V
- c) 5.173E+00 V
- d) 5.691E+00 V
- e) 6.260E+00 V
- a) 6.970E+00 mA
- b) 7.667E+00 mA
- c) 8.434E+00 mA
- d) 9.277E+00 mA
- e) 1.020E+01 mA
- a) 4.766E+01 degrees
- b) 5.243E+01 degrees
- c) 5.767E+01 degrees
- d) 6.343E+01 degrees
- e) 6.978E+01 degrees
10) An empty parallel-plate capacitor with metal plates has an area of 2.66 m2, separated by 1.18 mm. How much charge does it store if the voltage is 6.170E+03 V?
- a) 1.231E+02 μC
- b) 1.355E+02 μC
- c) 1.490E+02 μC
- d) 1.639E+02 μC
- e) 1.803E+02 μC
T1(5-10) J0
edit1)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 1.022E+00 V/m2
- b) 1.125E+00 V/m2
- c) 1.237E+00 V/m2
- d) 1.361E+00 V/m2
- e) 1.497E+00 V/m2
- a) 9.750E-15 N
- b) 1.072E-14 N
- c) 1.180E-14 N
- d) 1.298E-14 N
- e) 1.427E-14 N
3) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=8, y=0), (x=0, y=8), and (x=8, y=8), where x and y are measured in meters. The electric field is,
- a) 9.027E+03 V·m
- b) 9.930E+03 V·m
- c) 1.092E+04 V·m
- d) 1.202E+04 V·m
- e) 1.322E+04 V·m
4) A non-conducting sphere of radius R=2.9 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=2 nC·m-1.5. What is the magnitude of the electric field at a distance of 1.5 m from the center?
- a) 1.383E+02 N/C
- b) 1.522E+02 N/C
- c) 1.674E+02 N/C
- d) 1.841E+02 N/C
- e) 2.025E+02 N/C
5) When a 1.95 V battery operates a 2.8 W bulb, how many electrons pass through it each second?
- a) 7.407E+18 electrons
- b) 8.147E+18 electrons
- c) 8.962E+18 electrons
- d) 9.858E+18 electrons
- e) 1.084E+19 electrons
- a) 7.789E+01 J
- b) 8.568E+01 J
- c) 9.425E+01 J
- d) 1.037E+02 J
- e) 1.140E+02 J
- a) 2.451E+01 μC
- b) 2.696E+01 μC
- c) 2.966E+01 μC
- d) 3.262E+01 μC
- e) 3.589E+01 μC
8) Calculate the electric field in a 12-gauge copper wire that is 23 m long and carries a current of 64 mA. The resistivity of copper is 1.680E-08 Ω·m and 12-gauge wire as a cross-sectional area of 3.31 mm2.
- a) 2.953E-04 V/m
- b) 3.248E-04 V/m
- c) 3.573E-04 V/m
- d) 3.930E-04 V/m
- e) 4.324E-04 V/m
- a) 4.986E+00 V
- b) 5.484E+00 V
- c) 6.033E+00 V
- d) 6.636E+00 V
- e) 7.299E+00 V
- a) 1.660E+00 mA
- b) 1.826E+00 mA
- c) 2.009E+00 mA
- d) 2.209E+00 mA
- e) 2.430E+00 mA
T1(5-10) J1
edit1) When a 7.1 V battery operates a 1.8 W bulb, how many electrons pass through it each second?
- a) 1.439E+18 electrons
- b) 1.582E+18 electrons
- c) 1.741E+18 electrons
- d) 1.915E+18 electrons
- e) 2.106E+18 electrons
2) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=9, y=0), (x=0, y=9), and (x=9, y=9), where x and y are measured in meters. The electric field is,
- a) 2.210E+04 V·m
- b) 2.431E+04 V·m
- c) 2.674E+04 V·m
- d) 2.941E+04 V·m
- e) 3.235E+04 V·m
- a) 5.178E+01 J
- b) 5.696E+01 J
- c) 6.266E+01 J
- d) 6.892E+01 J
- e) 7.582E+01 J
- a) 7.031E+00 V
- b) 7.734E+00 V
- c) 8.507E+00 V
- d) 9.358E+00 V
- e) 1.029E+01 V
5)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 1.022E+00 V/m2
- b) 1.125E+00 V/m2
- c) 1.237E+00 V/m2
- d) 1.361E+00 V/m2
- e) 1.497E+00 V/m2
6) A non-conducting sphere of radius R=3.8 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=2 nC·m-1.5. What is the magnitude of the electric field at a distance of 3.0 m from the center?
- a) 7.825E+02 N/C
- b) 8.607E+02 N/C
- c) 9.468E+02 N/C
- d) 1.041E+03 N/C
- e) 1.146E+03 N/C
- a) 9.958E-15 N
- b) 1.095E-14 N
- c) 1.205E-14 N
- d) 1.325E-14 N
- e) 1.458E-14 N
- a) 1.085E+00 mA
- b) 1.194E+00 mA
- c) 1.313E+00 mA
- d) 1.444E+00 mA
- e) 1.589E+00 mA
- a) 2.702E+01 μC
- b) 2.972E+01 μC
- c) 3.269E+01 μC
- d) 3.596E+01 μC
- e) 3.956E+01 μC
10) Calculate the electric field in a 12-gauge copper wire that is 44 m long and carries a current of 78 mA. The resistivity of copper is 1.680E-08 Ω·m and 12-gauge wire as a cross-sectional area of 3.31 mm2.
- a) 2.704E-04 V/m
- b) 2.974E-04 V/m
- c) 3.272E-04 V/m
- d) 3.599E-04 V/m
- e) 3.959E-04 V/m
T1(5-10) J2
edit1)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 2.567E+01 V/m2
- b) 2.824E+01 V/m2
- c) 3.106E+01 V/m2
- d) 3.417E+01 V/m2
- e) 3.759E+01 V/m2
- a) 4.108E+00 V
- b) 4.519E+00 V
- c) 4.970E+00 V
- d) 5.468E+00 V
- e) 6.014E+00 V
3) Calculate the electric field in a 12-gauge copper wire that is 78 m long and carries a current of 24 mA. The resistivity of copper is 1.680E-08 Ω·m and 12-gauge wire as a cross-sectional area of 3.31 mm2.
- a) 1.218E-04 V/m
- b) 1.340E-04 V/m
- c) 1.474E-04 V/m
- d) 1.621E-04 V/m
- e) 1.783E-04 V/m
4) When a 4.91 V battery operates a 1.43 W bulb, how many electrons pass through it each second?
- a) 1.242E+18 electrons
- b) 1.366E+18 electrons
- c) 1.502E+18 electrons
- d) 1.653E+18 electrons
- e) 1.818E+18 electrons
- a) 8.197E+01 μC
- b) 9.017E+01 μC
- c) 9.919E+01 μC
- d) 1.091E+02 μC
- e) 1.200E+02 μC
6) A non-conducting sphere of radius R=2.5 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.8 (r≤R) where a=2 nC·m-1.2. What is the magnitude of the electric field at a distance of 1.7 m from the center?
- a) 2.079E+02 N/C
- b) 2.287E+02 N/C
- c) 2.516E+02 N/C
- d) 2.767E+02 N/C
- e) 3.044E+02 N/C
- a) 2.544E-14 N
- b) 2.798E-14 N
- c) 3.078E-14 N
- d) 3.385E-14 N
- e) 3.724E-14 N
8) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=8, y=0), (x=0, y=6), and (x=8, y=6), where x and y are measured in meters. The electric field is,
- a) 2.694E+03 V·m
- b) 2.963E+03 V·m
- c) 3.259E+03 V·m
- d) 3.585E+03 V·m
- e) 3.944E+03 V·m
- a) 1.241E+02 J
- b) 1.365E+02 J
- c) 1.501E+02 J
- d) 1.652E+02 J
- e) 1.817E+02 J
- a) 2.247E+00 mA
- b) 2.472E+00 mA
- c) 2.719E+00 mA
- d) 2.991E+00 mA
- e) 3.290E+00 mA
T1(5-10) K0
editis an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.7 m. Evaluate at x=0.76 m if a=1.1 m, b=1.6 m. The total charge on the rod is 8 nC.
- a) 5.267E+00 V/m2
- b) 5.794E+00 V/m2
- c) 6.374E+00 V/m2
- d) 7.011E+00 V/m2
- e) 7.712E+00 V/m2
- a) 5.377E+01 degrees
- b) 5.914E+01 degrees
- c) 6.506E+01 degrees
- d) 7.157E+01 degrees
- e) 7.872E+01 degrees
3) A non-conducting sphere of radius R=2.9 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=3 nC·m-1.5. What is the magnitude of the electric field at a distance of 1.7 m from the center?
- a) 2.579E+02 N/C
- b) 2.837E+02 N/C
- c) 3.121E+02 N/C
- d) 3.433E+02 N/C
- e) 3.776E+02 N/C
4) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 9.7 nano-Coulombs. What is the magnitude of the electric field at a distance of 4.4 m from the center of the shells?
- a) 1.491E+01 N/C
- b) 1.640E+01 N/C
- c) 1.804E+01 N/C
- d) 1.984E+01 N/C
- e) 2.182E+01 N/C
- a) 4.590E+02 V
- b) 5.049E+02 V
- c) 5.554E+02 V
- d) 6.109E+02 V
- e) 6.720E+02 V
6) Assume that a 5 nC charge is situated at the origin. Calculate the the magnitude (absolute value) of the potential difference between points P1 and P2 where the polar coordinates (r,φ) of P1 are (9 cm, 0°) and P2 is at (13 cm, 31°).
- a) 1.397E+02 V
- b) 1.536E+02 V
- c) 1.690E+02 V
- d) 1.859E+02 V
- e) 2.045E+02 V
- a) 4.139E+00 μF
- b) 4.553E+00 μF
- c) 5.008E+00 μF
- d) 5.509E+00 μF
- e) 6.060E+00 μF
8) A make-believe metal has a density of 3.470E+03 kg/m3 and an atomic mass of 33.8 g/mol. Taking Avogadro's number to be 6.020E+23 atoms/mol and assuming one free electron per atom, calculate the number of free electrons per cubic meter.
- a) 6.180E+28 e−/m3
- b) 6.798E+28 e−/m3
- c) 7.478E+28 e−/m3
- d) 8.226E+28 e−/m3
- e) 9.049E+28 e−/m3
- a) 1.085E+00 mA
- b) 1.194E+00 mA
- c) 1.313E+00 mA
- d) 1.444E+00 mA
- e) 1.589E+00 mA
- a) 1.770E-01 A
- b) 1.947E-01 A
- c) 2.141E-01 A
- d) 2.355E-01 A
- e) 2.591E-01 A
T1(5-10) K1
edit- a) 2.731E+02 V
- b) 3.004E+02 V
- c) 3.304E+02 V
- d) 3.634E+02 V
- e) 3.998E+02 V
- a) 1.725E+00 mA
- b) 1.898E+00 mA
- c) 2.087E+00 mA
- d) 2.296E+00 mA
- e) 2.526E+00 mA
3) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 2.8 nano-Coulombs. What is the magnitude of the electric field at a distance of 4.8 m from the center of the shells?
- a) 2.988E+00 N/C
- b) 3.287E+00 N/C
- c) 3.616E+00 N/C
- d) 3.977E+00 N/C
- e) 4.375E+00 N/C
- a) 5.914E+01 degrees
- b) 6.506E+01 degrees
- c) 7.157E+01 degrees
- d) 7.872E+01 degrees
- e) 8.659E+01 degrees
- a) 1.213E-01 A
- b) 1.334E-01 A
- c) 1.468E-01 A
- d) 1.614E-01 A
- e) 1.776E-01 A
- a) 3.231E+00 μF
- b) 3.554E+00 μF
- c) 3.909E+00 μF
- d) 4.300E+00 μF
- e) 4.730E+00 μF
7) A non-conducting sphere of radius R=1.5 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=2 nC·m-1.5. What is the magnitude of the electric field at a distance of 0.73 m from the center?
- a) 2.285E+01 N/C
- b) 2.514E+01 N/C
- c) 2.765E+01 N/C
- d) 3.042E+01 N/C
- e) 3.346E+01 N/C
8) Assume that a 29 nC charge is situated at the origin. Calculate the the magnitude (absolute value) of the potential difference between points P1 and P2 where the polar coordinates (r,φ) of P1 are (6 cm, 0°) and P2 is at (12 cm, 77°).
- a) 1.483E+03 V
- b) 1.632E+03 V
- c) 1.795E+03 V
- d) 1.975E+03 V
- e) 2.172E+03 V
9) A make-believe metal has a density of 8.690E+03 kg/m3 and an atomic mass of 48.4 g/mol. Taking Avogadro's number to be 6.020E+23 atoms/mol and assuming one free electron per atom, calculate the number of free electrons per cubic meter.
- a) 1.081E+29 e−/m3
- b) 1.189E+29 e−/m3
- c) 1.308E+29 e−/m3
- d) 1.439E+29 e−/m3
- e) 1.582E+29 e−/m3
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.4 m. Evaluate at x=1.1 m if a=0.69 m, b=2.2 m. The total charge on the rod is 6 nC.
- a) 3.161E+00 V/m2
- b) 3.477E+00 V/m2
- c) 3.825E+00 V/m2
- d) 4.208E+00 V/m2
- e) 4.628E+00 V/m2
T1(5-10) K2
edit- a) 3.018E+00 μF
- b) 3.320E+00 μF
- c) 3.652E+00 μF
- d) 4.017E+00 μF
- e) 4.419E+00 μF
2) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 7.2 nano-Coulombs. What is the magnitude of the electric field at a distance of 4.6 m from the center of the shells?
- a) 1.114E+01 N/C
- b) 1.225E+01 N/C
- c) 1.347E+01 N/C
- d) 1.482E+01 N/C
- e) 1.630E+01 N/C
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.9 m. Evaluate at x=0.96 m if a=0.95 m, b=1.8 m. The total charge on the rod is 7 nC.
- a) 3.385E+00 V/m2
- b) 3.724E+00 V/m2
- c) 4.096E+00 V/m2
- d) 4.506E+00 V/m2
- e) 4.957E+00 V/m2
- a) 2.073E+02 V
- b) 2.281E+02 V
- c) 2.509E+02 V
- d) 2.760E+02 V
- e) 3.035E+02 V
5) A non-conducting sphere of radius R=1.7 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.2 (r≤R) where a=3 nC·m-1.8. What is the magnitude of the electric field at a distance of 0.71 m from the center?
- a) 3.797E+01 N/C
- b) 4.177E+01 N/C
- c) 4.595E+01 N/C
- d) 5.054E+01 N/C
- e) 5.560E+01 N/C
6) Assume that a 3 nC charge is situated at the origin. Calculate the the magnitude (absolute value) of the potential difference between points P1 and P2 where the polar coordinates (r,φ) of P1 are (6 cm, 0°) and P2 is at (12 cm, 32°).
- a) 1.857E+02 V
- b) 2.043E+02 V
- c) 2.247E+02 V
- d) 2.472E+02 V
- e) 2.719E+02 V
- a) 1.701E-01 A
- b) 1.871E-01 A
- c) 2.058E-01 A
- d) 2.264E-01 A
- e) 2.490E-01 A
- a) 3.055E+00 mA
- b) 3.360E+00 mA
- c) 3.696E+00 mA
- d) 4.066E+00 mA
- e) 4.472E+00 mA
9) A make-believe metal has a density of 8.060E+03 kg/m3 and an atomic mass of 19.7 g/mol. Taking Avogadro's number to be 6.020E+23 atoms/mol and assuming one free electron per atom, calculate the number of free electrons per cubic meter.
- a) 1.850E+29 e−/m3
- b) 2.036E+29 e−/m3
- c) 2.239E+29 e−/m3
- d) 2.463E+29 e−/m3
- e) 2.709E+29 e−/m3
- a) 5.062E+01 degrees
- b) 5.569E+01 degrees
- c) 6.125E+01 degrees
- d) 6.738E+01 degrees
- e) 7.412E+01 degrees
T1(5-10) L0
editis an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.5 m. Evaluate at x=1.1 m if a=0.62 m, b=1.3 m. The total charge on the rod is 7 nC.
- a) 6.311E+00 V/m2
- b) 6.943E+00 V/m2
- c) 7.637E+00 V/m2
- d) 8.401E+00 V/m2
- e) 9.241E+00 V/m2
2)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 8.933E+00 V/m2
- b) 9.826E+00 V/m2
- c) 1.081E+01 V/m2
- d) 1.189E+01 V/m2
- e) 1.308E+01 V/m2
3) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=7, y=0), (x=0, y=5), and (x=7, y=5), where x and y are measured in meters. The electric field is,
- a) 1.206E+03 V·m
- b) 1.326E+03 V·m
- c) 1.459E+03 V·m
- d) 1.605E+03 V·m
- e) 1.765E+03 V·m
4) A non-conducting sphere of radius R=1.7 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.2 (r≤R) where a=3 nC·m-1.8. What is the magnitude of the electric field at a distance of 0.71 m from the center?
- a) 3.797E+01 N/C
- b) 4.177E+01 N/C
- c) 4.595E+01 N/C
- d) 5.054E+01 N/C
- e) 5.560E+01 N/C
5) When a 7.78 V battery operates a 1.35 W bulb, how many electrons pass through it each second?
- a) 7.397E+17 electrons
- b) 8.137E+17 electrons
- c) 8.951E+17 electrons
- d) 9.846E+17 electrons
- e) 1.083E+18 electrons
- a) 3.866E+02 V
- b) 4.253E+02 V
- c) 4.678E+02 V
- d) 5.146E+02 V
- e) 5.661E+02 V
7) An empty parallel-plate capacitor with metal plates has an area of 1.94 m2, separated by 1.27 mm. How much charge does it store if the voltage is 8.780E+03 V?
- a) 1.080E+02 μC
- b) 1.188E+02 μC
- c) 1.306E+02 μC
- d) 1.437E+02 μC
- e) 1.581E+02 μC
8) Calculate the drift speed of electrons in a copper wire with a diameter of 2.72 mm carrying a 16.2 A current, given that there is one free electron per copper atom. The density of copper is 8.80 x 103kg/m3 and the atomic mass of copper is 63.54 g/mol. Avagadro's number is 6.02 x 1023atoms/mol.
- a) 2.087E-04 m/s
- b) 2.295E-04 m/s
- c) 2.525E-04 m/s
- d) 2.777E-04 m/s
- e) 3.055E-04 m/s
- a) 1.955E+00 mA
- b) 2.150E+00 mA
- c) 2.365E+00 mA
- d) 2.601E+00 mA
- e) 2.862E+00 mA
- a) 9.024E+00 s
- b) 9.927E+00 s
- c) 1.092E+01 s
- d) 1.201E+01 s
- e) 1.321E+01 s
T1(5-10) L1
edit- a) 1.385E+01 s
- b) 1.524E+01 s
- c) 1.676E+01 s
- d) 1.844E+01 s
- e) 2.028E+01 s
2) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=5, y=0), (x=0, y=7), and (x=5, y=7), where x and y are measured in meters. The electric field is,
- a) 1.128E+04 V·m
- b) 1.241E+04 V·m
- c) 1.365E+04 V·m
- d) 1.502E+04 V·m
- e) 1.652E+04 V·m
- a) 6.970E+00 mA
- b) 7.667E+00 mA
- c) 8.434E+00 mA
- d) 9.277E+00 mA
- e) 1.020E+01 mA
4) When a 7.1 V battery operates a 1.8 W bulb, how many electrons pass through it each second?
- a) 1.439E+18 electrons
- b) 1.582E+18 electrons
- c) 1.741E+18 electrons
- d) 1.915E+18 electrons
- e) 2.106E+18 electrons
5) Calculate the drift speed of electrons in a copper wire with a diameter of 3.33 mm carrying a 13.8 A current, given that there is one free electron per copper atom. The density of copper is 8.80 x 103kg/m3 and the atomic mass of copper is 63.54 g/mol. Avagadro's number is 6.02 x 1023atoms/mol.
- a) 8.910E-05 m/s
- b) 9.801E-05 m/s
- c) 1.078E-04 m/s
- d) 1.186E-04 m/s
- e) 1.305E-04 m/s
6) A non-conducting sphere of radius R=3.3 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.4 (r≤R) where a=2 nC·m-1.6. What is the magnitude of the electric field at a distance of 1.5 m from the center?
- a) 1.123E+02 N/C
- b) 1.235E+02 N/C
- c) 1.358E+02 N/C
- d) 1.494E+02 N/C
- e) 1.644E+02 N/C
- a) 3.070E+02 V
- b) 3.377E+02 V
- c) 3.715E+02 V
- d) 4.086E+02 V
- e) 4.495E+02 V
8)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 4.295E+00 V/m2
- b) 4.724E+00 V/m2
- c) 5.196E+00 V/m2
- d) 5.716E+00 V/m2
- e) 6.288E+00 V/m2
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.7 m. Evaluate at x=0.52 m if a=0.88 m, b=1.3 m. The total charge on the rod is 6 nC.
- a) 6.804E+00 V/m2
- b) 7.485E+00 V/m2
- c) 8.233E+00 V/m2
- d) 9.056E+00 V/m2
- e) 9.962E+00 V/m2
10) An empty parallel-plate capacitor with metal plates has an area of 1.94 m2, separated by 1.27 mm. How much charge does it store if the voltage is 8.780E+03 V?
- a) 1.080E+02 μC
- b) 1.188E+02 μC
- c) 1.306E+02 μC
- d) 1.437E+02 μC
- e) 1.581E+02 μC
T1(5-10) L2
edit- a) 3.224E+01 s
- b) 3.547E+01 s
- c) 3.902E+01 s
- d) 4.292E+01 s
- e) 4.721E+01 s
2) When a 4.63 V battery operates a 2.26 W bulb, how many electrons pass through it each second?
- a) 2.770E+18 electrons
- b) 3.047E+18 electrons
- c) 3.351E+18 electrons
- d) 3.686E+18 electrons
- e) 4.055E+18 electrons
3)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 6.877E+00 V/m2
- b) 7.565E+00 V/m2
- c) 8.321E+00 V/m2
- d) 9.153E+00 V/m2
- e) 1.007E+01 V/m2
4) A non-conducting sphere of radius R=3.8 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=2 nC·m-1.5. What is the magnitude of the electric field at a distance of 3.0 m from the center?
- a) 7.825E+02 N/C
- b) 8.607E+02 N/C
- c) 9.468E+02 N/C
- d) 1.041E+03 N/C
- e) 1.146E+03 N/C
5) An empty parallel-plate capacitor with metal plates has an area of 2.1 m2, separated by 1.13 mm. How much charge does it store if the voltage is 1.680E+03 V?
- a) 2.764E+01 μC
- b) 3.041E+01 μC
- c) 3.345E+01 μC
- d) 3.679E+01 μC
- e) 4.047E+01 μC
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.5 m. Evaluate at x=1.0 m if a=1.1 m, b=1.4 m. The total charge on the rod is 5 nC.
- a) 4.602E+00 V/m2
- b) 5.062E+00 V/m2
- c) 5.568E+00 V/m2
- d) 6.125E+00 V/m2
- e) 6.738E+00 V/m2
- a) 5.796E+02 V
- b) 6.375E+02 V
- c) 7.013E+02 V
- d) 7.714E+02 V
- e) 8.486E+02 V
- a) 1.825E+00 mA
- b) 2.007E+00 mA
- c) 2.208E+00 mA
- d) 2.429E+00 mA
- e) 2.672E+00 mA
9) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=5, y=0), (x=0, y=7), and (x=5, y=7), where x and y are measured in meters. The electric field is,
- a) 4.286E+03 V·m
- b) 4.714E+03 V·m
- c) 5.186E+03 V·m
- d) 5.704E+03 V·m
- e) 6.275E+03 V·m
10) Calculate the drift speed of electrons in a copper wire with a diameter of 2.72 mm carrying a 16.2 A current, given that there is one free electron per copper atom. The density of copper is 8.80 x 103kg/m3 and the atomic mass of copper is 63.54 g/mol. Avagadro's number is 6.02 x 1023atoms/mol.
- a) 2.087E-04 m/s
- b) 2.295E-04 m/s
- c) 2.525E-04 m/s
- d) 2.777E-04 m/s
- e) 3.055E-04 m/s
T1(5-10) M0
edit- a) 4.743E+01 degrees
- b) 5.217E+01 degrees
- c) 5.739E+01 degrees
- d) 6.313E+01 degrees
- e) 6.944E+01 degrees
- a) 5.352E+09 N/C2
- b) 5.887E+09 N/C2
- c) 6.476E+09 N/C2
- d) 7.124E+09 N/C2
- e) 7.836E+09 N/C2
- a) 3.712E+01 N·m2/C
- b) 4.083E+01 N·m2/C
- c) 4.491E+01 N·m2/C
- d) 4.940E+01 N·m2/C
- e) 5.434E+01 N·m2/C
4) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=8, y=0), (x=0, y=8), and (x=8, y=8), where x and y are measured in meters. The electric field is,
- a) 3.429E+03 V·m
- b) 3.771E+03 V·m
- c) 4.149E+03 V·m
- d) 4.564E+03 V·m
- e) 5.020E+03 V·m
- a) 7.033E-01 N
- b) 7.736E-01 N
- c) 8.510E-01 N
- d) 9.361E-01 N
- e) 1.030E+00 N
- a) 5.645E+02 V
- b) 6.210E+02 V
- c) 6.831E+02 V
- d) 7.514E+02 V
- e) 8.266E+02 V
- a) 2.515E+01 μC
- b) 2.766E+01 μC
- c) 3.043E+01 μC
- d) 3.347E+01 μC
- e) 3.682E+01 μC
8) Calculate the electric field in a 12-gauge copper wire that is 17 m long and carries a current of 56 mA. The resistivity of copper is 1.680E-08 Ω·m and 12-gauge wire as a cross-sectional area of 3.31 mm2.
- a) 1.941E-04 V/m
- b) 2.135E-04 V/m
- c) 2.349E-04 V/m
- d) 2.584E-04 V/m
- e) 2.842E-04 V/m
- a) 1.660E+00 mA
- b) 1.826E+00 mA
- c) 2.009E+00 mA
- d) 2.209E+00 mA
- e) 2.430E+00 mA
- a) 1.385E+01 s
- b) 1.524E+01 s
- c) 1.676E+01 s
- d) 1.844E+01 s
- e) 2.028E+01 s
T1(5-10) M1
edit- a) 2.602E+01 μC
- b) 2.862E+01 μC
- c) 3.148E+01 μC
- d) 3.463E+01 μC
- e) 3.809E+01 μC
- a) 1.560E+01 s
- b) 1.716E+01 s
- c) 1.887E+01 s
- d) 2.076E+01 s
- e) 2.284E+01 s
3) Calculate the electric field in a 12-gauge copper wire that is 25 m long and carries a current of 43 mA. The resistivity of copper is 1.680E-08 Ω·m and 12-gauge wire as a cross-sectional area of 3.31 mm2.
- a) 2.182E-04 V/m
- b) 2.401E-04 V/m
- c) 2.641E-04 V/m
- d) 2.905E-04 V/m
- e) 3.195E-04 V/m
- a) 2.281E+00 mA
- b) 2.509E+00 mA
- c) 2.760E+00 mA
- d) 3.036E+00 mA
- e) 3.340E+00 mA
- a) 4.024E+01 N·m2/C
- b) 4.426E+01 N·m2/C
- c) 4.868E+01 N·m2/C
- d) 5.355E+01 N·m2/C
- e) 5.891E+01 N·m2/C
6) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=6, y=0), (x=0, y=3), and (x=6, y=3), where x and y are measured in meters. The electric field is,
- a) 1.969E+02 V·m
- b) 2.166E+02 V·m
- c) 2.383E+02 V·m
- d) 2.621E+02 V·m
- e) 2.883E+02 V·m
- a) 5.569E+01 degrees
- b) 6.125E+01 degrees
- c) 6.738E+01 degrees
- d) 7.412E+01 degrees
- e) 8.153E+01 degrees
- a) 3.339E+09 N/C2
- b) 3.673E+09 N/C2
- c) 4.041E+09 N/C2
- d) 4.445E+09 N/C2
- e) 4.889E+09 N/C2
- a) 3.070E+02 V
- b) 3.377E+02 V
- c) 3.715E+02 V
- d) 4.086E+02 V
- e) 4.495E+02 V
- a) 1.900E-01 N
- b) 2.090E-01 N
- c) 2.299E-01 N
- d) 2.529E-01 N
- e) 2.781E-01 N
T1(5-10) M2
edit- a) 1.825E+00 mA
- b) 2.007E+00 mA
- c) 2.208E+00 mA
- d) 2.429E+00 mA
- e) 2.672E+00 mA
- a) 9.240E+00 s
- b) 1.016E+01 s
- c) 1.118E+01 s
- d) 1.230E+01 s
- e) 1.353E+01 s
- a) 5.645E+02 V
- b) 6.210E+02 V
- c) 6.831E+02 V
- d) 7.514E+02 V
- e) 8.266E+02 V
- a) 5.402E+09 N/C2
- b) 5.943E+09 N/C2
- c) 6.537E+09 N/C2
- d) 7.191E+09 N/C2
- e) 7.910E+09 N/C2
- a) 3.712E+01 N·m2/C
- b) 4.083E+01 N·m2/C
- c) 4.491E+01 N·m2/C
- d) 4.940E+01 N·m2/C
- e) 5.434E+01 N·m2/C
6) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=5, y=0), (x=0, y=7), and (x=5, y=7), where x and y are measured in meters. The electric field is,
- a) 1.997E+03 V·m
- b) 2.197E+03 V·m
- c) 2.417E+03 V·m
- d) 2.659E+03 V·m
- e) 2.924E+03 V·m
- a) 6.298E+01 μC
- b) 6.928E+01 μC
- c) 7.621E+01 μC
- d) 8.383E+01 μC
- e) 9.221E+01 μC
8) Calculate the electric field in a 12-gauge copper wire that is 15 m long and carries a current of 85 mA. The resistivity of copper is 1.680E-08 Ω·m and 12-gauge wire as a cross-sectional area of 3.31 mm2.
- a) 2.947E-04 V/m
- b) 3.241E-04 V/m
- c) 3.565E-04 V/m
- d) 3.922E-04 V/m
- e) 4.314E-04 V/m
- a) 3.697E-01 N
- b) 4.067E-01 N
- c) 4.474E-01 N
- d) 4.921E-01 N
- e) 5.413E-01 N
- a) 5.062E+01 degrees
- b) 5.569E+01 degrees
- c) 6.125E+01 degrees
- d) 6.738E+01 degrees
- e) 7.412E+01 degrees
T1(5-10) N0
edit1) A large thin isolated square plate has an area of 5 m2. It is uniformly charged with 8 nC of charge. What is the magnitude of the electric field 3 mm from the center of the plate's surface?
- a) 6.171E+01 N/C
- b) 6.788E+01 N/C
- c) 7.467E+01 N/C
- d) 8.214E+01 N/C
- e) 9.035E+01 N/C
- a) 1.202E+09 N/C2
- b) 1.322E+09 N/C2
- c) 1.454E+09 N/C2
- d) 1.599E+09 N/C2
- e) 1.759E+09 N/C2
- a) 7.081E+01 N·m2/C
- b) 7.789E+01 N·m2/C
- c) 8.568E+01 N·m2/C
- d) 9.425E+01 N·m2/C
- e) 1.037E+02 N·m2/C
4) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 4.7 nano-Coulombs. What is the magnitude of the electric field at a distance of 4.2 m from the center of the shells?
- a) 9.592E+00 N/C
- b) 1.055E+01 N/C
- c) 1.161E+01 N/C
- d) 1.277E+01 N/C
- e) 1.404E+01 N/C
- a) 1.355E-01 N
- b) 1.491E-01 N
- c) 1.640E-01 N
- d) 1.804E-01 N
- e) 1.984E-01 N
6) Calculate the final speed of a free electron accelerated from rest through a potential difference of 19 V.
- a) 1.942E+06 m/s
- b) 2.137E+06 m/s
- c) 2.350E+06 m/s
- d) 2.585E+06 m/s
- e) 2.844E+06 m/s
- a) 4.255E+00 μF
- b) 4.681E+00 μF
- c) 5.149E+00 μF
- d) 5.664E+00 μF
- e) 6.230E+00 μF
8) Imagine a substance could be made into a very hot filament. Suppose the resitance is 5.88 Ω at a temperature of 87°C and that the temperature coefficient of expansion is 5.290E-03 (°C)−1). What is the resistance at a temperature of 547 °C?
- a) 1.831E+01 Ω
- b) 1.923E+01 Ω
- c) 2.019E+01 Ω
- d) 2.120E+01 Ω
- e) 2.226E+01 Ω
- a) 1.418E+01 W
- b) 1.560E+01 W
- c) 1.716E+01 W
- d) 1.887E+01 W
- e) 2.076E+01 W
10) A battery with a terminal voltage of 14.6 V is connected to a circuit consisting of 2 21.7 Ω resistors and one 14.4 Ω resistor. What is the voltage drop across the 14.4 Ω resistor?
- a) 3.637E+00 V
- b) 4.001E+00 V
- c) 4.401E+00 V
- d) 4.841E+00 V
- e) 5.325E+00 V
T1(5-10) N1
edit- a) 5.482E+00 μF
- b) 6.030E+00 μF
- c) 6.633E+00 μF
- d) 7.296E+00 μF
- e) 8.026E+00 μF
- a) 1.355E-01 N
- b) 1.491E-01 N
- c) 1.640E-01 N
- d) 1.804E-01 N
- e) 1.984E-01 N
3) A large thin isolated square plate has an area of 6 m2. It is uniformly charged with 6 nC of charge. What is the magnitude of the electric field 2 mm from the center of the plate's surface?
- a) 5.647E+01 N/C
- b) 6.212E+01 N/C
- c) 6.833E+01 N/C
- d) 7.516E+01 N/C
- e) 8.268E+01 N/C
- a) 3.074E+01 N·m2/C
- b) 3.382E+01 N·m2/C
- c) 3.720E+01 N·m2/C
- d) 4.092E+01 N·m2/C
- e) 4.501E+01 N·m2/C
- a) 8.489E+00 W
- b) 9.338E+00 W
- c) 1.027E+01 W
- d) 1.130E+01 W
- e) 1.243E+01 W
6) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 1.9 nano-Coulombs. What is the magnitude of the electric field at a distance of 2.1 m from the center of the shells?
- a) 5.297E+00 N/C
- b) 5.827E+00 N/C
- c) 6.409E+00 N/C
- d) 7.050E+00 N/C
- e) 7.755E+00 N/C
7) A battery with a terminal voltage of 14.1 V is connected to a circuit consisting of 2 20.3 Ω resistors and one 13.1 Ω resistor. What is the voltage drop across the 13.1 Ω resistor?
- a) 2.843E+00 V
- b) 3.127E+00 V
- c) 3.440E+00 V
- d) 3.784E+00 V
- e) 4.162E+00 V
8) Calculate the final speed of a free electron accelerated from rest through a potential difference of 74 V.
- a) 4.638E+06 m/s
- b) 5.102E+06 m/s
- c) 5.612E+06 m/s
- d) 6.173E+06 m/s
- e) 6.791E+06 m/s
9) Imagine a substance could be made into a very hot filament. Suppose the resitance is 3.64 Ω at a temperature of 82°C and that the temperature coefficient of expansion is 4.530E-03 (°C)−1). What is the resistance at a temperature of 390 °C?
- a) 7.532E+00 Ω
- b) 7.908E+00 Ω
- c) 8.303E+00 Ω
- d) 8.719E+00 Ω
- e) 9.155E+00 Ω
- a) 3.339E+09 N/C2
- b) 3.673E+09 N/C2
- c) 4.041E+09 N/C2
- d) 4.445E+09 N/C2
- e) 4.889E+09 N/C2
T1(5-10) N2
edit1) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 7.2 nano-Coulombs. What is the magnitude of the electric field at a distance of 4.6 m from the center of the shells?
- a) 1.114E+01 N/C
- b) 1.225E+01 N/C
- c) 1.347E+01 N/C
- d) 1.482E+01 N/C
- e) 1.630E+01 N/C
2) Calculate the final speed of a free electron accelerated from rest through a potential difference of 6 V.
- a) 1.091E+06 m/s
- b) 1.201E+06 m/s
- c) 1.321E+06 m/s
- d) 1.453E+06 m/s
- e) 1.598E+06 m/s
- a) 1.190E+01 W
- b) 1.309E+01 W
- c) 1.440E+01 W
- d) 1.584E+01 W
- e) 1.742E+01 W
4) Imagine a substance could be made into a very hot filament. Suppose the resitance is 4.08 Ω at a temperature of 26°C and that the temperature coefficient of expansion is 4.800E-03 (°C)−1). What is the resistance at a temperature of 388 °C?
- a) 1.064E+01 Ω
- b) 1.117E+01 Ω
- c) 1.173E+01 Ω
- d) 1.231E+01 Ω
- e) 1.293E+01 Ω
- a) 5.434E-01 N
- b) 5.977E-01 N
- c) 6.575E-01 N
- d) 7.233E-01 N
- e) 7.956E-01 N
- a) 4.730E+01 N·m2/C
- b) 5.203E+01 N·m2/C
- c) 5.723E+01 N·m2/C
- d) 6.295E+01 N·m2/C
- e) 6.925E+01 N·m2/C
7) A battery with a terminal voltage of 12.4 V is connected to a circuit consisting of 3 21.6 Ω resistors and one 12.1 Ω resistor. What is the voltage drop across the 12.1 Ω resistor?
- a) 1.333E+00 V
- b) 1.466E+00 V
- c) 1.612E+00 V
- d) 1.774E+00 V
- e) 1.951E+00 V
- a) 3.250E+00 μF
- b) 3.575E+00 μF
- c) 3.933E+00 μF
- d) 4.326E+00 μF
- e) 4.758E+00 μF
- a) 3.159E+09 N/C2
- b) 3.475E+09 N/C2
- c) 3.823E+09 N/C2
- d) 4.205E+09 N/C2
- e) 4.626E+09 N/C2
10) A large thin isolated square plate has an area of 9 m2. It is uniformly charged with 8 nC of charge. What is the magnitude of the electric field 3 mm from the center of the plate's surface?
- a) 3.428E+01 N/C
- b) 3.771E+01 N/C
- c) 4.148E+01 N/C
- d) 4.563E+01 N/C
- e) 5.020E+01 N/C
T1(5-10) O0
edit1)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 8.933E+00 V/m2
- b) 9.826E+00 V/m2
- c) 1.081E+01 V/m2
- d) 1.189E+01 V/m2
- e) 1.308E+01 V/m2
2) A large thin isolated square plate has an area of 4 m2. It is uniformly charged with 5 nC of charge. What is the magnitude of the electric field 1 mm from the center of the plate's surface?
- a) 4.821E+01 N/C
- b) 5.303E+01 N/C
- c) 5.834E+01 N/C
- d) 6.417E+01 N/C
- e) 7.059E+01 N/C
- a) 4.730E+01 N·m2/C
- b) 5.203E+01 N·m2/C
- c) 5.723E+01 N·m2/C
- d) 6.295E+01 N·m2/C
- e) 6.925E+01 N·m2/C
4) A non-conducting sphere of radius R=1.2 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.6 (r≤R) where a=2 nC·m-1.4. What is the magnitude of the electric field at a distance of 0.76 m from the center?
- a) 2.406E+01 N/C
- b) 2.646E+01 N/C
- c) 2.911E+01 N/C
- d) 3.202E+01 N/C
- e) 3.522E+01 N/C
5) Calculate the final speed of a free electron accelerated from rest through a potential difference of 46 V.
- a) 3.022E+06 m/s
- b) 3.324E+06 m/s
- c) 3.657E+06 m/s
- d) 4.023E+06 m/s
- e) 4.425E+06 m/s
6) A 5 C charge is separated from a 12 C charge by distance of 10 cm. What is the work done by increasing this separation to 16 cm?
- a) 1.381E-06 J
- b) 1.519E-06 J
- c) 1.671E-06 J
- d) 1.838E-06 J
- e) 2.022E-06 J
- a) 2.702E+01 μC
- b) 2.972E+01 μC
- c) 3.269E+01 μC
- d) 3.596E+01 μC
- e) 3.956E+01 μC
8) Calculate the resistance of a 12-gauge copper wire that is 11 m long and carries a current of 94 mA. The resistivity of copper is 1.680E-08 Ω·m and 12-gauge wire as a cross-sectional area of 3.31 mm2.
- a) 3.813E-02 Ω
- b) 4.195E-02 Ω
- c) 4.614E-02 Ω
- d) 5.076E-02 Ω
- e) 5.583E-02 Ω
- a) 1.427E-01 A
- b) 1.569E-01 A
- c) 1.726E-01 A
- d) 1.899E-01 A
- e) 2.089E-01 A
- a) 1.418E+01 W
- b) 1.560E+01 W
- c) 1.716E+01 W
- d) 1.887E+01 W
- e) 2.076E+01 W
T1(5-10) O1
edit1)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 1.258E+00 V/m2
- b) 1.384E+00 V/m2
- c) 1.522E+00 V/m2
- d) 1.674E+00 V/m2
- e) 1.842E+00 V/m2
2) Calculate the resistance of a 12-gauge copper wire that is 30 m long and carries a current of 31 mA. The resistivity of copper is 1.680E-08 Ω·m and 12-gauge wire as a cross-sectional area of 3.31 mm2.
- a) 1.384E-01 Ω
- b) 1.523E-01 Ω
- c) 1.675E-01 Ω
- d) 1.842E-01 Ω
- e) 2.027E-01 Ω
- a) 1.701E-01 A
- b) 1.871E-01 A
- c) 2.058E-01 A
- d) 2.264E-01 A
- e) 2.490E-01 A
- a) 1.418E+01 W
- b) 1.560E+01 W
- c) 1.716E+01 W
- d) 1.887E+01 W
- e) 2.076E+01 W
5) A large thin isolated square plate has an area of 6 m2. It is uniformly charged with 9 nC of charge. What is the magnitude of the electric field 3 mm from the center of the plate's surface?
- a) 8.471E+01 N/C
- b) 9.318E+01 N/C
- c) 1.025E+02 N/C
- d) 1.127E+02 N/C
- e) 1.240E+02 N/C
6) A 7 C charge is separated from a 11 C charge by distance of 11 cm. What is the work done by increasing this separation to 19 cm?
- a) 2.408E-06 J
- b) 2.649E-06 J
- c) 2.914E-06 J
- d) 3.205E-06 J
- e) 3.526E-06 J
- a) 3.074E+01 N·m2/C
- b) 3.382E+01 N·m2/C
- c) 3.720E+01 N·m2/C
- d) 4.092E+01 N·m2/C
- e) 4.501E+01 N·m2/C
8) A non-conducting sphere of radius R=1.7 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.2 (r≤R) where a=3 nC·m-1.8. What is the magnitude of the electric field at a distance of 0.71 m from the center?
- a) 3.797E+01 N/C
- b) 4.177E+01 N/C
- c) 4.595E+01 N/C
- d) 5.054E+01 N/C
- e) 5.560E+01 N/C
- a) 2.515E+01 μC
- b) 2.766E+01 μC
- c) 3.043E+01 μC
- d) 3.347E+01 μC
- e) 3.682E+01 μC
10) Calculate the final speed of a free electron accelerated from rest through a potential difference of 83 V.
- a) 4.466E+06 m/s
- b) 4.912E+06 m/s
- c) 5.403E+06 m/s
- d) 5.944E+06 m/s
- e) 6.538E+06 m/s
T1(5-10) O2
edit- a) 1.446E+01 W
- b) 1.591E+01 W
- c) 1.750E+01 W
- d) 1.925E+01 W
- e) 2.117E+01 W
2) A non-conducting sphere of radius R=1.7 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.2 (r≤R) where a=3 nC·m-1.8. What is the magnitude of the electric field at a distance of 0.71 m from the center?
- a) 3.797E+01 N/C
- b) 4.177E+01 N/C
- c) 4.595E+01 N/C
- d) 5.054E+01 N/C
- e) 5.560E+01 N/C
3) Calculate the final speed of a free electron accelerated from rest through a potential difference of 45 V.
- a) 3.617E+06 m/s
- b) 3.979E+06 m/s
- c) 4.376E+06 m/s
- d) 4.814E+06 m/s
- e) 5.296E+06 m/s
- a) 1.552E-01 A
- b) 1.707E-01 A
- c) 1.878E-01 A
- d) 2.065E-01 A
- e) 2.272E-01 A
- a) 2.451E+01 μC
- b) 2.696E+01 μC
- c) 2.966E+01 μC
- d) 3.262E+01 μC
- e) 3.589E+01 μC
6)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 4.961E-01 V/m2
- b) 5.457E-01 V/m2
- c) 6.002E-01 V/m2
- d) 6.603E-01 V/m2
- e) 7.263E-01 V/m2
7) A large thin isolated square plate has an area of 9 m2. It is uniformly charged with 6 nC of charge. What is the magnitude of the electric field 1 mm from the center of the plate's surface?
- a) 2.571E+01 N/C
- b) 2.828E+01 N/C
- c) 3.111E+01 N/C
- d) 3.422E+01 N/C
- e) 3.765E+01 N/C
8) A 7 C charge is separated from a 12 C charge by distance of 9 cm. What is the work done by increasing this separation to 15 cm?
- a) 2.292E-06 J
- b) 2.521E-06 J
- c) 2.773E-06 J
- d) 3.050E-06 J
- e) 3.355E-06 J
- a) 3.328E+01 N·m2/C
- b) 3.660E+01 N·m2/C
- c) 4.026E+01 N·m2/C
- d) 4.429E+01 N·m2/C
- e) 4.872E+01 N·m2/C
10) Calculate the resistance of a 12-gauge copper wire that is 52 m long and carries a current of 99 mA. The resistivity of copper is 1.680E-08 Ω·m and 12-gauge wire as a cross-sectional area of 3.31 mm2.
- a) 1.983E-01 Ω
- b) 2.181E-01 Ω
- c) 2.399E-01 Ω
- d) 2.639E-01 Ω
- e) 2.903E-01 Ω
T1(5-10) P0
edit- a) 3.426E-15 N
- b) 3.768E-15 N
- c) 4.145E-15 N
- d) 4.560E-15 N
- e) 5.015E-15 N
- a) 5.581E+09 N/C2
- b) 6.139E+09 N/C2
- c) 6.753E+09 N/C2
- d) 7.428E+09 N/C2
- e) 8.171E+09 N/C2
- a) 8.314E+01 N·m2/C
- b) 9.146E+01 N·m2/C
- c) 1.006E+02 N·m2/C
- d) 1.107E+02 N·m2/C
- e) 1.217E+02 N·m2/C
- a) 6.192E+01 N·m2/C
- b) 6.811E+01 N·m2/C
- c) 7.492E+01 N·m2/C
- d) 8.242E+01 N·m2/C
- e) 9.066E+01 N·m2/C
5) Two large parallel conducting plates are separated by 8.13 mm. Equal and opposite surface charges of 7.540E-07 C/m2 exist on the surfaces between the plates. What is the distance between equipotential planes which differ by 92 V?
- a) 9.394E-01 mm
- b) 1.080E+00 mm
- c) 1.242E+00 mm
- d) 1.429E+00 mm
- e) 1.643E+00 mm
6) Assume that a 11 nC charge is situated at the origin. Calculate the the magnitude (absolute value) of the potential difference between points P1 and P2 where the polar coordinates (r,φ) of P1 are (9 cm, 0°) and P2 is at (12 cm, 14°).
- a) 1.876E+02 V
- b) 2.063E+02 V
- c) 2.270E+02 V
- d) 2.497E+02 V
- e) 2.746E+02 V
7) An empty parallel-plate capacitor with metal plates has an area of 2.66 m2, separated by 1.18 mm. How much charge does it store if the voltage is 6.170E+03 V?
- a) 1.231E+02 μC
- b) 1.355E+02 μC
- c) 1.490E+02 μC
- d) 1.639E+02 μC
- e) 1.803E+02 μC
8) What is the average current involved when a truck battery sets in motion 728 C of charge in 3.94 s while starting an engine?
- a) 1.848E+02 A
- b) 2.032E+02 A
- c) 2.236E+02 A
- d) 2.459E+02 A
- e) 2.705E+02 A
- a) 1.013E+01 V
- b) 1.115E+01 V
- c) 1.226E+01 V
- d) 1.349E+01 V
- e) 1.484E+01 V
10) Three resistors, R1 = 1.52 Ω, and R2 = R2 = 3.38 Ω, are connected in parallel to a 5.82 V voltage source. Calculate the power dissipated by the smaller resistor (R1.)
- a) 1.842E+01 W
- b) 2.026E+01 W
- c) 2.228E+01 W
- d) 2.451E+01 W
- e) 2.696E+01 W
T1(5-10) P1
edit- a) 3.391E-14 N
- b) 3.731E-14 N
- c) 4.104E-14 N
- d) 4.514E-14 N
- e) 4.965E-14 N
2) What is the average current involved when a truck battery sets in motion 821 C of charge in 5.51 s while starting an engine?
- a) 1.231E+02 A
- b) 1.355E+02 A
- c) 1.490E+02 A
- d) 1.639E+02 A
- e) 1.803E+02 A
- a) 1.737E+01 N·m2/C
- b) 1.910E+01 N·m2/C
- c) 2.101E+01 N·m2/C
- d) 2.311E+01 N·m2/C
- e) 2.543E+01 N·m2/C
4) Three resistors, R1 = 1.52 Ω, and R2 = R2 = 3.38 Ω, are connected in parallel to a 5.82 V voltage source. Calculate the power dissipated by the smaller resistor (R1.)
- a) 1.842E+01 W
- b) 2.026E+01 W
- c) 2.228E+01 W
- d) 2.451E+01 W
- e) 2.696E+01 W
- a) 8.945E+00 V
- b) 9.840E+00 V
- c) 1.082E+01 V
- d) 1.191E+01 V
- e) 1.310E+01 V
- a) 6.925E+09 N/C2
- b) 7.617E+09 N/C2
- c) 8.379E+09 N/C2
- d) 9.217E+09 N/C2
- e) 1.014E+10 N/C2
7) Two large parallel conducting plates are separated by 6.95 mm. Equal and opposite surface charges of 7.360E-07 C/m2 exist on the surfaces between the plates. What is the distance between equipotential planes which differ by 83 V?
- a) 6.565E-01 mm
- b) 7.550E-01 mm
- c) 8.683E-01 mm
- d) 9.985E-01 mm
- e) 1.148E+00 mm
8) An empty parallel-plate capacitor with metal plates has an area of 1.94 m2, separated by 1.36 mm. How much charge does it store if the voltage is 8.530E+03 V?
- a) 7.359E+01 μC
- b) 8.094E+01 μC
- c) 8.904E+01 μC
- d) 9.794E+01 μC
- e) 1.077E+02 μC
9) Assume that a 25 nC charge is situated at the origin. Calculate the the magnitude (absolute value) of the potential difference between points P1 and P2 where the polar coordinates (r,φ) of P1 are (5 cm, 0°) and P2 is at (13 cm, 70°).
- a) 2.285E+03 V
- b) 2.514E+03 V
- c) 2.765E+03 V
- d) 3.042E+03 V
- e) 3.346E+03 V
- a) 3.328E+01 N·m2/C
- b) 3.660E+01 N·m2/C
- c) 4.026E+01 N·m2/C
- d) 4.429E+01 N·m2/C
- e) 4.872E+01 N·m2/C
T1(5-10) P2
edit- a) 3.436E+00 V
- b) 3.779E+00 V
- c) 4.157E+00 V
- d) 4.573E+00 V
- e) 5.030E+00 V
- a) 2.429E+09 N/C2
- b) 2.672E+09 N/C2
- c) 2.939E+09 N/C2
- d) 3.233E+09 N/C2
- e) 3.556E+09 N/C2
3) Three resistors, R1 = 0.61 Ω, and R2 = R2 = 1.35 Ω, are connected in parallel to a 7.04 V voltage source. Calculate the power dissipated by the smaller resistor (R1.)
- a) 7.386E+01 W
- b) 8.125E+01 W
- c) 8.937E+01 W
- d) 9.831E+01 W
- e) 1.081E+02 W
4) Assume that a 17 nC charge is situated at the origin. Calculate the the magnitude (absolute value) of the potential difference between points P1 and P2 where the polar coordinates (r,φ) of P1 are (9 cm, 0°) and P2 is at (12 cm, 15°).
- a) 4.244E+02 V
- b) 4.669E+02 V
- c) 5.135E+02 V
- d) 5.649E+02 V
- e) 6.214E+02 V
- a) 1.308E-13 N
- b) 1.439E-13 N
- c) 1.583E-13 N
- d) 1.741E-13 N
- e) 1.915E-13 N
6) An empty parallel-plate capacitor with metal plates has an area of 2.42 m2, separated by 1.33 mm. How much charge does it store if the voltage is 1.130E+03 V?
- a) 1.368E+01 μC
- b) 1.505E+01 μC
- c) 1.655E+01 μC
- d) 1.820E+01 μC
- e) 2.003E+01 μC
- a) 4.730E+01 N·m2/C
- b) 5.203E+01 N·m2/C
- c) 5.723E+01 N·m2/C
- d) 6.295E+01 N·m2/C
- e) 6.925E+01 N·m2/C
8) Two large parallel conducting plates are separated by 7.93 mm. Equal and opposite surface charges of 7.720E-07 C/m2 exist on the surfaces between the plates. What is the distance between equipotential planes which differ by 77 V?
- a) 6.678E-01 mm
- b) 7.679E-01 mm
- c) 8.831E-01 mm
- d) 1.016E+00 mm
- e) 1.168E+00 mm
9) What is the average current involved when a truck battery sets in motion 618 C of charge in 2.28 s while starting an engine?
- a) 2.240E+02 A
- b) 2.464E+02 A
- c) 2.711E+02 A
- d) 2.982E+02 A
- e) 3.280E+02 A
- a) 5.439E+01 N·m2/C
- b) 5.983E+01 N·m2/C
- c) 6.581E+01 N·m2/C
- d) 7.239E+01 N·m2/C
- e) 7.963E+01 N·m2/C
T1(5-10) Q0
edit1) A large thin isolated square plate has an area of 8 m2. It is uniformly charged with 7 nC of charge. What is the magnitude of the electric field 3 mm from the center of the plate's surface?
- a) 4.492E+01 N/C
- b) 4.941E+01 N/C
- c) 5.435E+01 N/C
- d) 5.979E+01 N/C
- e) 6.577E+01 N/C
- a) 5.243E+01 degrees
- b) 5.767E+01 degrees
- c) 6.343E+01 degrees
- d) 6.978E+01 degrees
- e) 7.676E+01 degrees
3) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=7, y=0), (x=0, y=7), and (x=7, y=7), where x and y are measured in meters. The electric field is,
- a) 8.731E+02 V·m
- b) 9.604E+02 V·m
- c) 1.056E+03 V·m
- d) 1.162E+03 V·m
- e) 1.278E+03 V·m
4) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 7.8 nano-Coulombs. What is the magnitude of the electric field at a distance of 1.3 m from the center of the shells?
- a) 2.837E+01 N/C
- b) 3.121E+01 N/C
- c) 3.433E+01 N/C
- d) 3.776E+01 N/C
- e) 4.154E+01 N/C
5) A 12.0 V battery can move 35,000 C of charge. How many Joules does it deliver?
- a) 4.200E+05 J
- b) 4.620E+05 J
- c) 5.082E+05 J
- d) 5.590E+05 J
- e) 6.149E+05 J
- a) 9.129E+00 μC
- b) 1.004E+01 μC
- c) 1.105E+01 μC
- d) 1.215E+01 μC
- e) 1.337E+01 μC
7) An empty parallel-plate capacitor with metal plates has an area of 2.83 m2, separated by 1.14 mm. How much charge does it store if the voltage is 4.180E+03 V?
- a) 6.275E+01 μC
- b) 6.903E+01 μC
- c) 7.593E+01 μC
- d) 8.352E+01 μC
- e) 9.188E+01 μC
8) Calculate the resistance of a 12-gauge copper wire that is 81 m long and carries a current of 32 mA. The resistivity of copper is 1.680E-08 Ω·m and 12-gauge wire as a cross-sectional area of 3.31 mm2.
- a) 3.737E-01 Ω
- b) 4.111E-01 Ω
- c) 4.522E-01 Ω
- d) 4.975E-01 Ω
- e) 5.472E-01 Ω
- a) 1.085E+00 mA
- b) 1.194E+00 mA
- c) 1.313E+00 mA
- d) 1.444E+00 mA
- e) 1.589E+00 mA
- a) 1.285E-01 A
- b) 1.414E-01 A
- c) 1.555E-01 A
- d) 1.711E-01 A
- e) 1.882E-01 A
T1(5-10) Q1
edit- a) 1.721E-01 A
- b) 1.893E-01 A
- c) 2.082E-01 A
- d) 2.291E-01 A
- e) 2.520E-01 A
2) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=4, y=0), (x=0, y=9), and (x=4, y=9), where x and y are measured in meters. The electric field is,
- a) 7.054E+03 V·m
- b) 7.759E+03 V·m
- c) 8.535E+03 V·m
- d) 9.388E+03 V·m
- e) 1.033E+04 V·m
- a) 3.055E+00 mA
- b) 3.360E+00 mA
- c) 3.696E+00 mA
- d) 4.066E+00 mA
- e) 4.472E+00 mA
4) Calculate the resistance of a 12-gauge copper wire that is 13 m long and carries a current of 22 mA. The resistivity of copper is 1.680E-08 Ω·m and 12-gauge wire as a cross-sectional area of 3.31 mm2.
- a) 4.957E-02 Ω
- b) 5.453E-02 Ω
- c) 5.998E-02 Ω
- d) 6.598E-02 Ω
- e) 7.258E-02 Ω
5) An empty parallel-plate capacitor with metal plates has an area of 2.02 m2, separated by 1.44 mm. How much charge does it store if the voltage is 2.170E+03 V?
- a) 2.450E+01 μC
- b) 2.695E+01 μC
- c) 2.965E+01 μC
- d) 3.261E+01 μC
- e) 3.587E+01 μC
6) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 6.4 nano-Coulombs. What is the magnitude of the electric field at a distance of 1.1 m from the center of the shells?
- a) 3.251E+01 N/C
- b) 3.577E+01 N/C
- c) 3.934E+01 N/C
- d) 4.328E+01 N/C
- e) 4.760E+01 N/C
7) A large thin isolated square plate has an area of 6 m2. It is uniformly charged with 5 nC of charge. What is the magnitude of the electric field 2 mm from the center of the plate's surface?
- a) 3.214E+01 N/C
- b) 3.536E+01 N/C
- c) 3.889E+01 N/C
- d) 4.278E+01 N/C
- e) 4.706E+01 N/C
- a) 1.539E+01 μC
- b) 1.693E+01 μC
- c) 1.863E+01 μC
- d) 2.049E+01 μC
- e) 2.254E+01 μC
9) A 12.0 V battery can move 26,000 C of charge. How many Joules does it deliver?
- a) 2.836E+05 J
- b) 3.120E+05 J
- c) 3.432E+05 J
- d) 3.775E+05 J
- e) 4.153E+05 J
- a) 4.357E+01 degrees
- b) 4.793E+01 degrees
- c) 5.272E+01 degrees
- d) 5.799E+01 degrees
- e) 6.379E+01 degrees
T1(5-10) Q2
edit1) Calculate the resistance of a 12-gauge copper wire that is 59 m long and carries a current of 26 mA. The resistivity of copper is 1.680E-08 Ω·m and 12-gauge wire as a cross-sectional area of 3.31 mm2.
- a) 2.995E-01 Ω
- b) 3.294E-01 Ω
- c) 3.623E-01 Ω
- d) 3.986E-01 Ω
- e) 4.384E-01 Ω
2) An empty parallel-plate capacitor with metal plates has an area of 2.66 m2, separated by 1.18 mm. How much charge does it store if the voltage is 6.170E+03 V?
- a) 1.231E+02 μC
- b) 1.355E+02 μC
- c) 1.490E+02 μC
- d) 1.639E+02 μC
- e) 1.803E+02 μC
- a) 1.193E+01 μC
- b) 1.312E+01 μC
- c) 1.443E+01 μC
- d) 1.588E+01 μC
- e) 1.746E+01 μC
4) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=6, y=0), (x=0, y=3), and (x=6, y=3), where x and y are measured in meters. The electric field is,
- a) 1.969E+02 V·m
- b) 2.166E+02 V·m
- c) 2.383E+02 V·m
- d) 2.621E+02 V·m
- e) 2.883E+02 V·m
- a) 2.247E+00 mA
- b) 2.472E+00 mA
- c) 2.719E+00 mA
- d) 2.991E+00 mA
- e) 3.290E+00 mA
- a) 5.377E+01 degrees
- b) 5.914E+01 degrees
- c) 6.506E+01 degrees
- d) 7.157E+01 degrees
- e) 7.872E+01 degrees
7) A large thin isolated square plate has an area of 5 m2. It is uniformly charged with 7 nC of charge. What is the magnitude of the electric field 1 mm from the center of the plate's surface?
- a) 6.534E+01 N/C
- b) 7.187E+01 N/C
- c) 7.906E+01 N/C
- d) 8.696E+01 N/C
- e) 9.566E+01 N/C
8) A 12.0 V battery can move 24,000 C of charge. How many Joules does it deliver?
- a) 1.967E+05 J
- b) 2.164E+05 J
- c) 2.380E+05 J
- d) 2.618E+05 J
- e) 2.880E+05 J
9) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 6.5 nano-Coulombs. What is the magnitude of the electric field at a distance of 1.3 m from the center of the shells?
- a) 2.601E+01 N/C
- b) 2.861E+01 N/C
- c) 3.147E+01 N/C
- d) 3.462E+01 N/C
- e) 3.808E+01 N/C
- a) 1.886E-01 A
- b) 2.075E-01 A
- c) 2.282E-01 A
- d) 2.510E-01 A
- e) 2.761E-01 A
T1(5-10) R0
edit- a) 5.014E-14 N
- b) 5.515E-14 N
- c) 6.067E-14 N
- d) 6.674E-14 N
- e) 7.341E-14 N
- a) 7.119E+09 N/C2
- b) 7.831E+09 N/C2
- c) 8.614E+09 N/C2
- d) 9.476E+09 N/C2
- e) 1.042E+10 N/C2
- a) 2.901E+01 N·m2/C
- b) 3.192E+01 N·m2/C
- c) 3.511E+01 N·m2/C
- d) 3.862E+01 N·m2/C
- e) 4.248E+01 N·m2/C
4) A non-conducting sphere of radius R=3.8 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=2 nC·m-1.5. What is the magnitude of the electric field at a distance of 3.0 m from the center?
- a) 7.825E+02 N/C
- b) 8.607E+02 N/C
- c) 9.468E+02 N/C
- d) 1.041E+03 N/C
- e) 1.146E+03 N/C
- a) 9.216E+00 μC
- b) 1.014E+01 μC
- c) 1.115E+01 μC
- d) 1.227E+01 μC
- e) 1.349E+01 μC
6) If a 21 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=94 V is x2 + y2 + z2 = R2, where R=
- a) 1.371E+00 m
- b) 1.509E+00 m
- c) 1.659E+00 m
- d) 1.825E+00 m
- e) 2.008E+00 m
- a) 4.139E+00 μF
- b) 4.553E+00 μF
- c) 5.008E+00 μF
- d) 5.509E+00 μF
- e) 6.060E+00 μF
8) Imagine a substance could be made into a very hot filament. Suppose the resitance is 5.89 Ω at a temperature of 43°C and that the temperature coefficient of expansion is 4.400E-03 (°C)−1). What is the resistance at a temperature of 398 °C?
- a) 1.369E+01 Ω
- b) 1.437E+01 Ω
- c) 1.509E+01 Ω
- d) 1.584E+01 Ω
- e) 1.664E+01 Ω
9) A battery with a terminal voltage of 14.6 V is connected to a circuit consisting of 2 21.7 Ω resistors and one 14.4 Ω resistor. What is the voltage drop across the 14.4 Ω resistor?
- a) 3.637E+00 V
- b) 4.001E+00 V
- c) 4.401E+00 V
- d) 4.841E+00 V
- e) 5.325E+00 V
10) Three resistors, R1 = 1.43 Ω, and R2 = R2 = 3.25 Ω, are connected in parallel to a 9.03 V voltage source. Calculate the power dissipated by the smaller resistor (R1.)
- a) 5.184E+01 W
- b) 5.702E+01 W
- c) 6.272E+01 W
- d) 6.900E+01 W
- e) 7.590E+01 W
T1(5-10) R1
edit- a) 5.445E+00 μF
- b) 5.990E+00 μF
- c) 6.589E+00 μF
- d) 7.247E+00 μF
- e) 7.972E+00 μF
- a) 1.202E+09 N/C2
- b) 1.322E+09 N/C2
- c) 1.454E+09 N/C2
- d) 1.599E+09 N/C2
- e) 1.759E+09 N/C2
3) A non-conducting sphere of radius R=3.1 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.2 (r≤R) where a=2 nC·m-1.8. What is the magnitude of the electric field at a distance of 2.7 m from the center?
- a) 4.782E+02 N/C
- b) 5.260E+02 N/C
- c) 5.787E+02 N/C
- d) 6.365E+02 N/C
- e) 7.002E+02 N/C
4) A battery with a terminal voltage of 9.88 V is connected to a circuit consisting of 3 15.9 Ω resistors and one 10.8 Ω resistor. What is the voltage drop across the 10.8 Ω resistor?
- a) 1.370E+00 V
- b) 1.507E+00 V
- c) 1.658E+00 V
- d) 1.824E+00 V
- e) 2.006E+00 V
- a) 3.391E-14 N
- b) 3.731E-14 N
- c) 4.104E-14 N
- d) 4.514E-14 N
- e) 4.965E-14 N
6) Three resistors, R1 = 0.548 Ω, and R2 = R2 = 1.24 Ω, are connected in parallel to a 7.16 V voltage source. Calculate the power dissipated by the smaller resistor (R1.)
- a) 7.029E+01 W
- b) 7.731E+01 W
- c) 8.505E+01 W
- d) 9.355E+01 W
- e) 1.029E+02 W
- a) 2.079E+01 N·m2/C
- b) 2.287E+01 N·m2/C
- c) 2.516E+01 N·m2/C
- d) 2.768E+01 N·m2/C
- e) 3.044E+01 N·m2/C
- a) 9.129E+00 μC
- b) 1.004E+01 μC
- c) 1.105E+01 μC
- d) 1.215E+01 μC
- e) 1.337E+01 μC
9) If a 11 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=43 V is x2 + y2 + z2 = R2, where R=
- a) 2.299E+00 m
- b) 2.529E+00 m
- c) 2.782E+00 m
- d) 3.060E+00 m
- e) 3.366E+00 m
10) Imagine a substance could be made into a very hot filament. Suppose the resitance is 1.98 Ω at a temperature of 92°C and that the temperature coefficient of expansion is 5.080E-03 (°C)−1). What is the resistance at a temperature of 455 °C?
- a) 5.363E+00 Ω
- b) 5.631E+00 Ω
- c) 5.913E+00 Ω
- d) 6.208E+00 Ω
- e) 6.519E+00 Ω
T1(5-10) R2
edit- a) 1.740E+01 N·m2/C
- b) 1.914E+01 N·m2/C
- c) 2.106E+01 N·m2/C
- d) 2.316E+01 N·m2/C
- e) 2.548E+01 N·m2/C
2) Imagine a substance could be made into a very hot filament. Suppose the resitance is 4.08 Ω at a temperature of 26°C and that the temperature coefficient of expansion is 4.800E-03 (°C)−1). What is the resistance at a temperature of 388 °C?
- a) 1.064E+01 Ω
- b) 1.117E+01 Ω
- c) 1.173E+01 Ω
- d) 1.231E+01 Ω
- e) 1.293E+01 Ω
- a) 4.173E+00 μF
- b) 4.590E+00 μF
- c) 5.049E+00 μF
- d) 5.554E+00 μF
- e) 6.110E+00 μF
- a) 1.202E+09 N/C2
- b) 1.322E+09 N/C2
- c) 1.454E+09 N/C2
- d) 1.599E+09 N/C2
- e) 1.759E+09 N/C2
- a) 9.883E+00 μC
- b) 1.087E+01 μC
- c) 1.196E+01 μC
- d) 1.315E+01 μC
- e) 1.447E+01 μC
- a) 1.308E-13 N
- b) 1.439E-13 N
- c) 1.583E-13 N
- d) 1.741E-13 N
- e) 1.915E-13 N
7) If a 19 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=73 V is x2 + y2 + z2 = R2, where R=
- a) 1.598E+00 m
- b) 1.757E+00 m
- c) 1.933E+00 m
- d) 2.127E+00 m
- e) 2.339E+00 m
8) Three resistors, R1 = 0.87 Ω, and R2 = R2 = 2.0 Ω, are connected in parallel to a 8.57 V voltage source. Calculate the power dissipated by the smaller resistor (R1.)
- a) 6.977E+01 W
- b) 7.674E+01 W
- c) 8.442E+01 W
- d) 9.286E+01 W
- e) 1.021E+02 W
9) A battery with a terminal voltage of 7.63 V is connected to a circuit consisting of 3 20.9 Ω resistors and one 12.1 Ω resistor. What is the voltage drop across the 12.1 Ω resistor?
- a) 1.234E+00 V
- b) 1.358E+00 V
- c) 1.493E+00 V
- d) 1.643E+00 V
- e) 1.807E+00 V
10) A non-conducting sphere of radius R=1.7 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.2 (r≤R) where a=3 nC·m-1.8. What is the magnitude of the electric field at a distance of 0.71 m from the center?
- a) 3.797E+01 N/C
- b) 4.177E+01 N/C
- c) 4.595E+01 N/C
- d) 5.054E+01 N/C
- e) 5.560E+01 N/C
T1(5-10) S0
edit- a) 6.925E+09 N/C2
- b) 7.617E+09 N/C2
- c) 8.379E+09 N/C2
- d) 9.217E+09 N/C2
- e) 1.014E+10 N/C2
2)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 3.722E-01 V/m2
- b) 4.094E-01 V/m2
- c) 4.504E-01 V/m2
- d) 4.954E-01 V/m2
- e) 5.450E-01 V/m2
3) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 7.6 nano-Coulombs. What is the magnitude of the electric field at a distance of 5.8 m from the center of the shells?
- a) 1.017E+01 N/C
- b) 1.118E+01 N/C
- c) 1.230E+01 N/C
- d) 1.353E+01 N/C
- e) 1.488E+01 N/C
- a) 3.712E+01 N·m2/C
- b) 4.083E+01 N·m2/C
- c) 4.491E+01 N·m2/C
- d) 4.940E+01 N·m2/C
- e) 5.434E+01 N·m2/C
5) A 3 C charge is separated from a 11 C charge by distance of 12 cm. What is the work done by increasing this separation to 19 cm?
- a) 8.278E-07 J
- b) 9.106E-07 J
- c) 1.002E-06 J
- d) 1.102E-06 J
- e) 1.212E-06 J
6) Calculate the final speed of a free electron accelerated from rest through a potential difference of 12 V.
- a) 1.544E+06 m/s
- b) 1.698E+06 m/s
- c) 1.868E+06 m/s
- d) 2.055E+06 m/s
- e) 2.260E+06 m/s
- a) 6.011E+01 μC
- b) 6.613E+01 μC
- c) 7.274E+01 μC
- d) 8.001E+01 μC
- e) 8.801E+01 μC
8) What is the average current involved when a truck battery sets in motion 669 C of charge in 4.3 s while starting an engine?
- a) 1.063E+02 A
- b) 1.169E+02 A
- c) 1.286E+02 A
- d) 1.414E+02 A
- e) 1.556E+02 A
- a) 8.240E+00 W
- b) 9.064E+00 W
- c) 9.970E+00 W
- d) 1.097E+01 W
- e) 1.206E+01 W
- a) 9.718E+00 s
- b) 1.069E+01 s
- c) 1.176E+01 s
- d) 1.293E+01 s
- e) 1.423E+01 s
T1(5-10) S1
edit- a) 2.240E+01 W
- b) 2.464E+01 W
- c) 2.710E+01 W
- d) 2.981E+01 W
- e) 3.279E+01 W
2) What is the average current involved when a truck battery sets in motion 618 C of charge in 2.28 s while starting an engine?
- a) 2.240E+02 A
- b) 2.464E+02 A
- c) 2.711E+02 A
- d) 2.982E+02 A
- e) 3.280E+02 A
3)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 9.459E+00 V/m2
- b) 1.040E+01 V/m2
- c) 1.145E+01 V/m2
- d) 1.259E+01 V/m2
- e) 1.385E+01 V/m2
4) Calculate the final speed of a free electron accelerated from rest through a potential difference of 56 V.
- a) 3.031E+06 m/s
- b) 3.335E+06 m/s
- c) 3.668E+06 m/s
- d) 4.035E+06 m/s
- e) 4.438E+06 m/s
- a) 2.385E+01 μC
- b) 2.623E+01 μC
- c) 2.886E+01 μC
- d) 3.174E+01 μC
- e) 3.492E+01 μC
6) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 4.7 nano-Coulombs. What is the magnitude of the electric field at a distance of 4.2 m from the center of the shells?
- a) 9.592E+00 N/C
- b) 1.055E+01 N/C
- c) 1.161E+01 N/C
- d) 1.277E+01 N/C
- e) 1.404E+01 N/C
- a) 8.336E+09 N/C2
- b) 9.170E+09 N/C2
- c) 1.009E+10 N/C2
- d) 1.110E+10 N/C2
- e) 1.220E+10 N/C2
- a) 9.024E+00 s
- b) 9.927E+00 s
- c) 1.092E+01 s
- d) 1.201E+01 s
- e) 1.321E+01 s
9) A 2 C charge is separated from a 10 C charge by distance of 8 cm. What is the work done by increasing this separation to 14 cm?
- a) 8.754E-07 J
- b) 9.630E-07 J
- c) 1.059E-06 J
- d) 1.165E-06 J
- e) 1.282E-06 J
- a) 6.920E+01 N·m2/C
- b) 7.612E+01 N·m2/C
- c) 8.373E+01 N·m2/C
- d) 9.210E+01 N·m2/C
- e) 1.013E+02 N·m2/C
T1(5-10) S2
edit- a) 2.470E+01 W
- b) 2.717E+01 W
- c) 2.989E+01 W
- d) 3.288E+01 W
- e) 3.617E+01 W
- a) 2.451E+01 μC
- b) 2.696E+01 μC
- c) 2.966E+01 μC
- d) 3.262E+01 μC
- e) 3.589E+01 μC
3) A 7 C charge is separated from a 12 C charge by distance of 11 cm. What is the work done by increasing this separation to 19 cm?
- a) 2.890E-06 J
- b) 3.179E-06 J
- c) 3.497E-06 J
- d) 3.846E-06 J
- e) 4.231E-06 J
- a) 4.809E+01 N·m2/C
- b) 5.290E+01 N·m2/C
- c) 5.819E+01 N·m2/C
- d) 6.401E+01 N·m2/C
- e) 7.041E+01 N·m2/C
5) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 2.8 nano-Coulombs. What is the magnitude of the electric field at a distance of 4.8 m from the center of the shells?
- a) 2.988E+00 N/C
- b) 3.287E+00 N/C
- c) 3.616E+00 N/C
- d) 3.977E+00 N/C
- e) 4.375E+00 N/C
6) What is the average current involved when a truck battery sets in motion 738 C of charge in 3.87 s while starting an engine?
- a) 1.907E+02 A
- b) 2.098E+02 A
- c) 2.307E+02 A
- d) 2.538E+02 A
- e) 2.792E+02 A
- a) 2.429E+09 N/C2
- b) 2.672E+09 N/C2
- c) 2.939E+09 N/C2
- d) 3.233E+09 N/C2
- e) 3.556E+09 N/C2
8) Calculate the final speed of a free electron accelerated from rest through a potential difference of 81 V.
- a) 4.411E+06 m/s
- b) 4.853E+06 m/s
- c) 5.338E+06 m/s
- d) 5.872E+06 m/s
- e) 6.459E+06 m/s
9)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 8.924E-01 V/m2
- b) 9.816E-01 V/m2
- c) 1.080E+00 V/m2
- d) 1.188E+00 V/m2
- e) 1.307E+00 V/m2
- a) 3.224E+01 s
- b) 3.547E+01 s
- c) 3.902E+01 s
- d) 4.292E+01 s
- e) 4.721E+01 s
T1(5-10) T0
edit- a) 9.750E-15 N
- b) 1.072E-14 N
- c) 1.180E-14 N
- d) 1.298E-14 N
- e) 1.427E-14 N
2) A large thin isolated square plate has an area of 3 m2. It is uniformly charged with 9 nC of charge. What is the magnitude of the electric field 3 mm from the center of the plate's surface?
- a) 1.694E+02 N/C
- b) 1.864E+02 N/C
- c) 2.050E+02 N/C
- d) 2.255E+02 N/C
- e) 2.480E+02 N/C
3) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 9.0 nano-Coulombs. What is the magnitude of the electric field at a distance of 5.5 m from the center of the shells?
- a) 9.144E+00 N/C
- b) 1.006E+01 N/C
- c) 1.106E+01 N/C
- d) 1.217E+01 N/C
- e) 1.339E+01 N/C
- a) 1.740E+01 N·m2/C
- b) 1.914E+01 N·m2/C
- c) 2.106E+01 N·m2/C
- d) 2.316E+01 N·m2/C
- e) 2.548E+01 N·m2/C
5) Two large parallel conducting plates are separated by 7.42 mm. Equal and opposite surface charges of 7.760E-07 C/m2 exist on the surfaces between the plates. What is the distance between equipotential planes which differ by 61 V?
- a) 3.979E-01 mm
- b) 4.576E-01 mm
- c) 5.263E-01 mm
- d) 6.052E-01 mm
- e) 6.960E-01 mm
6) A 2 C charge is separated from a 10 C charge by distance of 8 cm. What is the work done by increasing this separation to 14 cm?
- a) 8.754E-07 J
- b) 9.630E-07 J
- c) 1.059E-06 J
- d) 1.165E-06 J
- e) 1.282E-06 J
- a) 1.303E+01 μJ
- b) 1.434E+01 μJ
- c) 1.577E+01 μJ
- d) 1.735E+01 μJ
- e) 1.908E+01 μJ
8) Imagine a substance could be made into a very hot filament. Suppose the resitance is 1.52 Ω at a temperature of 45°C and that the temperature coefficient of expansion is 4.330E-03 (°C)−1). What is the resistance at a temperature of 479 °C?
- a) 3.970E+00 Ω
- b) 4.168E+00 Ω
- c) 4.376E+00 Ω
- d) 4.595E+00 Ω
- e) 4.825E+00 Ω
- a) 1.177E+01 V
- b) 1.295E+01 V
- c) 1.424E+01 V
- d) 1.567E+01 V
- e) 1.723E+01 V
- a) 7.264E-01 mA
- b) 7.990E-01 mA
- c) 8.789E-01 mA
- d) 9.668E-01 mA
- e) 1.063E+00 mA
T1(5-10) T1
edit1) A 8 C charge is separated from a 12 C charge by distance of 9 cm. What is the work done by increasing this separation to 18 cm?
- a) 3.274E-06 J
- b) 3.601E-06 J
- c) 3.961E-06 J
- d) 4.358E-06 J
- e) 4.793E-06 J
- a) 3.391E-14 N
- b) 3.731E-14 N
- c) 4.104E-14 N
- d) 4.514E-14 N
- e) 4.965E-14 N
- a) 1.085E+00 mA
- b) 1.194E+00 mA
- c) 1.313E+00 mA
- d) 1.444E+00 mA
- e) 1.589E+00 mA
4) Two large parallel conducting plates are separated by 6.95 mm. Equal and opposite surface charges of 7.360E-07 C/m2 exist on the surfaces between the plates. What is the distance between equipotential planes which differ by 83 V?
- a) 6.565E-01 mm
- b) 7.550E-01 mm
- c) 8.683E-01 mm
- d) 9.985E-01 mm
- e) 1.148E+00 mm
- a) 5.000E+01 N·m2/C
- b) 5.500E+01 N·m2/C
- c) 6.050E+01 N·m2/C
- d) 6.656E+01 N·m2/C
- e) 7.321E+01 N·m2/C
6) A large thin isolated square plate has an area of 6 m2. It is uniformly charged with 9 nC of charge. What is the magnitude of the electric field 3 mm from the center of the plate's surface?
- a) 8.471E+01 N/C
- b) 9.318E+01 N/C
- c) 1.025E+02 N/C
- d) 1.127E+02 N/C
- e) 1.240E+02 N/C
- a) 8.718E+00 μJ
- b) 9.589E+00 μJ
- c) 1.055E+01 μJ
- d) 1.160E+01 μJ
- e) 1.276E+01 μJ
8) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 7.3 nano-Coulombs. What is the magnitude of the electric field at a distance of 1.5 m from the center of the shells?
- a) 1.994E+01 N/C
- b) 2.194E+01 N/C
- c) 2.413E+01 N/C
- d) 2.655E+01 N/C
- e) 2.920E+01 N/C
9) Imagine a substance could be made into a very hot filament. Suppose the resitance is 5.94 Ω at a temperature of 70°C and that the temperature coefficient of expansion is 5.120E-03 (°C)−1). What is the resistance at a temperature of 386 °C?
- a) 1.279E+01 Ω
- b) 1.343E+01 Ω
- c) 1.410E+01 Ω
- d) 1.481E+01 Ω
- e) 1.555E+01 Ω
- a) 6.064E+00 V
- b) 6.670E+00 V
- c) 7.337E+00 V
- d) 8.071E+00 V
- e) 8.878E+00 V
T1(5-10) T2
edit- a) 1.660E+00 mA
- b) 1.826E+00 mA
- c) 2.009E+00 mA
- d) 2.209E+00 mA
- e) 2.430E+00 mA
- a) 6.488E+00 V
- b) 7.137E+00 V
- c) 7.850E+00 V
- d) 8.635E+00 V
- e) 9.499E+00 V
3) Two large parallel conducting plates are separated by 7.77 mm. Equal and opposite surface charges of 7.280E-07 C/m2 exist on the surfaces between the plates. What is the distance between equipotential planes which differ by 70 V?
- a) 8.514E-01 mm
- b) 9.791E-01 mm
- c) 1.126E+00 mm
- d) 1.295E+00 mm
- e) 1.489E+00 mm
- a) 5.014E-14 N
- b) 5.515E-14 N
- c) 6.067E-14 N
- d) 6.674E-14 N
- e) 7.341E-14 N
- a) 2.079E+01 N·m2/C
- b) 2.287E+01 N·m2/C
- c) 2.516E+01 N·m2/C
- d) 2.768E+01 N·m2/C
- e) 3.044E+01 N·m2/C
6) A 3 C charge is separated from a 9 C charge by distance of 13 cm. What is the work done by increasing this separation to 21 cm?
- a) 6.465E-07 J
- b) 7.111E-07 J
- c) 7.822E-07 J
- d) 8.604E-07 J
- e) 9.465E-07 J
7) Imagine a substance could be made into a very hot filament. Suppose the resitance is 1.95 Ω at a temperature of 96°C and that the temperature coefficient of expansion is 4.400E-03 (°C)−1). What is the resistance at a temperature of 469 °C?
- a) 4.449E+00 Ω
- b) 4.672E+00 Ω
- c) 4.905E+00 Ω
- d) 5.150E+00 Ω
- e) 5.408E+00 Ω
- a) 6.750E+00 μJ
- b) 7.425E+00 μJ
- c) 8.168E+00 μJ
- d) 8.984E+00 μJ
- e) 9.883E+00 μJ
9) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 7.6 nano-Coulombs. What is the magnitude of the electric field at a distance of 5.8 m from the center of the shells?
- a) 1.017E+01 N/C
- b) 1.118E+01 N/C
- c) 1.230E+01 N/C
- d) 1.353E+01 N/C
- e) 1.488E+01 N/C
10) A large thin isolated square plate has an area of 6 m2. It is uniformly charged with 5 nC of charge. What is the magnitude of the electric field 1 mm from the center of the plate's surface?
- a) 3.214E+01 N/C
- b) 3.536E+01 N/C
- c) 3.889E+01 N/C
- d) 4.278E+01 N/C
- e) 4.706E+01 N/C
T1(5-10) U0
edit- a) 1.473E-14 N
- b) 1.620E-14 N
- c) 1.782E-14 N
- d) 1.960E-14 N
- e) 2.156E-14 N
2)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 6.877E+00 V/m2
- b) 7.565E+00 V/m2
- c) 8.321E+00 V/m2
- d) 9.153E+00 V/m2
- e) 1.007E+01 V/m2
3) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=4, y=0), (x=0, y=9), and (x=4, y=9), where x and y are measured in meters. The electric field is,
- a) 7.054E+03 V·m
- b) 7.759E+03 V·m
- c) 8.535E+03 V·m
- d) 9.388E+03 V·m
- e) 1.033E+04 V·m
- a) 4.988E+01 N·m2/C
- b) 5.487E+01 N·m2/C
- c) 6.035E+01 N·m2/C
- d) 6.639E+01 N·m2/C
- e) 7.303E+01 N·m2/C
5) A 9 C charge is separated from a 16 C charge by distance of 10 cm. What is the work done by increasing this separation to 16 cm?
- a) 4.853E-06 J
- b) 5.339E-06 J
- c) 5.872E-06 J
- d) 6.460E-06 J
- e) 7.106E-06 J
- a) 4.590E+02 V
- b) 5.049E+02 V
- c) 5.554E+02 V
- d) 6.109E+02 V
- e) 6.720E+02 V
7) An empty parallel-plate capacitor with metal plates has an area of 2.83 m2, separated by 1.14 mm. How much charge does it store if the voltage is 4.180E+03 V?
- a) 6.275E+01 μC
- b) 6.903E+01 μC
- c) 7.593E+01 μC
- d) 8.352E+01 μC
- e) 9.188E+01 μC
8) A make-believe metal has a density of 1.430E+04 kg/m3 and an atomic mass of 37.8 g/mol. Taking Avogadro's number to be 6.020E+23 atoms/mol and assuming one free electron per atom, calculate the number of free electrons per cubic meter.
- a) 1.882E+29 e−/m3
- b) 2.070E+29 e−/m3
- c) 2.277E+29 e−/m3
- d) 2.505E+29 e−/m3
- e) 2.756E+29 e−/m3
9) A given battery has a 13 V emf and an internal resistance of 0.161 Ω. If it is connected to a 0.814 Ω resistor what is the power dissipated by that load?
- a) 1.087E+02 W
- b) 1.196E+02 W
- c) 1.316E+02 W
- d) 1.447E+02 W
- e) 1.592E+02 W
- a) 1.056E+01 V
- b) 1.161E+01 V
- c) 1.277E+01 V
- d) 1.405E+01 V
- e) 1.545E+01 V
T1(5-10) U1
edit1) An empty parallel-plate capacitor with metal plates has an area of 2.66 m2, separated by 1.18 mm. How much charge does it store if the voltage is 6.170E+03 V?
- a) 1.231E+02 μC
- b) 1.355E+02 μC
- c) 1.490E+02 μC
- d) 1.639E+02 μC
- e) 1.803E+02 μC
2) A given battery has a 12 V emf and an internal resistance of 0.107 Ω. If it is connected to a 0.814 Ω resistor what is the power dissipated by that load?
- a) 1.382E+02 W
- b) 1.520E+02 W
- c) 1.672E+02 W
- d) 1.839E+02 W
- e) 2.023E+02 W
3) A make-believe metal has a density of 1.480E+04 kg/m3 and an atomic mass of 196.0 g/mol. Taking Avogadro's number to be 6.020E+23 atoms/mol and assuming one free electron per atom, calculate the number of free electrons per cubic meter.
- a) 4.546E+28 e−/m3
- b) 5.000E+28 e−/m3
- c) 5.500E+28 e−/m3
- d) 6.050E+28 e−/m3
- e) 6.655E+28 e−/m3
- a) 2.731E+02 V
- b) 3.004E+02 V
- c) 3.304E+02 V
- d) 3.634E+02 V
- e) 3.998E+02 V
- a) 5.439E+01 N·m2/C
- b) 5.983E+01 N·m2/C
- c) 6.581E+01 N·m2/C
- d) 7.239E+01 N·m2/C
- e) 7.963E+01 N·m2/C
6)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 5.134E-01 V/m2
- b) 5.648E-01 V/m2
- c) 6.212E-01 V/m2
- d) 6.834E-01 V/m2
- e) 7.517E-01 V/m2
- a) 2.036E-14 N
- b) 2.240E-14 N
- c) 2.464E-14 N
- d) 2.710E-14 N
- e) 2.981E-14 N
8) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=5, y=0), (x=0, y=7), and (x=5, y=7), where x and y are measured in meters. The electric field is,
- a) 1.128E+04 V·m
- b) 1.241E+04 V·m
- c) 1.365E+04 V·m
- d) 1.502E+04 V·m
- e) 1.652E+04 V·m
- a) 1.380E+01 V
- b) 1.518E+01 V
- c) 1.670E+01 V
- d) 1.837E+01 V
- e) 2.020E+01 V
10) A 8 C charge is separated from a 13 C charge by distance of 7 cm. What is the work done by increasing this separation to 13 cm?
- a) 4.209E-06 J
- b) 4.630E-06 J
- c) 5.093E-06 J
- d) 5.603E-06 J
- e) 6.163E-06 J
T1(5-10) U2
edit- a) 5.796E+02 V
- b) 6.375E+02 V
- c) 7.013E+02 V
- d) 7.714E+02 V
- e) 8.486E+02 V
- a) 3.416E+00 V
- b) 3.757E+00 V
- c) 4.133E+00 V
- d) 4.546E+00 V
- e) 5.001E+00 V
3) A 2 C charge is separated from a 10 C charge by distance of 8 cm. What is the work done by increasing this separation to 14 cm?
- a) 8.754E-07 J
- b) 9.630E-07 J
- c) 1.059E-06 J
- d) 1.165E-06 J
- e) 1.282E-06 J
4) A given battery has a 14 V emf and an internal resistance of 0.0842 Ω. If it is connected to a 0.835 Ω resistor what is the power dissipated by that load?
- a) 1.455E+02 W
- b) 1.601E+02 W
- c) 1.761E+02 W
- d) 1.937E+02 W
- e) 2.131E+02 W
5) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=7, y=0), (x=0, y=4), and (x=7, y=4), where x and y are measured in meters. The electric field is,
- a) 2.610E+03 V·m
- b) 2.871E+03 V·m
- c) 3.158E+03 V·m
- d) 3.474E+03 V·m
- e) 3.822E+03 V·m
6) A make-believe metal has a density of 3.530E+03 kg/m3 and an atomic mass of 10.5 g/mol. Taking Avogadro's number to be 6.020E+23 atoms/mol and assuming one free electron per atom, calculate the number of free electrons per cubic meter.
- a) 1.673E+29 e−/m3
- b) 1.840E+29 e−/m3
- c) 2.024E+29 e−/m3
- d) 2.226E+29 e−/m3
- e) 2.449E+29 e−/m3
- a) 3.876E-14 N
- b) 4.263E-14 N
- c) 4.690E-14 N
- d) 5.159E-14 N
- e) 5.675E-14 N
8)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 4.961E-01 V/m2
- b) 5.457E-01 V/m2
- c) 6.002E-01 V/m2
- d) 6.603E-01 V/m2
- e) 7.263E-01 V/m2
- a) 8.921E+01 N·m2/C
- b) 9.813E+01 N·m2/C
- c) 1.079E+02 N·m2/C
- d) 1.187E+02 N·m2/C
- e) 1.306E+02 N·m2/C
10) An empty parallel-plate capacitor with metal plates has an area of 1.81 m2, separated by 1.26 mm. How much charge does it store if the voltage is 4.610E+03 V?
- a) 4.005E+01 μC
- b) 4.405E+01 μC
- c) 4.846E+01 μC
- d) 5.330E+01 μC
- e) 5.864E+01 μC
T1(5-10) V0
edit- a) 3.672E+09 N/C2
- b) 4.039E+09 N/C2
- c) 4.443E+09 N/C2
- d) 4.887E+09 N/C2
- e) 5.376E+09 N/C2
- a) 5.767E+01 degrees
- b) 6.343E+01 degrees
- c) 6.978E+01 degrees
- d) 7.676E+01 degrees
- e) 8.443E+01 degrees
- a) 3.662E+01 N·m2/C
- b) 4.028E+01 N·m2/C
- c) 4.430E+01 N·m2/C
- d) 4.873E+01 N·m2/C
- e) 5.361E+01 N·m2/C
- a) 1.891E+01 N·m2/C
- b) 2.080E+01 N·m2/C
- c) 2.288E+01 N·m2/C
- d) 2.517E+01 N·m2/C
- e) 2.768E+01 N·m2/C
5) A 7 C charge is separated from a 11 C charge by distance of 11 cm. What is the work done by increasing this separation to 19 cm?
- a) 2.408E-06 J
- b) 2.649E-06 J
- c) 2.914E-06 J
- d) 3.205E-06 J
- e) 3.526E-06 J
6) Two large parallel conducting plates are separated by 7.14 mm. Equal and opposite surface charges of 7.660E-07 C/m2 exist on the surfaces between the plates. What is the distance between equipotential planes which differ by 61 V?
- a) 4.031E-01 mm
- b) 4.636E-01 mm
- c) 5.332E-01 mm
- d) 6.131E-01 mm
- e) 7.051E-01 mm
- a) 1.508E+01 μJ
- b) 1.659E+01 μJ
- c) 1.825E+01 μJ
- d) 2.007E+01 μJ
- e) 2.208E+01 μJ
8) A make-believe metal has a density of 3.230E+03 kg/m3 and an atomic mass of 116.0 g/mol. Taking Avogadro's number to be 6.020E+23 atoms/mol and assuming one free electron per atom, calculate the number of free electrons per cubic meter.
- a) 1.385E+28 e−/m3
- b) 1.524E+28 e−/m3
- c) 1.676E+28 e−/m3
- d) 1.844E+28 e−/m3
- e) 2.028E+28 e−/m3
9) A given battery has a 15 V emf and an internal resistance of 0.162 Ω. If it is connected to a 0.561 Ω resistor what is the power dissipated by that load?
- a) 1.814E+02 W
- b) 1.996E+02 W
- c) 2.195E+02 W
- d) 2.415E+02 W
- e) 2.656E+02 W
- a) 8.482E+00 V
- b) 9.330E+00 V
- c) 1.026E+01 V
- d) 1.129E+01 V
- e) 1.242E+01 V
T1(5-10) V1
edit- a) 3.436E+00 V
- b) 3.779E+00 V
- c) 4.157E+00 V
- d) 4.573E+00 V
- e) 5.030E+00 V
2) Two large parallel conducting plates are separated by 6.95 mm. Equal and opposite surface charges of 7.360E-07 C/m2 exist on the surfaces between the plates. What is the distance between equipotential planes which differ by 83 V?
- a) 6.565E-01 mm
- b) 7.550E-01 mm
- c) 8.683E-01 mm
- d) 9.985E-01 mm
- e) 1.148E+00 mm
3) A make-believe metal has a density of 3.230E+03 kg/m3 and an atomic mass of 116.0 g/mol. Taking Avogadro's number to be 6.020E+23 atoms/mol and assuming one free electron per atom, calculate the number of free electrons per cubic meter.
- a) 1.385E+28 e−/m3
- b) 1.524E+28 e−/m3
- c) 1.676E+28 e−/m3
- d) 1.844E+28 e−/m3
- e) 2.028E+28 e−/m3
- a) 2.242E+01 μJ
- b) 2.467E+01 μJ
- c) 2.713E+01 μJ
- d) 2.985E+01 μJ
- e) 3.283E+01 μJ
5) A 4 C charge is separated from a 10 C charge by distance of 10 cm. What is the work done by increasing this separation to 19 cm?
- a) 1.548E-06 J
- b) 1.703E-06 J
- c) 1.873E-06 J
- d) 2.061E-06 J
- e) 2.267E-06 J
- a) 5.439E+01 N·m2/C
- b) 5.983E+01 N·m2/C
- c) 6.581E+01 N·m2/C
- d) 7.239E+01 N·m2/C
- e) 7.963E+01 N·m2/C
- a) 6.364E+01 N·m2/C
- b) 7.000E+01 N·m2/C
- c) 7.700E+01 N·m2/C
- d) 8.470E+01 N·m2/C
- e) 9.317E+01 N·m2/C
8) A given battery has a 15 V emf and an internal resistance of 0.113 Ω. If it is connected to a 0.645 Ω resistor what is the power dissipated by that load?
- a) 1.898E+02 W
- b) 2.087E+02 W
- c) 2.296E+02 W
- d) 2.526E+02 W
- e) 2.778E+02 W
- a) 5.272E+01 degrees
- b) 5.799E+01 degrees
- c) 6.379E+01 degrees
- d) 7.017E+01 degrees
- e) 7.719E+01 degrees
- a) 3.339E+09 N/C2
- b) 3.673E+09 N/C2
- c) 4.041E+09 N/C2
- d) 4.445E+09 N/C2
- e) 4.889E+09 N/C2
T1(5-10) V2
edit1) A make-believe metal has a density of 8.690E+03 kg/m3 and an atomic mass of 48.4 g/mol. Taking Avogadro's number to be 6.020E+23 atoms/mol and assuming one free electron per atom, calculate the number of free electrons per cubic meter.
- a) 1.081E+29 e−/m3
- b) 1.189E+29 e−/m3
- c) 1.308E+29 e−/m3
- d) 1.439E+29 e−/m3
- e) 1.582E+29 e−/m3
- a) 5.243E+01 degrees
- b) 5.767E+01 degrees
- c) 6.343E+01 degrees
- d) 6.978E+01 degrees
- e) 7.676E+01 degrees
- a) 1.353E+09 N/C2
- b) 1.488E+09 N/C2
- c) 1.637E+09 N/C2
- d) 1.801E+09 N/C2
- e) 1.981E+09 N/C2
- a) 2.134E+01 N·m2/C
- b) 2.347E+01 N·m2/C
- c) 2.582E+01 N·m2/C
- d) 2.840E+01 N·m2/C
- e) 3.124E+01 N·m2/C
- a) 3.436E+00 V
- b) 3.779E+00 V
- c) 4.157E+00 V
- d) 4.573E+00 V
- e) 5.030E+00 V
6) A given battery has a 15 V emf and an internal resistance of 0.113 Ω. If it is connected to a 0.645 Ω resistor what is the power dissipated by that load?
- a) 1.898E+02 W
- b) 2.087E+02 W
- c) 2.296E+02 W
- d) 2.526E+02 W
- e) 2.778E+02 W
7) A 8 C charge is separated from a 12 C charge by distance of 9 cm. What is the work done by increasing this separation to 18 cm?
- a) 3.274E-06 J
- b) 3.601E-06 J
- c) 3.961E-06 J
- d) 4.358E-06 J
- e) 4.793E-06 J
8) Two large parallel conducting plates are separated by 9.87 mm. Equal and opposite surface charges of 7.610E-07 C/m2 exist on the surfaces between the plates. What is the distance between equipotential planes which differ by 66 V?
- a) 4.391E-01 mm
- b) 5.049E-01 mm
- c) 5.806E-01 mm
- d) 6.677E-01 mm
- e) 7.679E-01 mm
- a) 2.102E+01 μJ
- b) 2.312E+01 μJ
- c) 2.543E+01 μJ
- d) 2.797E+01 μJ
- e) 3.077E+01 μJ
- a) 7.081E+01 N·m2/C
- b) 7.789E+01 N·m2/C
- c) 8.568E+01 N·m2/C
- d) 9.425E+01 N·m2/C
- e) 1.037E+02 N·m2/C
T1(5-10) W0
edit- a) 5.243E-14 N
- b) 5.768E-14 N
- c) 6.344E-14 N
- d) 6.979E-14 N
- e) 7.677E-14 N
- a) 6.925E+09 N/C2
- b) 7.617E+09 N/C2
- c) 8.379E+09 N/C2
- d) 9.217E+09 N/C2
- e) 1.014E+10 N/C2
3) A non-conducting sphere of radius R=1.7 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=3 nC·m-1.5. What is the magnitude of the electric field at a distance of 0.64 m from the center?
- a) 2.039E+01 N/C
- b) 2.243E+01 N/C
- c) 2.467E+01 N/C
- d) 2.714E+01 N/C
- e) 2.985E+01 N/C
4) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=6, y=0), (x=0, y=5), and (x=6, y=5), where x and y are measured in meters. The electric field is,
- a) 2.067E+03 V·m
- b) 2.274E+03 V·m
- c) 2.501E+03 V·m
- d) 2.752E+03 V·m
- e) 3.027E+03 V·m
5) If a 14 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=83 V is x2 + y2 + z2 = R2, where R=
- a) 1.378E+00 m
- b) 1.516E+00 m
- c) 1.668E+00 m
- d) 1.834E+00 m
- e) 2.018E+00 m
6) A 12.0 V battery can move 32,000 C of charge. How many Joules does it deliver?
- a) 2.885E+05 J
- b) 3.174E+05 J
- c) 3.491E+05 J
- d) 3.840E+05 J
- e) 4.224E+05 J
- a) 2.444E+01 μC
- b) 2.689E+01 μC
- c) 2.958E+01 μC
- d) 3.253E+01 μC
- e) 3.579E+01 μC
8) What is consumer cost to operate one 77−W incandescent bulb for 12 hours per day for 1 year (365 days) if the cost of electricity is $0.124 per kilowatt-hour?
- a) $3.142E+01
- b) $3.456E+01
- c) $3.802E+01
- d) $4.182E+01
- e) $4.600E+01
- a) 1.834E-01 A
- b) 2.018E-01 A
- c) 2.220E-01 A
- d) 2.441E-01 A
- e) 2.686E-01 A
10) A battery with a terminal voltage of 6.49 V is connected to a circuit consisting of 3 18.0 Ω resistors and one 10.3 Ω resistor. What is the voltage drop across the 10.3 Ω resistor?
- a) 7.101E-01 V
- b) 7.811E-01 V
- c) 8.592E-01 V
- d) 9.451E-01 V
- e) 1.040E+00 V
T1(5-10) W1
edit1) A 12.0 V battery can move 24,000 C of charge. How many Joules does it deliver?
- a) 1.967E+05 J
- b) 2.164E+05 J
- c) 2.380E+05 J
- d) 2.618E+05 J
- e) 2.880E+05 J
2) A non-conducting sphere of radius R=1.5 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=2 nC·m-1.5. What is the magnitude of the electric field at a distance of 0.73 m from the center?
- a) 2.285E+01 N/C
- b) 2.514E+01 N/C
- c) 2.765E+01 N/C
- d) 3.042E+01 N/C
- e) 3.346E+01 N/C
- a) 6.011E+01 μC
- b) 6.613E+01 μC
- c) 7.274E+01 μC
- d) 8.001E+01 μC
- e) 8.801E+01 μC
4) What is consumer cost to operate one 79−W incandescent bulb for 9 hours per day for 1 year (365 days) if the cost of electricity is $0.142 per kilowatt-hour?
- a) $2.517E+01
- b) $2.769E+01
- c) $3.046E+01
- d) $3.350E+01
- e) $3.685E+01
5) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=4, y=0), (x=0, y=3), and (x=4, y=3), where x and y are measured in meters. The electric field is,
- a) 7.200E+01 V·m
- b) 7.920E+01 V·m
- c) 8.712E+01 V·m
- d) 9.583E+01 V·m
- e) 1.054E+02 V·m
6) A battery with a terminal voltage of 12.4 V is connected to a circuit consisting of 3 21.6 Ω resistors and one 12.1 Ω resistor. What is the voltage drop across the 12.1 Ω resistor?
- a) 1.333E+00 V
- b) 1.466E+00 V
- c) 1.612E+00 V
- d) 1.774E+00 V
- e) 1.951E+00 V
- a) 1.353E+09 N/C2
- b) 1.488E+09 N/C2
- c) 1.637E+09 N/C2
- d) 1.801E+09 N/C2
- e) 1.981E+09 N/C2
- a) 5.014E-14 N
- b) 5.515E-14 N
- c) 6.067E-14 N
- d) 6.674E-14 N
- e) 7.341E-14 N
- a) 1.285E-01 A
- b) 1.414E-01 A
- c) 1.555E-01 A
- d) 1.711E-01 A
- e) 1.882E-01 A
10) If a 20 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=70 V is x2 + y2 + z2 = R2, where R=
- a) 1.754E+00 m
- b) 1.929E+00 m
- c) 2.122E+00 m
- d) 2.334E+00 m
- e) 2.568E+00 m
T1(5-10) W2
edit- a) 5.732E-15 N
- b) 6.305E-15 N
- c) 6.936E-15 N
- d) 7.629E-15 N
- e) 8.392E-15 N
- a) 5.581E+09 N/C2
- b) 6.139E+09 N/C2
- c) 6.753E+09 N/C2
- d) 7.428E+09 N/C2
- e) 8.171E+09 N/C2
3) A non-conducting sphere of radius R=1.7 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=3 nC·m-1.5. What is the magnitude of the electric field at a distance of 0.64 m from the center?
- a) 2.039E+01 N/C
- b) 2.243E+01 N/C
- c) 2.467E+01 N/C
- d) 2.714E+01 N/C
- e) 2.985E+01 N/C
- a) 1.834E-01 A
- b) 2.018E-01 A
- c) 2.220E-01 A
- d) 2.441E-01 A
- e) 2.686E-01 A
5) What is consumer cost to operate one 56−W incandescent bulb for 6 hours per day for 1 year (365 days) if the cost of electricity is $0.13 per kilowatt-hour?
- a) $1.198E+01
- b) $1.318E+01
- c) $1.449E+01
- d) $1.594E+01
- e) $1.754E+01
6) A 12.0 V battery can move 31,000 C of charge. How many Joules does it deliver?
- a) 2.541E+05 J
- b) 2.795E+05 J
- c) 3.074E+05 J
- d) 3.382E+05 J
- e) 3.720E+05 J
- a) 7.625E+01 μC
- b) 8.388E+01 μC
- c) 9.227E+01 μC
- d) 1.015E+02 μC
- e) 1.116E+02 μC
8) If a 13 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=84 V is x2 + y2 + z2 = R2, where R=
- a) 1.391E+00 m
- b) 1.530E+00 m
- c) 1.683E+00 m
- d) 1.851E+00 m
- e) 2.036E+00 m
9) A battery with a terminal voltage of 8.41 V is connected to a circuit consisting of 3 16.1 Ω resistors and one 10.9 Ω resistor. What is the voltage drop across the 10.9 Ω resistor?
- a) 1.058E+00 V
- b) 1.163E+00 V
- c) 1.280E+00 V
- d) 1.408E+00 V
- e) 1.548E+00 V
10) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=6, y=0), (x=0, y=6), and (x=6, y=6), where x and y are measured in meters. The electric field is,
- a) 4.820E+03 V·m
- b) 5.302E+03 V·m
- c) 5.832E+03 V·m
- d) 6.415E+03 V·m
- e) 7.057E+03 V·m
T1(5-10) X0
edit- a) 6.343E+01 degrees
- b) 6.978E+01 degrees
- c) 7.676E+01 degrees
- d) 8.443E+01 degrees
- e) 9.288E+01 degrees
- a) 9.958E-15 N
- b) 1.095E-14 N
- c) 1.205E-14 N
- d) 1.325E-14 N
- e) 1.458E-14 N
3) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 3.4 nano-Coulombs. What is the magnitude of the electric field at a distance of 2.8 m from the center of the shells?
- a) 5.865E+00 N/C
- b) 6.451E+00 N/C
- c) 7.096E+00 N/C
- d) 7.806E+00 N/C
- e) 8.587E+00 N/C
4) A non-conducting sphere of radius R=1.4 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.6 (r≤R) where a=3 nC·m-1.4. What is the magnitude of the electric field at a distance of 1.3 m from the center?
- a) 1.457E+02 N/C
- b) 1.603E+02 N/C
- c) 1.763E+02 N/C
- d) 1.939E+02 N/C
- e) 2.133E+02 N/C
5) If a 14 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=26 V is x2 + y2 + z2 = R2, where R=
- a) 3.636E+00 m
- b) 4.000E+00 m
- c) 4.399E+00 m
- d) 4.839E+00 m
- e) 5.323E+00 m
6) When a 6.24 V battery operates a 2.1 W bulb, how many electrons pass through it each second?
- a) 1.435E+18 electrons
- b) 1.578E+18 electrons
- c) 1.736E+18 electrons
- d) 1.910E+18 electrons
- e) 2.101E+18 electrons
- a) 2.242E+01 μJ
- b) 2.467E+01 μJ
- c) 2.713E+01 μJ
- d) 2.985E+01 μJ
- e) 3.283E+01 μJ
8) A DC winch moter draws 23 amps at 196 volts as it lifts a 4.870E+03 N weight at a constant speed of 0.731 m/s. Assuming that all the electrical power is either converted into gravitational potential energy or ohmically heats the motor's coils, calculate the coil's resistance.
- a) 1.346E+00 Ω
- b) 1.481E+00 Ω
- c) 1.629E+00 Ω
- d) 1.792E+00 Ω
- e) 1.971E+00 Ω
- a) 3.890E+00 V
- b) 4.279E+00 V
- c) 4.707E+00 V
- d) 5.178E+00 V
- e) 5.695E+00 V
- a) 1.981E+01 V
- b) 2.179E+01 V
- c) 2.397E+01 V
- d) 2.637E+01 V
- e) 2.901E+01 V
T1(5-10) X1
edit1) If a 29 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=81 V is x2 + y2 + z2 = R2, where R=
- a) 3.218E+00 m
- b) 3.540E+00 m
- c) 3.893E+00 m
- d) 4.283E+00 m
- e) 4.711E+00 m
- a) 9.142E+00 V
- b) 1.006E+01 V
- c) 1.106E+01 V
- d) 1.217E+01 V
- e) 1.338E+01 V
3) A DC winch moter draws 26 amps at 153 volts as it lifts a 4.100E+03 N weight at a constant speed of 0.609 m/s. Assuming that all the electrical power is either converted into gravitational potential energy or ohmically heats the motor's coils, calculate the coil's resistance.
- a) 2.191E+00 Ω
- b) 2.410E+00 Ω
- c) 2.651E+00 Ω
- d) 2.916E+00 Ω
- e) 3.208E+00 Ω
4) When a 1.95 V battery operates a 2.8 W bulb, how many electrons pass through it each second?
- a) 7.407E+18 electrons
- b) 8.147E+18 electrons
- c) 8.962E+18 electrons
- d) 9.858E+18 electrons
- e) 1.084E+19 electrons
- a) 1.308E-13 N
- b) 1.439E-13 N
- c) 1.583E-13 N
- d) 1.741E-13 N
- e) 1.915E-13 N
- a) 1.645E+01 μJ
- b) 1.809E+01 μJ
- c) 1.990E+01 μJ
- d) 2.189E+01 μJ
- e) 2.408E+01 μJ
7) A non-conducting sphere of radius R=2.9 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=3 nC·m-1.5. What is the magnitude of the electric field at a distance of 1.7 m from the center?
- a) 2.579E+02 N/C
- b) 2.837E+02 N/C
- c) 3.121E+02 N/C
- d) 3.433E+02 N/C
- e) 3.776E+02 N/C
- a) 6.125E+01 degrees
- b) 6.738E+01 degrees
- c) 7.412E+01 degrees
- d) 8.153E+01 degrees
- e) 8.968E+01 degrees
9) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 6.5 nano-Coulombs. What is the magnitude of the electric field at a distance of 1.3 m from the center of the shells?
- a) 2.601E+01 N/C
- b) 2.861E+01 N/C
- c) 3.147E+01 N/C
- d) 3.462E+01 N/C
- e) 3.808E+01 N/C
- a) 1.309E+01 V
- b) 1.440E+01 V
- c) 1.584E+01 V
- d) 1.742E+01 V
- e) 1.917E+01 V
T1(5-10) X2
edit1) If a 16 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=19 V is x2 + y2 + z2 = R2, where R=
- a) 5.169E+00 m
- b) 5.686E+00 m
- c) 6.255E+00 m
- d) 6.880E+00 m
- e) 7.568E+00 m
2) A non-conducting sphere of radius R=3.8 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.7 (r≤R) where a=3 nC·m-1.3. What is the magnitude of the electric field at a distance of 3.1 m from the center?
- a) 1.390E+03 N/C
- b) 1.530E+03 N/C
- c) 1.682E+03 N/C
- d) 1.851E+03 N/C
- e) 2.036E+03 N/C
- a) 1.906E+01 V
- b) 2.097E+01 V
- c) 2.306E+01 V
- d) 2.537E+01 V
- e) 2.790E+01 V
- a) 9.750E-15 N
- b) 1.072E-14 N
- c) 1.180E-14 N
- d) 1.298E-14 N
- e) 1.427E-14 N
- a) 1.270E+01 μJ
- b) 1.397E+01 μJ
- c) 1.537E+01 μJ
- d) 1.690E+01 μJ
- e) 1.859E+01 μJ
- a) 1.013E+01 V
- b) 1.115E+01 V
- c) 1.226E+01 V
- d) 1.349E+01 V
- e) 1.484E+01 V
- a) 6.343E+01 degrees
- b) 6.978E+01 degrees
- c) 7.676E+01 degrees
- d) 8.443E+01 degrees
- e) 9.288E+01 degrees
8) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 3.4 nano-Coulombs. What is the magnitude of the electric field at a distance of 2.8 m from the center of the shells?
- a) 5.865E+00 N/C
- b) 6.451E+00 N/C
- c) 7.096E+00 N/C
- d) 7.806E+00 N/C
- e) 8.587E+00 N/C
9) A DC winch moter draws 18 amps at 126 volts as it lifts a 5.830E+03 N weight at a constant speed of 0.26 m/s. Assuming that all the electrical power is either converted into gravitational potential energy or ohmically heats the motor's coils, calculate the coil's resistance.
- a) 1.919E+00 Ω
- b) 2.111E+00 Ω
- c) 2.322E+00 Ω
- d) 2.554E+00 Ω
- e) 2.809E+00 Ω
10) When a 2.76 V battery operates a 2.71 W bulb, how many electrons pass through it each second?
- a) 5.571E+18 electrons
- b) 6.128E+18 electrons
- c) 6.741E+18 electrons
- d) 7.415E+18 electrons
- e) 8.157E+18 electrons
T1(5-10) Y0
editis an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.7 m. Evaluate at x=0.76 m if a=1.1 m, b=1.6 m. The total charge on the rod is 8 nC.
- a) 5.267E+00 V/m2
- b) 5.794E+00 V/m2
- c) 6.374E+00 V/m2
- d) 7.011E+00 V/m2
- e) 7.712E+00 V/m2
2)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 2.567E+01 V/m2
- b) 2.824E+01 V/m2
- c) 3.106E+01 V/m2
- d) 3.417E+01 V/m2
- e) 3.759E+01 V/m2
- a) 4.777E+01 N·m2/C
- b) 5.254E+01 N·m2/C
- c) 5.780E+01 N·m2/C
- d) 6.358E+01 N·m2/C
- e) 6.993E+01 N·m2/C
4) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 9.0 nano-Coulombs. What is the magnitude of the electric field at a distance of 5.5 m from the center of the shells?
- a) 9.144E+00 N/C
- b) 1.006E+01 N/C
- c) 1.106E+01 N/C
- d) 1.217E+01 N/C
- e) 1.339E+01 N/C
- a) 1.900E+01 μC
- b) 2.090E+01 μC
- c) 2.299E+01 μC
- d) 2.529E+01 μC
- e) 2.782E+01 μC
6) A 12.0 V battery can move 11,000 C of charge. How many Joules does it deliver?
- a) 9.016E+04 J
- b) 9.917E+04 J
- c) 1.091E+05 J
- d) 1.200E+05 J
- e) 1.320E+05 J
- a) 8.197E+01 μC
- b) 9.017E+01 μC
- c) 9.919E+01 μC
- d) 1.091E+02 μC
- e) 1.200E+02 μC
8) Calculate the drift speed of electrons in a copper wire with a diameter of 5.24 mm carrying a 1.8 A current, given that there is one free electron per copper atom. The density of copper is 8.80 x 103kg/m3 and the atomic mass of copper is 63.54 g/mol. Avagadro's number is 6.02 x 1023atoms/mol.
- a) 6.247E-06 m/s
- b) 6.872E-06 m/s
- c) 7.559E-06 m/s
- d) 8.315E-06 m/s
- e) 9.146E-06 m/s
- a) 1.309E+01 V
- b) 1.440E+01 V
- c) 1.584E+01 V
- d) 1.742E+01 V
- e) 1.917E+01 V
- a) 7.886E+00 V
- b) 8.675E+00 V
- c) 9.542E+00 V
- d) 1.050E+01 V
- e) 1.155E+01 V
T1(5-10) Y1
edit- a) 1.193E+01 μC
- b) 1.312E+01 μC
- c) 1.443E+01 μC
- d) 1.588E+01 μC
- e) 1.746E+01 μC
- a) 4.986E+00 V
- b) 5.484E+00 V
- c) 6.033E+00 V
- d) 6.636E+00 V
- e) 7.299E+00 V
- a) 2.515E+01 μC
- b) 2.766E+01 μC
- c) 3.043E+01 μC
- d) 3.347E+01 μC
- e) 3.682E+01 μC
4) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 7.8 nano-Coulombs. What is the magnitude of the electric field at a distance of 1.3 m from the center of the shells?
- a) 2.837E+01 N/C
- b) 3.121E+01 N/C
- c) 3.433E+01 N/C
- d) 3.776E+01 N/C
- e) 4.154E+01 N/C
5) Calculate the drift speed of electrons in a copper wire with a diameter of 3.33 mm carrying a 13.8 A current, given that there is one free electron per copper atom. The density of copper is 8.80 x 103kg/m3 and the atomic mass of copper is 63.54 g/mol. Avagadro's number is 6.02 x 1023atoms/mol.
- a) 8.910E-05 m/s
- b) 9.801E-05 m/s
- c) 1.078E-04 m/s
- d) 1.186E-04 m/s
- e) 1.305E-04 m/s
- a) 6.064E+00 V
- b) 6.670E+00 V
- c) 7.337E+00 V
- d) 8.071E+00 V
- e) 8.878E+00 V
7) A 12.0 V battery can move 12,000 C of charge. How many Joules does it deliver?
- a) 1.190E+05 J
- b) 1.309E+05 J
- c) 1.440E+05 J
- d) 1.584E+05 J
- e) 1.742E+05 J
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.9 m. Evaluate at x=0.54 m if a=1.0 m, b=2.0 m. The total charge on the rod is 3 nC.
- a) 1.665E+00 V/m2
- b) 1.831E+00 V/m2
- c) 2.014E+00 V/m2
- d) 2.216E+00 V/m2
- e) 2.437E+00 V/m2
9)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 3.722E-01 V/m2
- b) 4.094E-01 V/m2
- c) 4.504E-01 V/m2
- d) 4.954E-01 V/m2
- e) 5.450E-01 V/m2
- a) 2.134E+01 N·m2/C
- b) 2.347E+01 N·m2/C
- c) 2.582E+01 N·m2/C
- d) 2.840E+01 N·m2/C
- e) 3.124E+01 N·m2/C
T1(5-10) Y2
edit- a) 8.825E+00 V
- b) 9.708E+00 V
- c) 1.068E+01 V
- d) 1.175E+01 V
- e) 1.292E+01 V
2) Calculate the drift speed of electrons in a copper wire with a diameter of 2.72 mm carrying a 16.2 A current, given that there is one free electron per copper atom. The density of copper is 8.80 x 103kg/m3 and the atomic mass of copper is 63.54 g/mol. Avagadro's number is 6.02 x 1023atoms/mol.
- a) 2.087E-04 m/s
- b) 2.295E-04 m/s
- c) 2.525E-04 m/s
- d) 2.777E-04 m/s
- e) 3.055E-04 m/s
3) A 12.0 V battery can move 26,000 C of charge. How many Joules does it deliver?
- a) 2.836E+05 J
- b) 3.120E+05 J
- c) 3.432E+05 J
- d) 3.775E+05 J
- e) 4.153E+05 J
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.8 m. Evaluate at x=1.0 m if a=1.0 m, b=1.8 m. The total charge on the rod is 6 nC.
- a) 3.610E+00 V/m2
- b) 3.971E+00 V/m2
- c) 4.368E+00 V/m2
- d) 4.804E+00 V/m2
- e) 5.285E+00 V/m2
5) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 2.8 nano-Coulombs. What is the magnitude of the electric field at a distance of 4.8 m from the center of the shells?
- a) 2.988E+00 N/C
- b) 3.287E+00 N/C
- c) 3.616E+00 N/C
- d) 3.977E+00 N/C
- e) 4.375E+00 N/C
- a) 1.500E+01 μC
- b) 1.650E+01 μC
- c) 1.815E+01 μC
- d) 1.997E+01 μC
- e) 2.196E+01 μC
- a) 8.314E+01 N·m2/C
- b) 9.146E+01 N·m2/C
- c) 1.006E+02 N·m2/C
- d) 1.107E+02 N·m2/C
- e) 1.217E+02 N·m2/C
8)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- a) 4.961E-01 V/m2
- b) 5.457E-01 V/m2
- c) 6.002E-01 V/m2
- d) 6.603E-01 V/m2
- e) 7.263E-01 V/m2
- a) 6.720E+00 V
- b) 7.392E+00 V
- c) 8.131E+00 V
- d) 8.944E+00 V
- e) 9.838E+00 V
- a) 2.306E+01 μC
- b) 2.537E+01 μC
- c) 2.790E+01 μC
- d) 3.069E+01 μC
- e) 3.376E+01 μC
T1(5-10) Z0
edit- a) 1.308E-13 N
- b) 1.439E-13 N
- c) 1.583E-13 N
- d) 1.741E-13 N
- e) 1.915E-13 N
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.7 m. Evaluate at x=0.52 m if a=0.88 m, b=1.3 m. The total charge on the rod is 6 nC.
- a) 6.804E+00 V/m2
- b) 7.485E+00 V/m2
- c) 8.233E+00 V/m2
- d) 9.056E+00 V/m2
- e) 9.962E+00 V/m2
3) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 7.4 nano-Coulombs. What is the magnitude of the electric field at a distance of 5.4 m from the center of the shells?
- a) 8.580E+00 N/C
- b) 9.438E+00 N/C
- c) 1.038E+01 N/C
- d) 1.142E+01 N/C
- e) 1.256E+01 N/C
- a) 4.420E+01 N·m2/C
- b) 4.862E+01 N·m2/C
- c) 5.348E+01 N·m2/C
- d) 5.882E+01 N·m2/C
- e) 6.471E+01 N·m2/C
- a) 3.852E+02 V
- b) 4.238E+02 V
- c) 4.661E+02 V
- d) 5.127E+02 V
- e) 5.640E+02 V
6) Calculate the final speed of a free electron accelerated from rest through a potential difference of 19 V.
- a) 1.942E+06 m/s
- b) 2.137E+06 m/s
- c) 2.350E+06 m/s
- d) 2.585E+06 m/s
- e) 2.844E+06 m/s
7) An empty parallel-plate capacitor with metal plates has an area of 1.81 m2, separated by 1.26 mm. How much charge does it store if the voltage is 4.610E+03 V?
- a) 4.005E+01 μC
- b) 4.405E+01 μC
- c) 4.846E+01 μC
- d) 5.330E+01 μC
- e) 5.864E+01 μC
8) A device requires consumes 156 W of power and requires 5.42 A of current which is supplied by a single core 10-guage (2.588 mm diameter) wire. Find the magnitude of the average current density.
- a) 7.742E+05 A/m2
- b) 8.516E+05 A/m2
- c) 9.367E+05 A/m2
- d) 1.030E+06 A/m2
- e) 1.133E+06 A/m2
- a) 1.385E+01 s
- b) 1.524E+01 s
- c) 1.676E+01 s
- d) 1.844E+01 s
- e) 2.028E+01 s
- a) 1.446E+01 W
- b) 1.591E+01 W
- c) 1.750E+01 W
- d) 1.925E+01 W
- e) 2.117E+01 W
T1(5-10) Z1
edit1) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 1.9 nano-Coulombs. What is the magnitude of the electric field at a distance of 2.1 m from the center of the shells?
- a) 5.297E+00 N/C
- b) 5.827E+00 N/C
- c) 6.409E+00 N/C
- d) 7.050E+00 N/C
- e) 7.755E+00 N/C
2) An empty parallel-plate capacitor with metal plates has an area of 2.16 m2, separated by 1.12 mm. How much charge does it store if the voltage is 1.530E+03 V?
- a) 2.375E+01 μC
- b) 2.613E+01 μC
- c) 2.874E+01 μC
- d) 3.161E+01 μC
- e) 3.477E+01 μC
3) Calculate the final speed of a free electron accelerated from rest through a potential difference of 19 V.
- a) 1.942E+06 m/s
- b) 2.137E+06 m/s
- c) 2.350E+06 m/s
- d) 2.585E+06 m/s
- e) 2.844E+06 m/s
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.5 m. Evaluate at x=1.1 m if a=0.62 m, b=1.3 m. The total charge on the rod is 7 nC.
- a) 6.311E+00 V/m2
- b) 6.943E+00 V/m2
- c) 7.637E+00 V/m2
- d) 8.401E+00 V/m2
- e) 9.241E+00 V/m2
- a) 1.296E+01 s
- b) 1.425E+01 s
- c) 1.568E+01 s
- d) 1.725E+01 s
- e) 1.897E+01 s
- a) 7.017E+02 V
- b) 7.718E+02 V
- c) 8.490E+02 V
- d) 9.339E+02 V
- e) 1.027E+03 V
- a) 2.186E+01 N·m2/C
- b) 2.404E+01 N·m2/C
- c) 2.645E+01 N·m2/C
- d) 2.909E+01 N·m2/C
- e) 3.200E+01 N·m2/C
8) A device requires consumes 78 W of power and requires 11.3 A of current which is supplied by a single core 10-guage (2.588 mm diameter) wire. Find the magnitude of the average current density.
- a) 1.953E+06 A/m2
- b) 2.148E+06 A/m2
- c) 2.363E+06 A/m2
- d) 2.599E+06 A/m2
- e) 2.859E+06 A/m2
- a) 1.446E+01 W
- b) 1.591E+01 W
- c) 1.750E+01 W
- d) 1.925E+01 W
- e) 2.117E+01 W
- a) 8.613E-15 N
- b) 9.474E-15 N
- c) 1.042E-14 N
- d) 1.146E-14 N
- e) 1.261E-14 N
T1(5-10) Z2
edit1) A device requires consumes 72 W of power and requires 11.7 A of current which is supplied by a single core 10-guage (2.588 mm diameter) wire. Find the magnitude of the average current density.
- a) 1.519E+06 A/m2
- b) 1.671E+06 A/m2
- c) 1.838E+06 A/m2
- d) 2.022E+06 A/m2
- e) 2.224E+06 A/m2
- a) 8.457E+01 N·m2/C
- b) 9.303E+01 N·m2/C
- c) 1.023E+02 N·m2/C
- d) 1.126E+02 N·m2/C
- e) 1.238E+02 N·m2/C
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.5 m. Evaluate at x=1.1 m if a=0.61 m, b=1.7 m. The total charge on the rod is 8 nC.
- a) 5.995E+00 V/m2
- b) 6.595E+00 V/m2
- c) 7.254E+00 V/m2
- d) 7.980E+00 V/m2
- e) 8.778E+00 V/m2
- a) 5.796E+02 V
- b) 6.375E+02 V
- c) 7.013E+02 V
- d) 7.714E+02 V
- e) 8.486E+02 V
5) An empty parallel-plate capacitor with metal plates has an area of 1.94 m2, separated by 1.27 mm. How much charge does it store if the voltage is 8.780E+03 V?
- a) 1.080E+02 μC
- b) 1.188E+02 μC
- c) 1.306E+02 μC
- d) 1.437E+02 μC
- e) 1.581E+02 μC
- a) 8.259E-15 N
- b) 9.085E-15 N
- c) 9.993E-15 N
- d) 1.099E-14 N
- e) 1.209E-14 N
7) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 7.4 nano-Coulombs. What is the magnitude of the electric field at a distance of 5.4 m from the center of the shells?
- a) 8.580E+00 N/C
- b) 9.438E+00 N/C
- c) 1.038E+01 N/C
- d) 1.142E+01 N/C
- e) 1.256E+01 N/C
- a) 5.401E+00 s
- b) 5.941E+00 s
- c) 6.535E+00 s
- d) 7.189E+00 s
- e) 7.908E+00 s
- a) 7.123E+00 W
- b) 7.835E+00 W
- c) 8.618E+00 W
- d) 9.480E+00 W
- e) 1.043E+01 W
10) Calculate the final speed of a free electron accelerated from rest through a potential difference of 83 V.
- a) 4.466E+06 m/s
- b) 4.912E+06 m/s
- c) 5.403E+06 m/s
- d) 5.944E+06 m/s
- e) 6.538E+06 m/s
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- of 10 blank lines to separate exams from keys
- of 10 blank lines to separate exams from keys
- of 10 blank lines to separate exams from keys
- of 10 blank lines to separate exams from keys
- of 10 blank lines to separate exams from keys
- of 10 blank lines to separate exams from keys
- of 10 blank lines to separate exams from keys
- of 10 blank lines to separate exams from keys
- of 10 blank lines to separate exams from keys
- of 10 blank lines to separate exams from keys
Key: A0
edit- -a) 5.581E+09 N/C2
- -b) 6.139E+09 N/C2
- +c) 6.753E+09 N/C2
- -d) 7.428E+09 N/C2
- -e) 8.171E+09 N/C2
- -a) 4.357E+01 degrees
- -b) 4.793E+01 degrees
- -c) 5.272E+01 degrees
- +d) 5.799E+01 degrees
- -e) 6.379E+01 degrees
3) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=8, y=0), (x=0, y=8), and (x=8, y=8), where x and y are measured in meters. The electric field is,
- -a) 9.027E+03 V·m
- +b) 9.930E+03 V·m
- -c) 1.092E+04 V·m
- -d) 1.202E+04 V·m
- -e) 1.322E+04 V·m
4) A non-conducting sphere of radius R=3.5 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.2 (r≤R) where a=2 nC·m-1.8. What is the magnitude of the electric field at a distance of 2.3 m from the center?
- -a) 2.777E+02 N/C
- -b) 3.055E+02 N/C
- +c) 3.361E+02 N/C
- -d) 3.697E+02 N/C
- -e) 4.066E+02 N/C
5) When a 3.8 V battery operates a 1.67 W bulb, how many electrons pass through it each second?
- -a) 1.873E+18 electrons
- -b) 2.061E+18 electrons
- -c) 2.267E+18 electrons
- -d) 2.494E+18 electrons
- +e) 2.743E+18 electrons
- +a) 5.998E+01 J
- -b) 6.598E+01 J
- -c) 7.257E+01 J
- -d) 7.983E+01 J
- -e) 8.781E+01 J
7) An empty parallel-plate capacitor with metal plates has an area of 2.42 m2, separated by 1.33 mm. How much charge does it store if the voltage is 1.130E+03 V?
- -a) 1.368E+01 μC
- -b) 1.505E+01 μC
- -c) 1.655E+01 μC
- +d) 1.820E+01 μC
- -e) 2.003E+01 μC
8) Imagine a substance could be made into a very hot filament. Suppose the resitance is 2.94 Ω at a temperature of 30°C and that the temperature coefficient of expansion is 5.900E-03 (°C)−1). What is the resistance at a temperature of 445 °C?
- +a) 1.014E+01 Ω
- -b) 1.065E+01 Ω
- -c) 1.118E+01 Ω
- -d) 1.174E+01 Ω
- -e) 1.232E+01 Ω
- +a) 9.240E+00 s
- -b) 1.016E+01 s
- -c) 1.118E+01 s
- -d) 1.230E+01 s
- -e) 1.353E+01 s
- -a) 3.055E+00 mA
- +b) 3.360E+00 mA
- -c) 3.696E+00 mA
- -d) 4.066E+00 mA
- -e) 4.472E+00 mA
Click these links for the keys:
Key: A1
edit- -a) 5.178E+01 J
- +b) 5.696E+01 J
- -c) 6.266E+01 J
- -d) 6.892E+01 J
- -e) 7.582E+01 J
- -a) 3.661E+00 mA
- -b) 4.027E+00 mA
- +c) 4.430E+00 mA
- -d) 4.873E+00 mA
- -e) 5.360E+00 mA
- -a) 4.743E+01 degrees
- -b) 5.217E+01 degrees
- -c) 5.739E+01 degrees
- -d) 6.313E+01 degrees
- +e) 6.944E+01 degrees
4) An empty parallel-plate capacitor with metal plates has an area of 2.51 m2, separated by 1.44 mm. How much charge does it store if the voltage is 2.230E+03 V?
- -a) 2.351E+01 μC
- -b) 2.586E+01 μC
- -c) 2.844E+01 μC
- -d) 3.129E+01 μC
- +e) 3.442E+01 μC
- -a) 1.296E+01 s
- -b) 1.425E+01 s
- +c) 1.568E+01 s
- -d) 1.725E+01 s
- -e) 1.897E+01 s
6) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=6, y=0), (x=0, y=3), and (x=6, y=3), where x and y are measured in meters. The electric field is,
- -a) 1.969E+02 V·m
- -b) 2.166E+02 V·m
- -c) 2.383E+02 V·m
- -d) 2.621E+02 V·m
- +e) 2.883E+02 V·m
7) When a 7.78 V battery operates a 1.35 W bulb, how many electrons pass through it each second?
- -a) 7.397E+17 electrons
- -b) 8.137E+17 electrons
- -c) 8.951E+17 electrons
- -d) 9.846E+17 electrons
- +e) 1.083E+18 electrons
8) Imagine a substance could be made into a very hot filament. Suppose the resitance is 2.89 Ω at a temperature of 89°C and that the temperature coefficient of expansion is 5.340E-03 (°C)−1). What is the resistance at a temperature of 566 °C?
- -a) 9.763E+00 Ω
- +b) 1.025E+01 Ω
- -c) 1.076E+01 Ω
- -d) 1.130E+01 Ω
- -e) 1.187E+01 Ω
- -a) 1.764E+09 N/C2
- -b) 1.941E+09 N/C2
- +c) 2.135E+09 N/C2
- -d) 2.348E+09 N/C2
- -e) 2.583E+09 N/C2
10) A non-conducting sphere of radius R=1.4 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.6 (r≤R) where a=3 nC·m-1.4. What is the magnitude of the electric field at a distance of 1.3 m from the center?
- +a) 1.457E+02 N/C
- -b) 1.603E+02 N/C
- -c) 1.763E+02 N/C
- -d) 1.939E+02 N/C
- -e) 2.133E+02 N/C
Click these links for the keys:
Key: A2
edit- -a) 3.728E+00 s
- -b) 4.101E+00 s
- -c) 4.511E+00 s
- +d) 4.962E+00 s
- -e) 5.458E+00 s
- -a) 7.982E+01 J
- +b) 8.780E+01 J
- -c) 9.658E+01 J
- -d) 1.062E+02 J
- -e) 1.169E+02 J
3) Imagine a substance could be made into a very hot filament. Suppose the resitance is 2.61 Ω at a temperature of 92°C and that the temperature coefficient of expansion is 4.260E-03 (°C)−1). What is the resistance at a temperature of 422 °C?
- +a) 6.279E+00 Ω
- -b) 6.593E+00 Ω
- -c) 6.923E+00 Ω
- -d) 7.269E+00 Ω
- -e) 7.632E+00 Ω
- -a) 5.243E+01 degrees
- -b) 5.767E+01 degrees
- +c) 6.343E+01 degrees
- -d) 6.978E+01 degrees
- -e) 7.676E+01 degrees
5) When a 4.63 V battery operates a 2.26 W bulb, how many electrons pass through it each second?
- -a) 2.770E+18 electrons
- +b) 3.047E+18 electrons
- -c) 3.351E+18 electrons
- -d) 3.686E+18 electrons
- -e) 4.055E+18 electrons
6) An empty parallel-plate capacitor with metal plates has an area of 1.81 m2, separated by 1.26 mm. How much charge does it store if the voltage is 4.610E+03 V?
- -a) 4.005E+01 μC
- -b) 4.405E+01 μC
- -c) 4.846E+01 μC
- -d) 5.330E+01 μC
- +e) 5.864E+01 μC
- -a) 7.119E+09 N/C2
- -b) 7.831E+09 N/C2
- +c) 8.614E+09 N/C2
- -d) 9.476E+09 N/C2
- -e) 1.042E+10 N/C2
- -a) 1.725E+00 mA
- -b) 1.898E+00 mA
- -c) 2.087E+00 mA
- +d) 2.296E+00 mA
- -e) 2.526E+00 mA
9) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=6, y=0), (x=0, y=5), and (x=6, y=5), where x and y are measured in meters. The electric field is,
- -a) 2.067E+03 V·m
- -b) 2.274E+03 V·m
- +c) 2.501E+03 V·m
- -d) 2.752E+03 V·m
- -e) 3.027E+03 V·m
10) A non-conducting sphere of radius R=2.9 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=2 nC·m-1.5. What is the magnitude of the electric field at a distance of 1.5 m from the center?
- +a) 1.383E+02 N/C
- -b) 1.522E+02 N/C
- -c) 1.674E+02 N/C
- -d) 1.841E+02 N/C
- -e) 2.025E+02 N/C
Click these links for the keys:
Key: B0
edit1)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- +a) 5.647E+00 V/m2
- -b) 6.212E+00 V/m2
- -c) 6.833E+00 V/m2
- -d) 7.517E+00 V/m2
- -e) 8.268E+00 V/m2
- -a) 1.764E+09 N/C2
- -b) 1.941E+09 N/C2
- +c) 2.135E+09 N/C2
- -d) 2.348E+09 N/C2
- -e) 2.583E+09 N/C2
- -a) 3.662E+01 N·m2/C
- +b) 4.028E+01 N·m2/C
- -c) 4.430E+01 N·m2/C
- -d) 4.873E+01 N·m2/C
- -e) 5.361E+01 N·m2/C
- +a) 7.876E+01 N·m2/C
- -b) 8.664E+01 N·m2/C
- -c) 9.531E+01 N·m2/C
- -d) 1.048E+02 N·m2/C
- -e) 1.153E+02 N·m2/C
5) Two large parallel conducting plates are separated by 9.71 mm. Equal and opposite surface charges of 7.550E-07 C/m2 exist on the surfaces between the plates. What is the distance between equipotential planes which differ by 73 V?
- -a) 7.444E-01 mm
- +b) 8.561E-01 mm
- -c) 9.845E-01 mm
- -d) 1.132E+00 mm
- -e) 1.302E+00 mm
6) Calculate the final speed of a free electron accelerated from rest through a potential difference of 12 V.
- -a) 1.698E+06 m/s
- -b) 1.868E+06 m/s
- +c) 2.055E+06 m/s
- -d) 2.260E+06 m/s
- -e) 2.486E+06 m/s
7) An empty parallel-plate capacitor with metal plates has an area of 2.51 m2, separated by 1.44 mm. How much charge does it store if the voltage is 2.230E+03 V?
- -a) 2.351E+01 μC
- -b) 2.586E+01 μC
- -c) 2.844E+01 μC
- -d) 3.129E+01 μC
- +e) 3.442E+01 μC
8) A device requires consumes 88 W of power and requires 11.3 A of current which is supplied by a single core 10-guage (2.588 mm diameter) wire. Find the magnitude of the average current density.
- -a) 1.467E+06 A/m2
- -b) 1.614E+06 A/m2
- -c) 1.775E+06 A/m2
- -d) 1.953E+06 A/m2
- +e) 2.148E+06 A/m2
- +a) 1.299E+00 mA
- -b) 1.429E+00 mA
- -c) 1.572E+00 mA
- -d) 1.729E+00 mA
- -e) 1.902E+00 mA
10) A given battery has a 15 V emf and an internal resistance of 0.177 Ω. If it is connected to a 0.824 Ω resistor what is the power dissipated by that load?
- -a) 1.682E+02 W
- +b) 1.850E+02 W
- -c) 2.035E+02 W
- -d) 2.239E+02 W
- -e) 2.463E+02 W
Click these links for the keys:
Key: B1
edit1) An empty parallel-plate capacitor with metal plates has an area of 2.42 m2, separated by 1.33 mm. How much charge does it store if the voltage is 1.130E+03 V?
- -a) 1.368E+01 μC
- -b) 1.505E+01 μC
- -c) 1.655E+01 μC
- +d) 1.820E+01 μC
- -e) 2.003E+01 μC
- -a) 3.959E+01 N·m2/C
- -b) 4.354E+01 N·m2/C
- -c) 4.790E+01 N·m2/C
- +d) 5.269E+01 N·m2/C
- -e) 5.796E+01 N·m2/C
3)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- -a) 8.933E+00 V/m2
- -b) 9.826E+00 V/m2
- +c) 1.081E+01 V/m2
- -d) 1.189E+01 V/m2
- -e) 1.308E+01 V/m2
4) Two large parallel conducting plates are separated by 6.95 mm. Equal and opposite surface charges of 7.360E-07 C/m2 exist on the surfaces between the plates. What is the distance between equipotential planes which differ by 83 V?
- -a) 6.565E-01 mm
- -b) 7.550E-01 mm
- -c) 8.683E-01 mm
- +d) 9.985E-01 mm
- -e) 1.148E+00 mm
- +a) 3.159E+09 N/C2
- -b) 3.475E+09 N/C2
- -c) 3.823E+09 N/C2
- -d) 4.205E+09 N/C2
- -e) 4.626E+09 N/C2
6) A given battery has a 13 V emf and an internal resistance of 0.159 Ω. If it is connected to a 0.617 Ω resistor what is the power dissipated by that load?
- -a) 1.301E+02 W
- -b) 1.431E+02 W
- -c) 1.574E+02 W
- +d) 1.732E+02 W
- -e) 1.905E+02 W
- +a) 1.085E+00 mA
- -b) 1.194E+00 mA
- -c) 1.313E+00 mA
- -d) 1.444E+00 mA
- -e) 1.589E+00 mA
- -a) 5.606E+01 N·m2/C
- -b) 6.167E+01 N·m2/C
- -c) 6.784E+01 N·m2/C
- +d) 7.462E+01 N·m2/C
- -e) 8.208E+01 N·m2/C
9) A device requires consumes 168 W of power and requires 11.0 A of current which is supplied by a single core 10-guage (2.588 mm diameter) wire. Find the magnitude of the average current density.
- -a) 1.901E+06 A/m2
- +b) 2.091E+06 A/m2
- -c) 2.300E+06 A/m2
- -d) 2.530E+06 A/m2
- -e) 2.783E+06 A/m2
10) Calculate the final speed of a free electron accelerated from rest through a potential difference of 46 V.
- -a) 3.022E+06 m/s
- -b) 3.324E+06 m/s
- -c) 3.657E+06 m/s
- +d) 4.023E+06 m/s
- -e) 4.425E+06 m/s
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Key: B2
edit- -a) 1.332E+00 mA
- -b) 1.465E+00 mA
- -c) 1.612E+00 mA
- -d) 1.773E+00 mA
- +e) 1.950E+00 mA
2) A device requires consumes 73 W of power and requires 9.14 A of current which is supplied by a single core 10-guage (2.588 mm diameter) wire. Find the magnitude of the average current density.
- -a) 1.187E+06 A/m2
- -b) 1.306E+06 A/m2
- -c) 1.436E+06 A/m2
- -d) 1.580E+06 A/m2
- +e) 1.738E+06 A/m2
3)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- +a) 5.647E+00 V/m2
- -b) 6.212E+00 V/m2
- -c) 6.833E+00 V/m2
- -d) 7.517E+00 V/m2
- -e) 8.268E+00 V/m2
4) An empty parallel-plate capacitor with metal plates has an area of 2.1 m2, separated by 1.13 mm. How much charge does it store if the voltage is 1.680E+03 V?
- +a) 2.764E+01 μC
- -b) 3.041E+01 μC
- -c) 3.345E+01 μC
- -d) 3.679E+01 μC
- -e) 4.047E+01 μC
- +a) 4.788E+09 N/C2
- -b) 5.267E+09 N/C2
- -c) 5.793E+09 N/C2
- -d) 6.373E+09 N/C2
- -e) 7.010E+09 N/C2
- -a) 6.270E+01 N·m2/C
- -b) 6.897E+01 N·m2/C
- -c) 7.586E+01 N·m2/C
- -d) 8.345E+01 N·m2/C
- +e) 9.179E+01 N·m2/C
- -a) 3.924E+01 N·m2/C
- -b) 4.316E+01 N·m2/C
- -c) 4.748E+01 N·m2/C
- +d) 5.222E+01 N·m2/C
- -e) 5.745E+01 N·m2/C
8) Two large parallel conducting plates are separated by 6.95 mm. Equal and opposite surface charges of 7.360E-07 C/m2 exist on the surfaces between the plates. What is the distance between equipotential planes which differ by 83 V?
- -a) 6.565E-01 mm
- -b) 7.550E-01 mm
- -c) 8.683E-01 mm
- +d) 9.985E-01 mm
- -e) 1.148E+00 mm
9) Calculate the final speed of a free electron accelerated from rest through a potential difference of 83 V.
- -a) 4.466E+06 m/s
- -b) 4.912E+06 m/s
- +c) 5.403E+06 m/s
- -d) 5.944E+06 m/s
- -e) 6.538E+06 m/s
10) A given battery has a 13 V emf and an internal resistance of 0.159 Ω. If it is connected to a 0.617 Ω resistor what is the power dissipated by that load?
- -a) 1.301E+02 W
- -b) 1.431E+02 W
- -c) 1.574E+02 W
- +d) 1.732E+02 W
- -e) 1.905E+02 W
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Key: C0
edit1)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- +a) 1.022E+00 V/m2
- -b) 1.125E+00 V/m2
- -c) 1.237E+00 V/m2
- -d) 1.361E+00 V/m2
- -e) 1.497E+00 V/m2
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.6 m. Evaluate at x=0.73 m if a=0.64 m, b=1.8 m. The total charge on the rod is 3 nC.
- -a) 2.955E+00 V/m2
- +b) 3.250E+00 V/m2
- -c) 3.575E+00 V/m2
- -d) 3.933E+00 V/m2
- -e) 4.326E+00 V/m2
3) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=7, y=0), (x=0, y=4), and (x=7, y=4), where x and y are measured in meters. The electric field is,
- -a) 2.610E+03 V·m
- -b) 2.871E+03 V·m
- +c) 3.158E+03 V·m
- -d) 3.474E+03 V·m
- -e) 3.822E+03 V·m
4) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 1.9 nano-Coulombs. What is the magnitude of the electric field at a distance of 2.1 m from the center of the shells?
- -a) 5.297E+00 N/C
- -b) 5.827E+00 N/C
- -c) 6.409E+00 N/C
- -d) 7.050E+00 N/C
- +e) 7.755E+00 N/C
- -a) 3.819E+01 J
- -b) 4.201E+01 J
- +c) 4.621E+01 J
- -d) 5.083E+01 J
- -e) 5.591E+01 J
6) If a 14 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=83 V is x2 + y2 + z2 = R2, where R=
- -a) 1.378E+00 m
- +b) 1.516E+00 m
- -c) 1.668E+00 m
- -d) 1.834E+00 m
- -e) 2.018E+00 m
- -a) 2.515E+01 μC
- -b) 2.766E+01 μC
- -c) 3.043E+01 μC
- +d) 3.347E+01 μC
- -e) 3.682E+01 μC
8) Imagine a substance could be made into a very hot filament. Suppose the resitance is 3.75 Ω at a temperature of 24°C and that the temperature coefficient of expansion is 4.300E-03 (°C)−1). What is the resistance at a temperature of 423 °C?
- +a) 1.018E+01 Ω
- -b) 1.069E+01 Ω
- -c) 1.123E+01 Ω
- -d) 1.179E+01 Ω
- -e) 1.238E+01 Ω
- -a) 1.332E+00 mA
- -b) 1.465E+00 mA
- -c) 1.612E+00 mA
- -d) 1.773E+00 mA
- +e) 1.950E+00 mA
- -a) 1.770E-01 A
- -b) 1.947E-01 A
- +c) 2.141E-01 A
- -d) 2.355E-01 A
- -e) 2.591E-01 A
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Key: C1
edit1) Imagine a substance could be made into a very hot filament. Suppose the resitance is 5.73 Ω at a temperature of 99°C and that the temperature coefficient of expansion is 5.260E-03 (°C)−1). What is the resistance at a temperature of 420 °C?
- -a) 1.267E+01 Ω
- -b) 1.331E+01 Ω
- -c) 1.397E+01 Ω
- -d) 1.467E+01 Ω
- +e) 1.540E+01 Ω
- +a) 5.998E+01 J
- -b) 6.598E+01 J
- -c) 7.257E+01 J
- -d) 7.983E+01 J
- -e) 8.781E+01 J
3) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=7, y=0), (x=0, y=6), and (x=7, y=6), where x and y are measured in meters. The electric field is,
- +a) 3.337E+03 V·m
- -b) 3.670E+03 V·m
- -c) 4.037E+03 V·m
- -d) 4.441E+03 V·m
- -e) 4.885E+03 V·m
- -a) 1.213E-01 A
- -b) 1.334E-01 A
- -c) 1.468E-01 A
- +d) 1.614E-01 A
- -e) 1.776E-01 A
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.9 m. Evaluate at x=0.83 m if a=0.7 m, b=1.8 m. The total charge on the rod is 9 nC.
- +a) 6.897E+00 V/m2
- -b) 7.587E+00 V/m2
- -c) 8.345E+00 V/m2
- -d) 9.180E+00 V/m2
- -e) 1.010E+01 V/m2
6)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- -a) 3.228E+00 V/m2
- -b) 3.551E+00 V/m2
- -c) 3.906E+00 V/m2
- -d) 4.297E+00 V/m2
- +e) 4.727E+00 V/m2
- -a) 1.725E+00 mA
- -b) 1.898E+00 mA
- -c) 2.087E+00 mA
- +d) 2.296E+00 mA
- -e) 2.526E+00 mA
- -a) 2.385E+01 μC
- -b) 2.623E+01 μC
- -c) 2.886E+01 μC
- -d) 3.174E+01 μC
- +e) 3.492E+01 μC
9) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 2.8 nano-Coulombs. What is the magnitude of the electric field at a distance of 4.8 m from the center of the shells?
- -a) 2.988E+00 N/C
- -b) 3.287E+00 N/C
- -c) 3.616E+00 N/C
- -d) 3.977E+00 N/C
- +e) 4.375E+00 N/C
10) If a 18 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=12 V is x2 + y2 + z2 = R2, where R=
- -a) 1.114E+01 m
- -b) 1.226E+01 m
- +c) 1.348E+01 m
- -d) 1.483E+01 m
- -e) 1.631E+01 m
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Key: C2
edit1) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 3.4 nano-Coulombs. What is the magnitude of the electric field at a distance of 2.8 m from the center of the shells?
- -a) 5.865E+00 N/C
- -b) 6.451E+00 N/C
- -c) 7.096E+00 N/C
- +d) 7.806E+00 N/C
- -e) 8.587E+00 N/C
2) If a 18 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=12 V is x2 + y2 + z2 = R2, where R=
- -a) 1.114E+01 m
- -b) 1.226E+01 m
- +c) 1.348E+01 m
- -d) 1.483E+01 m
- -e) 1.631E+01 m
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.7 m. Evaluate at x=0.52 m if a=0.88 m, b=1.3 m. The total charge on the rod is 6 nC.
- -a) 6.804E+00 V/m2
- +b) 7.485E+00 V/m2
- -c) 8.233E+00 V/m2
- -d) 9.056E+00 V/m2
- -e) 9.962E+00 V/m2
- +a) 1.299E+00 mA
- -b) 1.429E+00 mA
- -c) 1.572E+00 mA
- -d) 1.729E+00 mA
- -e) 1.902E+00 mA
- -a) 1.886E-01 A
- +b) 2.075E-01 A
- -c) 2.282E-01 A
- -d) 2.510E-01 A
- -e) 2.761E-01 A
6)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- -a) 4.295E+00 V/m2
- +b) 4.724E+00 V/m2
- -c) 5.196E+00 V/m2
- -d) 5.716E+00 V/m2
- -e) 6.288E+00 V/m2
- -a) 5.178E+01 J
- +b) 5.696E+01 J
- -c) 6.266E+01 J
- -d) 6.892E+01 J
- -e) 7.582E+01 J
8) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=6, y=0), (x=0, y=5), and (x=6, y=5), where x and y are measured in meters. The electric field is,
- -a) 2.067E+03 V·m
- -b) 2.274E+03 V·m
- +c) 2.501E+03 V·m
- -d) 2.752E+03 V·m
- -e) 3.027E+03 V·m
- -a) 2.451E+01 μC
- -b) 2.696E+01 μC
- -c) 2.966E+01 μC
- -d) 3.262E+01 μC
- +e) 3.589E+01 μC
10) Imagine a substance could be made into a very hot filament. Suppose the resitance is 2.89 Ω at a temperature of 89°C and that the temperature coefficient of expansion is 5.340E-03 (°C)−1). What is the resistance at a temperature of 566 °C?
- -a) 9.763E+00 Ω
- +b) 1.025E+01 Ω
- -c) 1.076E+01 Ω
- -d) 1.130E+01 Ω
- -e) 1.187E+01 Ω
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Key: D0
editis an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.4 m. Evaluate at x=1.1 m if a=0.69 m, b=2.2 m. The total charge on the rod is 6 nC.
- -a) 3.161E+00 V/m2
- -b) 3.477E+00 V/m2
- -c) 3.825E+00 V/m2
- -d) 4.208E+00 V/m2
- +e) 4.628E+00 V/m2
- -a) 2.013E+09 N/C2
- -b) 2.214E+09 N/C2
- -c) 2.435E+09 N/C2
- -d) 2.679E+09 N/C2
- +e) 2.947E+09 N/C2
- +a) 6.192E+01 N·m2/C
- -b) 6.811E+01 N·m2/C
- -c) 7.492E+01 N·m2/C
- -d) 8.242E+01 N·m2/C
- -e) 9.066E+01 N·m2/C
4) A non-conducting sphere of radius R=1.4 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.6 (r≤R) where a=3 nC·m-1.4. What is the magnitude of the electric field at a distance of 1.3 m from the center?
- +a) 1.457E+02 N/C
- -b) 1.603E+02 N/C
- -c) 1.763E+02 N/C
- -d) 1.939E+02 N/C
- -e) 2.133E+02 N/C
5) If a 14 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=83 V is x2 + y2 + z2 = R2, where R=
- -a) 1.378E+00 m
- +b) 1.516E+00 m
- -c) 1.668E+00 m
- -d) 1.834E+00 m
- -e) 2.018E+00 m
6) A 12.0 V battery can move 12,000 C of charge. How many Joules does it deliver?
- -a) 1.190E+05 J
- -b) 1.309E+05 J
- +c) 1.440E+05 J
- -d) 1.584E+05 J
- -e) 1.742E+05 J
7) An empty parallel-plate capacitor with metal plates has an area of 2.42 m2, separated by 1.33 mm. How much charge does it store if the voltage is 1.130E+03 V?
- -a) 1.368E+01 μC
- -b) 1.505E+01 μC
- -c) 1.655E+01 μC
- +d) 1.820E+01 μC
- -e) 2.003E+01 μC
8) What is consumer cost to operate one 115−W incandescent bulb for 12 hours per day for 1 year (365 days) if the cost of electricity is $0.128 per kilowatt-hour?
- -a) $5.328E+01
- -b) $5.861E+01
- +c) $6.447E+01
- -d) $7.092E+01
- -e) $7.801E+01
- -a) 2.089E-01 A
- -b) 2.298E-01 A
- +c) 2.528E-01 A
- -d) 2.781E-01 A
- -e) 3.059E-01 A
10) A given battery has a 11 V emf and an internal resistance of 0.0998 Ω. If it is connected to a 0.417 Ω resistor what is the power dissipated by that load?
- -a) 1.419E+02 W
- -b) 1.561E+02 W
- -c) 1.717E+02 W
- +d) 1.889E+02 W
- -e) 2.078E+02 W
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Key: D1
edit1) An empty parallel-plate capacitor with metal plates has an area of 2.82 m2, separated by 1.29 mm. How much charge does it store if the voltage is 7.420E+03 V?
- -a) 1.187E+02 μC
- -b) 1.306E+02 μC
- +c) 1.436E+02 μC
- -d) 1.580E+02 μC
- -e) 1.738E+02 μC
2) A 12.0 V battery can move 19,000 C of charge. How many Joules does it deliver?
- -a) 1.713E+05 J
- -b) 1.884E+05 J
- -c) 2.073E+05 J
- +d) 2.280E+05 J
- -e) 2.508E+05 J
3) If a 11 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=43 V is x2 + y2 + z2 = R2, where R=
- +a) 2.299E+00 m
- -b) 2.529E+00 m
- -c) 2.782E+00 m
- -d) 3.060E+00 m
- -e) 3.366E+00 m
- -a) 7.119E+09 N/C2
- -b) 7.831E+09 N/C2
- +c) 8.614E+09 N/C2
- -d) 9.476E+09 N/C2
- -e) 1.042E+10 N/C2
5) A given battery has a 9 V emf and an internal resistance of 0.16 Ω. If it is connected to a 0.45 Ω resistor what is the power dissipated by that load?
- -a) 6.691E+01 W
- -b) 7.360E+01 W
- -c) 8.096E+01 W
- -d) 8.905E+01 W
- +e) 9.796E+01 W
6) A non-conducting sphere of radius R=3.9 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.4 (r≤R) where a=2 nC·m-1.6. What is the magnitude of the electric field at a distance of 2.6 m from the center?
- -a) 3.821E+02 N/C
- -b) 4.203E+02 N/C
- -c) 4.624E+02 N/C
- +d) 5.086E+02 N/C
- -e) 5.594E+02 N/C
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.6 m. Evaluate at x=0.73 m if a=0.64 m, b=1.8 m. The total charge on the rod is 3 nC.
- -a) 2.955E+00 V/m2
- +b) 3.250E+00 V/m2
- -c) 3.575E+00 V/m2
- -d) 3.933E+00 V/m2
- -e) 4.326E+00 V/m2
- -a) 7.081E+01 N·m2/C
- -b) 7.789E+01 N·m2/C
- +c) 8.568E+01 N·m2/C
- -d) 9.425E+01 N·m2/C
- -e) 1.037E+02 N·m2/C
9) What is consumer cost to operate one 74−W incandescent bulb for 9 hours per day for 1 year (365 days) if the cost of electricity is $0.119 per kilowatt-hour?
- -a) $1.976E+01
- -b) $2.173E+01
- -c) $2.391E+01
- -d) $2.630E+01
- +e) $2.893E+01
- -a) 1.203E-01 A
- -b) 1.324E-01 A
- +c) 1.456E-01 A
- -d) 1.602E-01 A
- -e) 1.762E-01 A
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Key: D2
edit1) An empty parallel-plate capacitor with metal plates has an area of 2.21 m2, separated by 1.25 mm. How much charge does it store if the voltage is 1.580E+03 V?
- -a) 2.249E+01 μC
- +b) 2.473E+01 μC
- -c) 2.721E+01 μC
- -d) 2.993E+01 μC
- -e) 3.292E+01 μC
- +a) 4.788E+09 N/C2
- -b) 5.267E+09 N/C2
- -c) 5.793E+09 N/C2
- -d) 6.373E+09 N/C2
- -e) 7.010E+09 N/C2
- -a) 1.552E-01 A
- -b) 1.707E-01 A
- -c) 1.878E-01 A
- -d) 2.065E-01 A
- +e) 2.272E-01 A
4) A given battery has a 9 V emf and an internal resistance of 0.141 Ω. If it is connected to a 0.663 Ω resistor what is the power dissipated by that load?
- -a) 5.674E+01 W
- -b) 6.242E+01 W
- -c) 6.866E+01 W
- -d) 7.553E+01 W
- +e) 8.308E+01 W
- -a) 1.740E+01 N·m2/C
- -b) 1.914E+01 N·m2/C
- -c) 2.106E+01 N·m2/C
- -d) 2.316E+01 N·m2/C
- +e) 2.548E+01 N·m2/C
6) A 12.0 V battery can move 44,000 C of charge. How many Joules does it deliver?
- -a) 4.800E+05 J
- +b) 5.280E+05 J
- -c) 5.808E+05 J
- -d) 6.389E+05 J
- -e) 7.028E+05 J
7) If a 13 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=84 V is x2 + y2 + z2 = R2, where R=
- +a) 1.391E+00 m
- -b) 1.530E+00 m
- -c) 1.683E+00 m
- -d) 1.851E+00 m
- -e) 2.036E+00 m
8) What is consumer cost to operate one 87−W incandescent bulb for 11 hours per day for 1 year (365 days) if the cost of electricity is $0.117 per kilowatt-hour?
- -a) $2.791E+01
- -b) $3.071E+01
- -c) $3.378E+01
- -d) $3.715E+01
- +e) $4.087E+01
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.5 m. Evaluate at x=1.0 m if a=1.1 m, b=1.4 m. The total charge on the rod is 5 nC.
- +a) 4.602E+00 V/m2
- -b) 5.062E+00 V/m2
- -c) 5.568E+00 V/m2
- -d) 6.125E+00 V/m2
- -e) 6.738E+00 V/m2
10) A non-conducting sphere of radius R=1.5 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=2 nC·m-1.5. What is the magnitude of the electric field at a distance of 0.73 m from the center?
- +a) 2.285E+01 N/C
- -b) 2.514E+01 N/C
- -c) 2.765E+01 N/C
- -d) 3.042E+01 N/C
- -e) 3.346E+01 N/C
Click these links for the keys:
Key: E0
edit- -a) 4.357E+01 degrees
- -b) 4.793E+01 degrees
- -c) 5.272E+01 degrees
- +d) 5.799E+01 degrees
- -e) 6.379E+01 degrees
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.7 m. Evaluate at x=0.76 m if a=1.1 m, b=1.6 m. The total charge on the rod is 8 nC.
- -a) 5.267E+00 V/m2
- -b) 5.794E+00 V/m2
- -c) 6.374E+00 V/m2
- +d) 7.011E+00 V/m2
- -e) 7.712E+00 V/m2
3) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 6.4 nano-Coulombs. What is the magnitude of the electric field at a distance of 1.1 m from the center of the shells?
- -a) 3.251E+01 N/C
- -b) 3.577E+01 N/C
- -c) 3.934E+01 N/C
- -d) 4.328E+01 N/C
- +e) 4.760E+01 N/C
- -a) 1.992E+01 N·m2/C
- -b) 2.192E+01 N·m2/C
- +c) 2.411E+01 N·m2/C
- -d) 2.652E+01 N·m2/C
- -e) 2.917E+01 N·m2/C
- -a) 3.852E+02 V
- -b) 4.238E+02 V
- +c) 4.661E+02 V
- -d) 5.127E+02 V
- -e) 5.640E+02 V
6) Calculate the final speed of a free electron accelerated from rest through a potential difference of 83 V.
- -a) 4.466E+06 m/s
- -b) 4.912E+06 m/s
- +c) 5.403E+06 m/s
- -d) 5.944E+06 m/s
- -e) 6.538E+06 m/s
- +a) 5.482E+00 μF
- -b) 6.030E+00 μF
- -c) 6.633E+00 μF
- -d) 7.296E+00 μF
- -e) 8.026E+00 μF
8) A DC winch moter draws 26 amps at 153 volts as it lifts a 4.100E+03 N weight at a constant speed of 0.609 m/s. Assuming that all the electrical power is either converted into gravitational potential energy or ohmically heats the motor's coils, calculate the coil's resistance.
- +a) 2.191E+00 Ω
- -b) 2.410E+00 Ω
- -c) 2.651E+00 Ω
- -d) 2.916E+00 Ω
- -e) 3.208E+00 Ω
- -a) 1.770E-01 A
- -b) 1.947E-01 A
- +c) 2.141E-01 A
- -d) 2.355E-01 A
- -e) 2.591E-01 A
- -a) 1.906E+01 V
- +b) 2.097E+01 V
- -c) 2.306E+01 V
- -d) 2.537E+01 V
- -e) 2.790E+01 V
Click these links for the keys:
Key: E1
edit- -a) 4.743E+01 degrees
- -b) 5.217E+01 degrees
- -c) 5.739E+01 degrees
- -d) 6.313E+01 degrees
- +e) 6.944E+01 degrees
- -a) 8.147E-02 A
- -b) 8.962E-02 A
- -c) 9.858E-02 A
- +d) 1.084E-01 A
- -e) 1.193E-01 A
- -a) 4.173E+00 μF
- -b) 4.590E+00 μF
- -c) 5.049E+00 μF
- +d) 5.554E+00 μF
- -e) 6.110E+00 μF
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.8 m. Evaluate at x=1.0 m if a=1.0 m, b=1.8 m. The total charge on the rod is 6 nC.
- -a) 3.610E+00 V/m2
- +b) 3.971E+00 V/m2
- -c) 4.368E+00 V/m2
- -d) 4.804E+00 V/m2
- -e) 5.285E+00 V/m2
- -a) 1.056E+01 V
- -b) 1.161E+01 V
- -c) 1.277E+01 V
- +d) 1.405E+01 V
- -e) 1.545E+01 V
6) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 7.8 nano-Coulombs. What is the magnitude of the electric field at a distance of 1.3 m from the center of the shells?
- -a) 2.837E+01 N/C
- -b) 3.121E+01 N/C
- -c) 3.433E+01 N/C
- -d) 3.776E+01 N/C
- +e) 4.154E+01 N/C
- -a) 4.324E+02 V
- -b) 4.757E+02 V
- +c) 5.232E+02 V
- -d) 5.755E+02 V
- -e) 6.331E+02 V
8) A DC winch moter draws 26 amps at 177 volts as it lifts a 4.820E+03 N weight at a constant speed of 0.696 m/s. Assuming that all the electrical power is either converted into gravitational potential energy or ohmically heats the motor's coils, calculate the coil's resistance.
- -a) 1.677E+00 Ω
- +b) 1.845E+00 Ω
- -c) 2.030E+00 Ω
- -d) 2.233E+00 Ω
- -e) 2.456E+00 Ω
- -a) 2.186E+01 N·m2/C
- -b) 2.404E+01 N·m2/C
- +c) 2.645E+01 N·m2/C
- -d) 2.909E+01 N·m2/C
- -e) 3.200E+01 N·m2/C
10) Calculate the final speed of a free electron accelerated from rest through a potential difference of 83 V.
- -a) 4.466E+06 m/s
- -b) 4.912E+06 m/s
- +c) 5.403E+06 m/s
- -d) 5.944E+06 m/s
- -e) 6.538E+06 m/s
Click these links for the keys:
Key: E2
edit- -a) 5.796E+02 V
- +b) 6.375E+02 V
- -c) 7.013E+02 V
- -d) 7.714E+02 V
- -e) 8.486E+02 V
- -a) 8.334E+00 V
- -b) 9.167E+00 V
- +c) 1.008E+01 V
- -d) 1.109E+01 V
- -e) 1.220E+01 V
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.7 m. Evaluate at x=0.76 m if a=1.1 m, b=1.6 m. The total charge on the rod is 8 nC.
- -a) 5.267E+00 V/m2
- -b) 5.794E+00 V/m2
- -c) 6.374E+00 V/m2
- +d) 7.011E+00 V/m2
- -e) 7.712E+00 V/m2
4) Calculate the final speed of a free electron accelerated from rest through a potential difference of 45 V.
- -a) 3.617E+06 m/s
- +b) 3.979E+06 m/s
- -c) 4.376E+06 m/s
- -d) 4.814E+06 m/s
- -e) 5.296E+06 m/s
5) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 9.7 nano-Coulombs. What is the magnitude of the electric field at a distance of 4.4 m from the center of the shells?
- -a) 1.491E+01 N/C
- -b) 1.640E+01 N/C
- +c) 1.804E+01 N/C
- -d) 1.984E+01 N/C
- -e) 2.182E+01 N/C
- -a) 1.427E-01 A
- -b) 1.569E-01 A
- +c) 1.726E-01 A
- -d) 1.899E-01 A
- -e) 2.089E-01 A
- -a) 3.924E+01 N·m2/C
- -b) 4.316E+01 N·m2/C
- -c) 4.748E+01 N·m2/C
- +d) 5.222E+01 N·m2/C
- -e) 5.745E+01 N·m2/C
- -a) 4.091E+01 degrees
- +b) 4.500E+01 degrees
- -c) 4.950E+01 degrees
- -d) 5.445E+01 degrees
- -e) 5.990E+01 degrees
9) A DC winch moter draws 17 amps at 187 volts as it lifts a 5.600E+03 N weight at a constant speed of 0.381 m/s. Assuming that all the electrical power is either converted into gravitational potential energy or ohmically heats the motor's coils, calculate the coil's resistance.
- -a) 2.471E+00 Ω
- -b) 2.718E+00 Ω
- -c) 2.990E+00 Ω
- -d) 3.288E+00 Ω
- +e) 3.617E+00 Ω
- -a) 3.700E+00 μF
- -b) 4.070E+00 μF
- -c) 4.477E+00 μF
- -d) 4.925E+00 μF
- +e) 5.417E+00 μF
Click these links for the keys:
Key: F0
edit1)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- -a) 8.253E-01 V/m2
- -b) 9.079E-01 V/m2
- +c) 9.987E-01 V/m2
- -d) 1.099E+00 V/m2
- -e) 1.208E+00 V/m2
- -a) 4.142E+09 N/C2
- -b) 4.556E+09 N/C2
- +c) 5.012E+09 N/C2
- -d) 5.513E+09 N/C2
- -e) 6.064E+09 N/C2
3) A non-conducting sphere of radius R=3.0 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.2 (r≤R) where a=2 nC·m-1.8. What is the magnitude of the electric field at a distance of 2.1 m from the center?
- -a) 2.274E+02 N/C
- -b) 2.501E+02 N/C
- +c) 2.751E+02 N/C
- -d) 3.026E+02 N/C
- -e) 3.329E+02 N/C
- -a) 1.698E+01 N·m2/C
- -b) 1.868E+01 N·m2/C
- -c) 2.055E+01 N·m2/C
- -d) 2.260E+01 N·m2/C
- +e) 2.486E+01 N·m2/C
- -a) 1.071E+01 μC
- -b) 1.178E+01 μC
- -c) 1.296E+01 μC
- +d) 1.426E+01 μC
- -e) 1.568E+01 μC
6) Calculate the final speed of a free electron accelerated from rest through a potential difference of 46 V.
- -a) 3.022E+06 m/s
- -b) 3.324E+06 m/s
- -c) 3.657E+06 m/s
- +d) 4.023E+06 m/s
- -e) 4.425E+06 m/s
7) An empty parallel-plate capacitor with metal plates has an area of 2.83 m2, separated by 1.14 mm. How much charge does it store if the voltage is 4.180E+03 V?
- -a) 6.275E+01 μC
- -b) 6.903E+01 μC
- -c) 7.593E+01 μC
- -d) 8.352E+01 μC
- +e) 9.188E+01 μC
8) A device requires consumes 73 W of power and requires 9.14 A of current which is supplied by a single core 10-guage (2.588 mm diameter) wire. Find the magnitude of the average current density.
- -a) 1.187E+06 A/m2
- -b) 1.306E+06 A/m2
- -c) 1.436E+06 A/m2
- -d) 1.580E+06 A/m2
- +e) 1.738E+06 A/m2
- +a) 1.401E-01 A
- -b) 1.542E-01 A
- -c) 1.696E-01 A
- -d) 1.865E-01 A
- -e) 2.052E-01 A
- -a) 1.906E+01 V
- +b) 2.097E+01 V
- -c) 2.306E+01 V
- -d) 2.537E+01 V
- -e) 2.790E+01 V
Click these links for the keys:
Key: F1
edit- +a) 1.304E+01 μC
- -b) 1.434E+01 μC
- -c) 1.577E+01 μC
- -d) 1.735E+01 μC
- -e) 1.909E+01 μC
2) Calculate the final speed of a free electron accelerated from rest through a potential difference of 30 V.
- -a) 2.441E+06 m/s
- -b) 2.685E+06 m/s
- -c) 2.953E+06 m/s
- +d) 3.249E+06 m/s
- -e) 3.573E+06 m/s
3)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- -a) 4.295E+00 V/m2
- +b) 4.724E+00 V/m2
- -c) 5.196E+00 V/m2
- -d) 5.716E+00 V/m2
- -e) 6.288E+00 V/m2
- +a) 7.793E+01 N·m2/C
- -b) 8.572E+01 N·m2/C
- -c) 9.429E+01 N·m2/C
- -d) 1.037E+02 N·m2/C
- -e) 1.141E+02 N·m2/C
5) A device requires consumes 168 W of power and requires 11.0 A of current which is supplied by a single core 10-guage (2.588 mm diameter) wire. Find the magnitude of the average current density.
- -a) 1.901E+06 A/m2
- +b) 2.091E+06 A/m2
- -c) 2.300E+06 A/m2
- -d) 2.530E+06 A/m2
- -e) 2.783E+06 A/m2
6) A non-conducting sphere of radius R=1.7 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=3 nC·m-1.5. What is the magnitude of the electric field at a distance of 0.64 m from the center?
- -a) 2.039E+01 N/C
- -b) 2.243E+01 N/C
- +c) 2.467E+01 N/C
- -d) 2.714E+01 N/C
- -e) 2.985E+01 N/C
- -a) 8.754E+00 V
- -b) 9.630E+00 V
- -c) 1.059E+01 V
- -d) 1.165E+01 V
- +e) 1.282E+01 V
- +a) 3.159E+09 N/C2
- -b) 3.475E+09 N/C2
- -c) 3.823E+09 N/C2
- -d) 4.205E+09 N/C2
- -e) 4.626E+09 N/C2
- -a) 1.886E-01 A
- +b) 2.075E-01 A
- -c) 2.282E-01 A
- -d) 2.510E-01 A
- -e) 2.761E-01 A
10) An empty parallel-plate capacitor with metal plates has an area of 2.82 m2, separated by 1.29 mm. How much charge does it store if the voltage is 7.420E+03 V?
- -a) 1.187E+02 μC
- -b) 1.306E+02 μC
- +c) 1.436E+02 μC
- -d) 1.580E+02 μC
- -e) 1.738E+02 μC
Click these links for the keys:
Key: F2
edit1) A device requires consumes 196 W of power and requires 2.4 A of current which is supplied by a single core 10-guage (2.588 mm diameter) wire. Find the magnitude of the average current density.
- +a) 4.563E+05 A/m2
- -b) 5.019E+05 A/m2
- -c) 5.521E+05 A/m2
- -d) 6.073E+05 A/m2
- -e) 6.680E+05 A/m2
- -a) 7.415E+09 N/C2
- -b) 8.156E+09 N/C2
- -c) 8.972E+09 N/C2
- -d) 9.869E+09 N/C2
- +e) 1.086E+10 N/C2
- -a) 1.552E-01 A
- -b) 1.707E-01 A
- -c) 1.878E-01 A
- -d) 2.065E-01 A
- +e) 2.272E-01 A
- -a) 9.184E+00 μC
- -b) 1.010E+01 μC
- +c) 1.111E+01 μC
- -d) 1.222E+01 μC
- -e) 1.345E+01 μC
5) An empty parallel-plate capacitor with metal plates has an area of 2.51 m2, separated by 1.44 mm. How much charge does it store if the voltage is 2.230E+03 V?
- -a) 2.351E+01 μC
- -b) 2.586E+01 μC
- -c) 2.844E+01 μC
- -d) 3.129E+01 μC
- +e) 3.442E+01 μC
6) A non-conducting sphere of radius R=3.5 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.2 (r≤R) where a=2 nC·m-1.8. What is the magnitude of the electric field at a distance of 2.3 m from the center?
- -a) 2.777E+02 N/C
- -b) 3.055E+02 N/C
- +c) 3.361E+02 N/C
- -d) 3.697E+02 N/C
- -e) 4.066E+02 N/C
- -a) 6.488E+00 V
- +b) 7.137E+00 V
- -c) 7.850E+00 V
- -d) 8.635E+00 V
- -e) 9.499E+00 V
8) Calculate the final speed of a free electron accelerated from rest through a potential difference of 45 V.
- -a) 3.288E+06 m/s
- -b) 3.617E+06 m/s
- +c) 3.979E+06 m/s
- -d) 4.376E+06 m/s
- -e) 4.814E+06 m/s
9)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- -a) 1.258E+00 V/m2
- -b) 1.384E+00 V/m2
- -c) 1.522E+00 V/m2
- +d) 1.674E+00 V/m2
- -e) 1.842E+00 V/m2
- -a) 1.992E+01 N·m2/C
- -b) 2.192E+01 N·m2/C
- +c) 2.411E+01 N·m2/C
- -d) 2.652E+01 N·m2/C
- -e) 2.917E+01 N·m2/C
Click these links for the keys:
Key: G0
edit- -a) 8.613E-15 N
- -b) 9.474E-15 N
- -c) 1.042E-14 N
- +d) 1.146E-14 N
- -e) 1.261E-14 N
- -a) 1.353E+09 N/C2
- -b) 1.488E+09 N/C2
- +c) 1.637E+09 N/C2
- -d) 1.801E+09 N/C2
- -e) 1.981E+09 N/C2
3) A non-conducting sphere of radius R=3.7 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.4 (r≤R) where a=2 nC·m-1.6. What is the magnitude of the electric field at a distance of 3.1 m from the center?
- -a) 6.411E+02 N/C
- -b) 7.052E+02 N/C
- +c) 7.757E+02 N/C
- -d) 8.533E+02 N/C
- -e) 9.386E+02 N/C
- -a) 2.214E+01 N·m2/C
- -b) 2.436E+01 N·m2/C
- -c) 2.679E+01 N·m2/C
- -d) 2.947E+01 N·m2/C
- +e) 3.242E+01 N·m2/C
5) A 7 C charge is separated from a 11 C charge by distance of 11 cm. What is the work done by increasing this separation to 19 cm?
- -a) 2.408E-06 J
- +b) 2.649E-06 J
- -c) 2.914E-06 J
- -d) 3.205E-06 J
- -e) 3.526E-06 J
- -a) 1.038E+01 μC
- +b) 1.142E+01 μC
- -c) 1.256E+01 μC
- -d) 1.381E+01 μC
- -e) 1.519E+01 μC
- -a) 1.764E+01 μJ
- +b) 1.940E+01 μJ
- -c) 2.134E+01 μJ
- -d) 2.348E+01 μJ
- -e) 2.583E+01 μJ
8) What is the average current involved when a truck battery sets in motion 738 C of charge in 3.87 s while starting an engine?
- +a) 1.907E+02 A
- -b) 2.098E+02 A
- -c) 2.307E+02 A
- -d) 2.538E+02 A
- -e) 2.792E+02 A
- -a) 1.157E+01 W
- -b) 1.273E+01 W
- -c) 1.400E+01 W
- -d) 1.540E+01 W
- +e) 1.694E+01 W
- -a) 1.137E-01 A
- -b) 1.251E-01 A
- -c) 1.376E-01 A
- +d) 1.514E-01 A
- -e) 1.665E-01 A
Click these links for the keys:
Key: G1
edit1) A non-conducting sphere of radius R=1.2 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.6 (r≤R) where a=2 nC·m-1.4. What is the magnitude of the electric field at a distance of 0.76 m from the center?
- +a) 2.406E+01 N/C
- -b) 2.646E+01 N/C
- -c) 2.911E+01 N/C
- -d) 3.202E+01 N/C
- -e) 3.522E+01 N/C
2) A 4 C charge is separated from a 9 C charge by distance of 9 cm. What is the work done by increasing this separation to 14 cm?
- -a) 8.769E-07 J
- -b) 9.646E-07 J
- -c) 1.061E-06 J
- -d) 1.167E-06 J
- +e) 1.284E-06 J
- +a) 8.336E+09 N/C2
- -b) 9.170E+09 N/C2
- -c) 1.009E+10 N/C2
- -d) 1.110E+10 N/C2
- -e) 1.220E+10 N/C2
4) What is the average current involved when a truck battery sets in motion 682 C of charge in 5.29 s while starting an engine?
- -a) 1.065E+02 A
- -b) 1.172E+02 A
- +c) 1.289E+02 A
- -d) 1.418E+02 A
- -e) 1.560E+02 A
- -a) 2.248E-14 N
- -b) 2.473E-14 N
- +c) 2.721E-14 N
- -d) 2.993E-14 N
- -e) 3.292E-14 N
- -a) 1.096E+01 W
- -b) 1.206E+01 W
- -c) 1.326E+01 W
- -d) 1.459E+01 W
- +e) 1.605E+01 W
- +a) 1.744E+01 μC
- -b) 1.918E+01 μC
- -c) 2.110E+01 μC
- -d) 2.321E+01 μC
- -e) 2.554E+01 μC
- -a) 1.203E-01 A
- -b) 1.324E-01 A
- +c) 1.456E-01 A
- -d) 1.602E-01 A
- -e) 1.762E-01 A
- -a) 4.420E+01 N·m2/C
- -b) 4.862E+01 N·m2/C
- -c) 5.348E+01 N·m2/C
- -d) 5.882E+01 N·m2/C
- +e) 6.471E+01 N·m2/C
- -a) 6.750E+00 μJ
- -b) 7.425E+00 μJ
- +c) 8.168E+00 μJ
- -d) 8.984E+00 μJ
- -e) 9.883E+00 μJ
Click these links for the keys:
Key: G2
edit1) A 7 C charge is separated from a 11 C charge by distance of 11 cm. What is the work done by increasing this separation to 19 cm?
- -a) 2.408E-06 J
- +b) 2.649E-06 J
- -c) 2.914E-06 J
- -d) 3.205E-06 J
- -e) 3.526E-06 J
- -a) 9.750E-15 N
- -b) 1.072E-14 N
- -c) 1.180E-14 N
- -d) 1.298E-14 N
- +e) 1.427E-14 N
- -a) 2.186E+01 N·m2/C
- -b) 2.404E+01 N·m2/C
- +c) 2.645E+01 N·m2/C
- -d) 2.909E+01 N·m2/C
- -e) 3.200E+01 N·m2/C
- -a) 1.303E+01 μJ
- -b) 1.434E+01 μJ
- -c) 1.577E+01 μJ
- -d) 1.735E+01 μJ
- +e) 1.908E+01 μJ
5) A non-conducting sphere of radius R=1.7 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=3 nC·m-1.5. What is the magnitude of the electric field at a distance of 0.64 m from the center?
- -a) 2.039E+01 N/C
- -b) 2.243E+01 N/C
- +c) 2.467E+01 N/C
- -d) 2.714E+01 N/C
- -e) 2.985E+01 N/C
- -a) 1.770E-01 A
- -b) 1.947E-01 A
- +c) 2.141E-01 A
- -d) 2.355E-01 A
- -e) 2.591E-01 A
- -a) 2.013E+09 N/C2
- -b) 2.214E+09 N/C2
- -c) 2.435E+09 N/C2
- -d) 2.679E+09 N/C2
- +e) 2.947E+09 N/C2
- +a) 1.900E+01 μC
- -b) 2.090E+01 μC
- -c) 2.299E+01 μC
- -d) 2.529E+01 μC
- -e) 2.782E+01 μC
9) What is the average current involved when a truck battery sets in motion 701 C of charge in 4.98 s while starting an engine?
- -a) 1.280E+02 A
- +b) 1.408E+02 A
- -c) 1.548E+02 A
- -d) 1.703E+02 A
- -e) 1.874E+02 A
- -a) 1.784E+01 W
- +b) 1.963E+01 W
- -c) 2.159E+01 W
- -d) 2.375E+01 W
- -e) 2.612E+01 W
Click these links for the keys:
Key: H0
edit- -a) 2.544E-14 N
- -b) 2.798E-14 N
- -c) 3.078E-14 N
- +d) 3.385E-14 N
- -e) 3.724E-14 N
2) A large thin isolated square plate has an area of 3 m2. It is uniformly charged with 9 nC of charge. What is the magnitude of the electric field 3 mm from the center of the plate's surface?
- +a) 1.694E+02 N/C
- -b) 1.864E+02 N/C
- -c) 2.050E+02 N/C
- -d) 2.255E+02 N/C
- -e) 2.480E+02 N/C
3) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 1.2 nano-Coulombs. What is the magnitude of the electric field at a distance of 5.8 m from the center of the shells?
- -a) 1.096E+00 N/C
- -b) 1.206E+00 N/C
- -c) 1.327E+00 N/C
- -d) 1.459E+00 N/C
- +e) 1.605E+00 N/C
- -a) 8.415E+01 N·m2/C
- -b) 9.256E+01 N·m2/C
- -c) 1.018E+02 N·m2/C
- +d) 1.120E+02 N·m2/C
- -e) 1.232E+02 N·m2/C
5) Calculate the final speed of a free electron accelerated from rest through a potential difference of 12 V.
- -a) 1.698E+06 m/s
- -b) 1.868E+06 m/s
- +c) 2.055E+06 m/s
- -d) 2.260E+06 m/s
- -e) 2.486E+06 m/s
- -a) 3.697E-01 N
- -b) 4.067E-01 N
- -c) 4.474E-01 N
- +d) 4.921E-01 N
- -e) 5.413E-01 N
- -a) 3.018E+00 μF
- -b) 3.320E+00 μF
- -c) 3.652E+00 μF
- +d) 4.017E+00 μF
- -e) 4.419E+00 μF
8) The charge passing a plane intersecting a wire is , where =27 C and 0.0154 s. What is the current at 0.0177 s?
- -a) 4.591E+02 A
- -b) 5.050E+02 A
- +c) 5.555E+02 A
- -d) 6.111E+02 A
- -e) 6.722E+02 A
- +a) 2.247E+00 mA
- -b) 2.472E+00 mA
- -c) 2.719E+00 mA
- -d) 2.991E+00 mA
- -e) 3.290E+00 mA
- -a) 1.552E-01 A
- -b) 1.707E-01 A
- -c) 1.878E-01 A
- -d) 2.065E-01 A
- +e) 2.272E-01 A
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Key: H1
edit1) Calculate the final speed of a free electron accelerated from rest through a potential difference of 16 V.
- -a) 2.157E+06 m/s
- +b) 2.372E+06 m/s
- -c) 2.610E+06 m/s
- -d) 2.871E+06 m/s
- -e) 3.158E+06 m/s
- -a) 3.038E+00 μF
- -b) 3.341E+00 μF
- -c) 3.675E+00 μF
- +d) 4.043E+00 μF
- -e) 4.447E+00 μF
- -a) 1.770E-01 A
- -b) 1.947E-01 A
- +c) 2.141E-01 A
- -d) 2.355E-01 A
- -e) 2.591E-01 A
- -a) 2.348E-01 N
- -b) 2.583E-01 N
- +c) 2.841E-01 N
- -d) 3.126E-01 N
- -e) 3.438E-01 N
- -a) 2.036E-14 N
- -b) 2.240E-14 N
- +c) 2.464E-14 N
- -d) 2.710E-14 N
- -e) 2.981E-14 N
- -a) 7.264E-01 mA
- +b) 7.990E-01 mA
- -c) 8.789E-01 mA
- -d) 9.668E-01 mA
- -e) 1.063E+00 mA
7) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 6.5 nano-Coulombs. What is the magnitude of the electric field at a distance of 1.3 m from the center of the shells?
- -a) 2.601E+01 N/C
- -b) 2.861E+01 N/C
- -c) 3.147E+01 N/C
- +d) 3.462E+01 N/C
- -e) 3.808E+01 N/C
8) A large thin isolated square plate has an area of 5 m2. It is uniformly charged with 7 nC of charge. What is the magnitude of the electric field 1 mm from the center of the plate's surface?
- -a) 6.534E+01 N/C
- -b) 7.187E+01 N/C
- +c) 7.906E+01 N/C
- -d) 8.696E+01 N/C
- -e) 9.566E+01 N/C
9) The charge passing a plane intersecting a wire is , where =42 C and 0.0166 s. What is the current at 0.0156 s?
- +a) 9.886E+02 A
- -b) 1.087E+03 A
- -c) 1.196E+03 A
- -d) 1.316E+03 A
- -e) 1.447E+03 A
- -a) 5.439E+01 N·m2/C
- -b) 5.983E+01 N·m2/C
- -c) 6.581E+01 N·m2/C
- +d) 7.239E+01 N·m2/C
- -e) 7.963E+01 N·m2/C
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Key: H2
edit1) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 9.0 nano-Coulombs. What is the magnitude of the electric field at a distance of 5.5 m from the center of the shells?
- -a) 9.144E+00 N/C
- -b) 1.006E+01 N/C
- -c) 1.106E+01 N/C
- -d) 1.217E+01 N/C
- +e) 1.339E+01 N/C
- -a) 1.374E-01 N
- -b) 1.511E-01 N
- -c) 1.662E-01 N
- +d) 1.828E-01 N
- -e) 2.011E-01 N
- -a) 1.825E+00 mA
- -b) 2.007E+00 mA
- +c) 2.208E+00 mA
- -d) 2.429E+00 mA
- -e) 2.672E+00 mA
4) The charge passing a plane intersecting a wire is , where =38 C and 0.0167 s. What is the current at 0.0183 s?
- -a) 5.715E+02 A
- -b) 6.286E+02 A
- -c) 6.915E+02 A
- +d) 7.606E+02 A
- -e) 8.367E+02 A
- +a) 3.222E+01 N·m2/C
- -b) 3.544E+01 N·m2/C
- -c) 3.899E+01 N·m2/C
- -d) 4.289E+01 N·m2/C
- -e) 4.718E+01 N·m2/C
6) Calculate the final speed of a free electron accelerated from rest through a potential difference of 45 V.
- -a) 3.617E+06 m/s
- +b) 3.979E+06 m/s
- -c) 4.376E+06 m/s
- -d) 4.814E+06 m/s
- -e) 5.296E+06 m/s
7) A large thin isolated square plate has an area of 6 m2. It is uniformly charged with 9 nC of charge. What is the magnitude of the electric field 2 mm from the center of the plate's surface?
- -a) 7.000E+01 N/C
- -b) 7.701E+01 N/C
- +c) 8.471E+01 N/C
- -d) 9.318E+01 N/C
- -e) 1.025E+02 N/C
- -a) 3.018E+00 μF
- -b) 3.320E+00 μF
- -c) 3.652E+00 μF
- +d) 4.017E+00 μF
- -e) 4.419E+00 μF
- -a) 1.464E-01 A
- +b) 1.610E-01 A
- -c) 1.772E-01 A
- -d) 1.949E-01 A
- -e) 2.144E-01 A
- -a) 8.259E-15 N
- -b) 9.085E-15 N
- -c) 9.993E-15 N
- -d) 1.099E-14 N
- +e) 1.209E-14 N
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Key: I0
edit- -a) 5.569E+01 degrees
- -b) 6.125E+01 degrees
- +c) 6.738E+01 degrees
- -d) 7.412E+01 degrees
- -e) 8.153E+01 degrees
2)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- -a) 3.228E+00 V/m2
- -b) 3.551E+00 V/m2
- -c) 3.906E+00 V/m2
- -d) 4.297E+00 V/m2
- +e) 4.727E+00 V/m2
3) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=5, y=0), (x=0, y=7), and (x=5, y=7), where x and y are measured in meters. The electric field is,
- -a) 1.128E+04 V·m
- -b) 1.241E+04 V·m
- -c) 1.365E+04 V·m
- +d) 1.502E+04 V·m
- -e) 1.652E+04 V·m
- -a) 4.809E+01 N·m2/C
- -b) 5.290E+01 N·m2/C
- +c) 5.819E+01 N·m2/C
- -d) 6.401E+01 N·m2/C
- -e) 7.041E+01 N·m2/C
5) If a 11 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=61 V is x2 + y2 + z2 = R2, where R=
- -a) 1.107E+00 m
- -b) 1.218E+00 m
- -c) 1.339E+00 m
- -d) 1.473E+00 m
- +e) 1.621E+00 m
- -a) 3.814E+02 V
- -b) 4.195E+02 V
- +c) 4.615E+02 V
- -d) 5.077E+02 V
- -e) 5.584E+02 V
7) An empty parallel-plate capacitor with metal plates has an area of 2.1 m2, separated by 1.13 mm. How much charge does it store if the voltage is 1.680E+03 V?
- +a) 2.764E+01 μC
- -b) 3.041E+01 μC
- -c) 3.345E+01 μC
- -d) 3.679E+01 μC
- -e) 4.047E+01 μC
8) A DC winch moter draws 25 amps at 119 volts as it lifts a 4.730E+03 N weight at a constant speed of 0.47 m/s. Assuming that all the electrical power is either converted into gravitational potential energy or ohmically heats the motor's coils, calculate the coil's resistance.
- -a) 1.094E+00 Ω
- +b) 1.203E+00 Ω
- -c) 1.323E+00 Ω
- -d) 1.456E+00 Ω
- -e) 1.601E+00 Ω
- -a) 3.890E+00 V
- -b) 4.279E+00 V
- -c) 4.707E+00 V
- +d) 5.178E+00 V
- -e) 5.695E+00 V
- +a) 2.247E+00 mA
- -b) 2.472E+00 mA
- -c) 2.719E+00 mA
- -d) 2.991E+00 mA
- -e) 3.290E+00 mA
Click these links for the keys:
Key: I1
edit- -a) 4.743E+01 degrees
- -b) 5.217E+01 degrees
- -c) 5.739E+01 degrees
- -d) 6.313E+01 degrees
- +e) 6.944E+01 degrees
- -a) 8.457E+01 N·m2/C
- +b) 9.303E+01 N·m2/C
- -c) 1.023E+02 N·m2/C
- -d) 1.126E+02 N·m2/C
- -e) 1.238E+02 N·m2/C
3) A DC winch moter draws 19 amps at 175 volts as it lifts a 4.230E+03 N weight at a constant speed of 0.483 m/s. Assuming that all the electrical power is either converted into gravitational potential energy or ohmically heats the motor's coils, calculate the coil's resistance.
- +a) 3.551E+00 Ω
- -b) 3.906E+00 Ω
- -c) 4.297E+00 Ω
- -d) 4.726E+00 Ω
- -e) 5.199E+00 Ω
4)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- -a) 3.228E+00 V/m2
- -b) 3.551E+00 V/m2
- -c) 3.906E+00 V/m2
- -d) 4.297E+00 V/m2
- +e) 4.727E+00 V/m2
5) An empty parallel-plate capacitor with metal plates has an area of 1.94 m2, separated by 1.36 mm. How much charge does it store if the voltage is 8.530E+03 V?
- -a) 7.359E+01 μC
- -b) 8.094E+01 μC
- -c) 8.904E+01 μC
- -d) 9.794E+01 μC
- +e) 1.077E+02 μC
- -a) 8.687E+00 V
- -b) 9.555E+00 V
- -c) 1.051E+01 V
- -d) 1.156E+01 V
- +e) 1.272E+01 V
7) If a 23 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=62 V is x2 + y2 + z2 = R2, where R=
- -a) 2.277E+00 m
- -b) 2.505E+00 m
- -c) 2.755E+00 m
- -d) 3.031E+00 m
- +e) 3.334E+00 m
- -a) 1.717E+00 mA
- -b) 1.888E+00 mA
- -c) 2.077E+00 mA
- +d) 2.285E+00 mA
- -e) 2.514E+00 mA
- -a) 5.645E+02 V
- +b) 6.210E+02 V
- -c) 6.831E+02 V
- -d) 7.514E+02 V
- -e) 8.266E+02 V
10) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=6, y=0), (x=0, y=6), and (x=6, y=6), where x and y are measured in meters. The electric field is,
- -a) 4.820E+03 V·m
- -b) 5.302E+03 V·m
- +c) 5.832E+03 V·m
- -d) 6.415E+03 V·m
- -e) 7.057E+03 V·m
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Key: I2
edit1)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- -a) 4.961E-01 V/m2
- -b) 5.457E-01 V/m2
- -c) 6.002E-01 V/m2
- -d) 6.603E-01 V/m2
- +e) 7.263E-01 V/m2
2) If a 24 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=97 V is x2 + y2 + z2 = R2, where R=
- -a) 1.838E+00 m
- -b) 2.022E+00 m
- +c) 2.224E+00 m
- -d) 2.446E+00 m
- -e) 2.691E+00 m
3) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=6, y=0), (x=0, y=6), and (x=6, y=6), where x and y are measured in meters. The electric field is,
- -a) 9.952E+03 V·m
- -b) 1.095E+04 V·m
- -c) 1.204E+04 V·m
- +d) 1.325E+04 V·m
- -e) 1.457E+04 V·m
- -a) 2.731E+02 V
- -b) 3.004E+02 V
- -c) 3.304E+02 V
- -d) 3.634E+02 V
- +e) 3.998E+02 V
5) A DC winch moter draws 26 amps at 177 volts as it lifts a 4.820E+03 N weight at a constant speed of 0.696 m/s. Assuming that all the electrical power is either converted into gravitational potential energy or ohmically heats the motor's coils, calculate the coil's resistance.
- -a) 1.677E+00 Ω
- +b) 1.845E+00 Ω
- -c) 2.030E+00 Ω
- -d) 2.233E+00 Ω
- -e) 2.456E+00 Ω
- -a) 3.712E+01 N·m2/C
- -b) 4.083E+01 N·m2/C
- +c) 4.491E+01 N·m2/C
- -d) 4.940E+01 N·m2/C
- -e) 5.434E+01 N·m2/C
- -a) 4.275E+00 V
- -b) 4.703E+00 V
- +c) 5.173E+00 V
- -d) 5.691E+00 V
- -e) 6.260E+00 V
- +a) 6.970E+00 mA
- -b) 7.667E+00 mA
- -c) 8.434E+00 mA
- -d) 9.277E+00 mA
- -e) 1.020E+01 mA
- -a) 4.766E+01 degrees
- -b) 5.243E+01 degrees
- -c) 5.767E+01 degrees
- +d) 6.343E+01 degrees
- -e) 6.978E+01 degrees
10) An empty parallel-plate capacitor with metal plates has an area of 2.66 m2, separated by 1.18 mm. How much charge does it store if the voltage is 6.170E+03 V?
- +a) 1.231E+02 μC
- -b) 1.355E+02 μC
- -c) 1.490E+02 μC
- -d) 1.639E+02 μC
- -e) 1.803E+02 μC
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Key: J0
edit1)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- +a) 1.022E+00 V/m2
- -b) 1.125E+00 V/m2
- -c) 1.237E+00 V/m2
- -d) 1.361E+00 V/m2
- -e) 1.497E+00 V/m2
- -a) 9.750E-15 N
- -b) 1.072E-14 N
- -c) 1.180E-14 N
- -d) 1.298E-14 N
- +e) 1.427E-14 N
3) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=8, y=0), (x=0, y=8), and (x=8, y=8), where x and y are measured in meters. The electric field is,
- -a) 9.027E+03 V·m
- +b) 9.930E+03 V·m
- -c) 1.092E+04 V·m
- -d) 1.202E+04 V·m
- -e) 1.322E+04 V·m
4) A non-conducting sphere of radius R=2.9 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=2 nC·m-1.5. What is the magnitude of the electric field at a distance of 1.5 m from the center?
- +a) 1.383E+02 N/C
- -b) 1.522E+02 N/C
- -c) 1.674E+02 N/C
- -d) 1.841E+02 N/C
- -e) 2.025E+02 N/C
5) When a 1.95 V battery operates a 2.8 W bulb, how many electrons pass through it each second?
- -a) 7.407E+18 electrons
- -b) 8.147E+18 electrons
- +c) 8.962E+18 electrons
- -d) 9.858E+18 electrons
- -e) 1.084E+19 electrons
- -a) 7.789E+01 J
- +b) 8.568E+01 J
- -c) 9.425E+01 J
- -d) 1.037E+02 J
- -e) 1.140E+02 J
- -a) 2.451E+01 μC
- -b) 2.696E+01 μC
- -c) 2.966E+01 μC
- -d) 3.262E+01 μC
- +e) 3.589E+01 μC
8) Calculate the electric field in a 12-gauge copper wire that is 23 m long and carries a current of 64 mA. The resistivity of copper is 1.680E-08 Ω·m and 12-gauge wire as a cross-sectional area of 3.31 mm2.
- -a) 2.953E-04 V/m
- +b) 3.248E-04 V/m
- -c) 3.573E-04 V/m
- -d) 3.930E-04 V/m
- -e) 4.324E-04 V/m
- -a) 4.986E+00 V
- -b) 5.484E+00 V
- -c) 6.033E+00 V
- -d) 6.636E+00 V
- +e) 7.299E+00 V
- +a) 1.660E+00 mA
- -b) 1.826E+00 mA
- -c) 2.009E+00 mA
- -d) 2.209E+00 mA
- -e) 2.430E+00 mA
Click these links for the keys:
Key: J1
edit1) When a 7.1 V battery operates a 1.8 W bulb, how many electrons pass through it each second?
- -a) 1.439E+18 electrons
- +b) 1.582E+18 electrons
- -c) 1.741E+18 electrons
- -d) 1.915E+18 electrons
- -e) 2.106E+18 electrons
2) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=9, y=0), (x=0, y=9), and (x=9, y=9), where x and y are measured in meters. The electric field is,
- -a) 2.210E+04 V·m
- +b) 2.431E+04 V·m
- -c) 2.674E+04 V·m
- -d) 2.941E+04 V·m
- -e) 3.235E+04 V·m
- -a) 5.178E+01 J
- +b) 5.696E+01 J
- -c) 6.266E+01 J
- -d) 6.892E+01 J
- -e) 7.582E+01 J
- -a) 7.031E+00 V
- +b) 7.734E+00 V
- -c) 8.507E+00 V
- -d) 9.358E+00 V
- -e) 1.029E+01 V
5)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- +a) 1.022E+00 V/m2
- -b) 1.125E+00 V/m2
- -c) 1.237E+00 V/m2
- -d) 1.361E+00 V/m2
- -e) 1.497E+00 V/m2
6) A non-conducting sphere of radius R=3.8 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=2 nC·m-1.5. What is the magnitude of the electric field at a distance of 3.0 m from the center?
- +a) 7.825E+02 N/C
- -b) 8.607E+02 N/C
- -c) 9.468E+02 N/C
- -d) 1.041E+03 N/C
- -e) 1.146E+03 N/C
- -a) 9.958E-15 N
- -b) 1.095E-14 N
- -c) 1.205E-14 N
- -d) 1.325E-14 N
- +e) 1.458E-14 N
- +a) 1.085E+00 mA
- -b) 1.194E+00 mA
- -c) 1.313E+00 mA
- -d) 1.444E+00 mA
- -e) 1.589E+00 mA
- -a) 2.702E+01 μC
- -b) 2.972E+01 μC
- +c) 3.269E+01 μC
- -d) 3.596E+01 μC
- -e) 3.956E+01 μC
10) Calculate the electric field in a 12-gauge copper wire that is 44 m long and carries a current of 78 mA. The resistivity of copper is 1.680E-08 Ω·m and 12-gauge wire as a cross-sectional area of 3.31 mm2.
- -a) 2.704E-04 V/m
- -b) 2.974E-04 V/m
- -c) 3.272E-04 V/m
- -d) 3.599E-04 V/m
- +e) 3.959E-04 V/m
Click these links for the keys:
Key: J2
edit1)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- -a) 2.567E+01 V/m2
- -b) 2.824E+01 V/m2
- -c) 3.106E+01 V/m2
- -d) 3.417E+01 V/m2
- +e) 3.759E+01 V/m2
- -a) 4.108E+00 V
- +b) 4.519E+00 V
- -c) 4.970E+00 V
- -d) 5.468E+00 V
- -e) 6.014E+00 V
3) Calculate the electric field in a 12-gauge copper wire that is 78 m long and carries a current of 24 mA. The resistivity of copper is 1.680E-08 Ω·m and 12-gauge wire as a cross-sectional area of 3.31 mm2.
- +a) 1.218E-04 V/m
- -b) 1.340E-04 V/m
- -c) 1.474E-04 V/m
- -d) 1.621E-04 V/m
- -e) 1.783E-04 V/m
4) When a 4.91 V battery operates a 1.43 W bulb, how many electrons pass through it each second?
- -a) 1.242E+18 electrons
- -b) 1.366E+18 electrons
- -c) 1.502E+18 electrons
- -d) 1.653E+18 electrons
- +e) 1.818E+18 electrons
- -a) 8.197E+01 μC
- +b) 9.017E+01 μC
- -c) 9.919E+01 μC
- -d) 1.091E+02 μC
- -e) 1.200E+02 μC
6) A non-conducting sphere of radius R=2.5 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.8 (r≤R) where a=2 nC·m-1.2. What is the magnitude of the electric field at a distance of 1.7 m from the center?
- +a) 2.079E+02 N/C
- -b) 2.287E+02 N/C
- -c) 2.516E+02 N/C
- -d) 2.767E+02 N/C
- -e) 3.044E+02 N/C
- -a) 2.544E-14 N
- -b) 2.798E-14 N
- -c) 3.078E-14 N
- +d) 3.385E-14 N
- -e) 3.724E-14 N
8) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=8, y=0), (x=0, y=6), and (x=8, y=6), where x and y are measured in meters. The electric field is,
- -a) 2.694E+03 V·m
- -b) 2.963E+03 V·m
- -c) 3.259E+03 V·m
- +d) 3.585E+03 V·m
- -e) 3.944E+03 V·m
- +a) 1.241E+02 J
- -b) 1.365E+02 J
- -c) 1.501E+02 J
- -d) 1.652E+02 J
- -e) 1.817E+02 J
- +a) 2.247E+00 mA
- -b) 2.472E+00 mA
- -c) 2.719E+00 mA
- -d) 2.991E+00 mA
- -e) 3.290E+00 mA
Click these links for the keys:
Key: K0
editis an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.7 m. Evaluate at x=0.76 m if a=1.1 m, b=1.6 m. The total charge on the rod is 8 nC.
- -a) 5.267E+00 V/m2
- -b) 5.794E+00 V/m2
- -c) 6.374E+00 V/m2
- +d) 7.011E+00 V/m2
- -e) 7.712E+00 V/m2
- -a) 5.377E+01 degrees
- -b) 5.914E+01 degrees
- -c) 6.506E+01 degrees
- +d) 7.157E+01 degrees
- -e) 7.872E+01 degrees
3) A non-conducting sphere of radius R=2.9 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=3 nC·m-1.5. What is the magnitude of the electric field at a distance of 1.7 m from the center?
- -a) 2.579E+02 N/C
- +b) 2.837E+02 N/C
- -c) 3.121E+02 N/C
- -d) 3.433E+02 N/C
- -e) 3.776E+02 N/C
4) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 9.7 nano-Coulombs. What is the magnitude of the electric field at a distance of 4.4 m from the center of the shells?
- -a) 1.491E+01 N/C
- -b) 1.640E+01 N/C
- +c) 1.804E+01 N/C
- -d) 1.984E+01 N/C
- -e) 2.182E+01 N/C
- -a) 4.590E+02 V
- -b) 5.049E+02 V
- -c) 5.554E+02 V
- +d) 6.109E+02 V
- -e) 6.720E+02 V
6) Assume that a 5 nC charge is situated at the origin. Calculate the the magnitude (absolute value) of the potential difference between points P1 and P2 where the polar coordinates (r,φ) of P1 are (9 cm, 0°) and P2 is at (13 cm, 31°).
- -a) 1.397E+02 V
- +b) 1.536E+02 V
- -c) 1.690E+02 V
- -d) 1.859E+02 V
- -e) 2.045E+02 V
- +a) 4.139E+00 μF
- -b) 4.553E+00 μF
- -c) 5.008E+00 μF
- -d) 5.509E+00 μF
- -e) 6.060E+00 μF
8) A make-believe metal has a density of 3.470E+03 kg/m3 and an atomic mass of 33.8 g/mol. Taking Avogadro's number to be 6.020E+23 atoms/mol and assuming one free electron per atom, calculate the number of free electrons per cubic meter.
- +a) 6.180E+28 e−/m3
- -b) 6.798E+28 e−/m3
- -c) 7.478E+28 e−/m3
- -d) 8.226E+28 e−/m3
- -e) 9.049E+28 e−/m3
- +a) 1.085E+00 mA
- -b) 1.194E+00 mA
- -c) 1.313E+00 mA
- -d) 1.444E+00 mA
- -e) 1.589E+00 mA
- -a) 1.770E-01 A
- -b) 1.947E-01 A
- +c) 2.141E-01 A
- -d) 2.355E-01 A
- -e) 2.591E-01 A
Click these links for the keys:
Key: K1
edit- -a) 2.731E+02 V
- -b) 3.004E+02 V
- -c) 3.304E+02 V
- -d) 3.634E+02 V
- +e) 3.998E+02 V
- -a) 1.725E+00 mA
- -b) 1.898E+00 mA
- -c) 2.087E+00 mA
- +d) 2.296E+00 mA
- -e) 2.526E+00 mA
3) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 2.8 nano-Coulombs. What is the magnitude of the electric field at a distance of 4.8 m from the center of the shells?
- -a) 2.988E+00 N/C
- -b) 3.287E+00 N/C
- -c) 3.616E+00 N/C
- -d) 3.977E+00 N/C
- +e) 4.375E+00 N/C
- -a) 5.914E+01 degrees
- -b) 6.506E+01 degrees
- +c) 7.157E+01 degrees
- -d) 7.872E+01 degrees
- -e) 8.659E+01 degrees
- -a) 1.213E-01 A
- -b) 1.334E-01 A
- -c) 1.468E-01 A
- +d) 1.614E-01 A
- -e) 1.776E-01 A
- -a) 3.231E+00 μF
- -b) 3.554E+00 μF
- +c) 3.909E+00 μF
- -d) 4.300E+00 μF
- -e) 4.730E+00 μF
7) A non-conducting sphere of radius R=1.5 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=2 nC·m-1.5. What is the magnitude of the electric field at a distance of 0.73 m from the center?
- +a) 2.285E+01 N/C
- -b) 2.514E+01 N/C
- -c) 2.765E+01 N/C
- -d) 3.042E+01 N/C
- -e) 3.346E+01 N/C
8) Assume that a 29 nC charge is situated at the origin. Calculate the the magnitude (absolute value) of the potential difference between points P1 and P2 where the polar coordinates (r,φ) of P1 are (6 cm, 0°) and P2 is at (12 cm, 77°).
- -a) 1.483E+03 V
- -b) 1.632E+03 V
- -c) 1.795E+03 V
- -d) 1.975E+03 V
- +e) 2.172E+03 V
9) A make-believe metal has a density of 8.690E+03 kg/m3 and an atomic mass of 48.4 g/mol. Taking Avogadro's number to be 6.020E+23 atoms/mol and assuming one free electron per atom, calculate the number of free electrons per cubic meter.
- +a) 1.081E+29 e−/m3
- -b) 1.189E+29 e−/m3
- -c) 1.308E+29 e−/m3
- -d) 1.439E+29 e−/m3
- -e) 1.582E+29 e−/m3
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.4 m. Evaluate at x=1.1 m if a=0.69 m, b=2.2 m. The total charge on the rod is 6 nC.
- -a) 3.161E+00 V/m2
- -b) 3.477E+00 V/m2
- -c) 3.825E+00 V/m2
- -d) 4.208E+00 V/m2
- +e) 4.628E+00 V/m2
Click these links for the keys:
Key: K2
edit- -a) 3.018E+00 μF
- -b) 3.320E+00 μF
- -c) 3.652E+00 μF
- +d) 4.017E+00 μF
- -e) 4.419E+00 μF
2) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 7.2 nano-Coulombs. What is the magnitude of the electric field at a distance of 4.6 m from the center of the shells?
- -a) 1.114E+01 N/C
- +b) 1.225E+01 N/C
- -c) 1.347E+01 N/C
- -d) 1.482E+01 N/C
- -e) 1.630E+01 N/C
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.9 m. Evaluate at x=0.96 m if a=0.95 m, b=1.8 m. The total charge on the rod is 7 nC.
- -a) 3.385E+00 V/m2
- -b) 3.724E+00 V/m2
- -c) 4.096E+00 V/m2
- +d) 4.506E+00 V/m2
- -e) 4.957E+00 V/m2
- -a) 2.073E+02 V
- -b) 2.281E+02 V
- -c) 2.509E+02 V
- -d) 2.760E+02 V
- +e) 3.035E+02 V
5) A non-conducting sphere of radius R=1.7 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.2 (r≤R) where a=3 nC·m-1.8. What is the magnitude of the electric field at a distance of 0.71 m from the center?
- +a) 3.797E+01 N/C
- -b) 4.177E+01 N/C
- -c) 4.595E+01 N/C
- -d) 5.054E+01 N/C
- -e) 5.560E+01 N/C
6) Assume that a 3 nC charge is situated at the origin. Calculate the the magnitude (absolute value) of the potential difference between points P1 and P2 where the polar coordinates (r,φ) of P1 are (6 cm, 0°) and P2 is at (12 cm, 32°).
- -a) 1.857E+02 V
- -b) 2.043E+02 V
- +c) 2.247E+02 V
- -d) 2.472E+02 V
- -e) 2.719E+02 V
- -a) 1.701E-01 A
- +b) 1.871E-01 A
- -c) 2.058E-01 A
- -d) 2.264E-01 A
- -e) 2.490E-01 A
- -a) 3.055E+00 mA
- +b) 3.360E+00 mA
- -c) 3.696E+00 mA
- -d) 4.066E+00 mA
- -e) 4.472E+00 mA
9) A make-believe metal has a density of 8.060E+03 kg/m3 and an atomic mass of 19.7 g/mol. Taking Avogadro's number to be 6.020E+23 atoms/mol and assuming one free electron per atom, calculate the number of free electrons per cubic meter.
- -a) 1.850E+29 e−/m3
- -b) 2.036E+29 e−/m3
- -c) 2.239E+29 e−/m3
- +d) 2.463E+29 e−/m3
- -e) 2.709E+29 e−/m3
- -a) 5.062E+01 degrees
- -b) 5.569E+01 degrees
- -c) 6.125E+01 degrees
- +d) 6.738E+01 degrees
- -e) 7.412E+01 degrees
Click these links for the keys:
Key: L0
editis an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.5 m. Evaluate at x=1.1 m if a=0.62 m, b=1.3 m. The total charge on the rod is 7 nC.
- -a) 6.311E+00 V/m2
- -b) 6.943E+00 V/m2
- +c) 7.637E+00 V/m2
- -d) 8.401E+00 V/m2
- -e) 9.241E+00 V/m2
2)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- -a) 8.933E+00 V/m2
- -b) 9.826E+00 V/m2
- +c) 1.081E+01 V/m2
- -d) 1.189E+01 V/m2
- -e) 1.308E+01 V/m2
3) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=7, y=0), (x=0, y=5), and (x=7, y=5), where x and y are measured in meters. The electric field is,
- -a) 1.206E+03 V·m
- +b) 1.326E+03 V·m
- -c) 1.459E+03 V·m
- -d) 1.605E+03 V·m
- -e) 1.765E+03 V·m
4) A non-conducting sphere of radius R=1.7 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.2 (r≤R) where a=3 nC·m-1.8. What is the magnitude of the electric field at a distance of 0.71 m from the center?
- +a) 3.797E+01 N/C
- -b) 4.177E+01 N/C
- -c) 4.595E+01 N/C
- -d) 5.054E+01 N/C
- -e) 5.560E+01 N/C
5) When a 7.78 V battery operates a 1.35 W bulb, how many electrons pass through it each second?
- -a) 7.397E+17 electrons
- -b) 8.137E+17 electrons
- -c) 8.951E+17 electrons
- -d) 9.846E+17 electrons
- +e) 1.083E+18 electrons
- -a) 3.866E+02 V
- -b) 4.253E+02 V
- -c) 4.678E+02 V
- +d) 5.146E+02 V
- -e) 5.661E+02 V
7) An empty parallel-plate capacitor with metal plates has an area of 1.94 m2, separated by 1.27 mm. How much charge does it store if the voltage is 8.780E+03 V?
- -a) 1.080E+02 μC
- +b) 1.188E+02 μC
- -c) 1.306E+02 μC
- -d) 1.437E+02 μC
- -e) 1.581E+02 μC
8) Calculate the drift speed of electrons in a copper wire with a diameter of 2.72 mm carrying a 16.2 A current, given that there is one free electron per copper atom. The density of copper is 8.80 x 103kg/m3 and the atomic mass of copper is 63.54 g/mol. Avagadro's number is 6.02 x 1023atoms/mol.
- +a) 2.087E-04 m/s
- -b) 2.295E-04 m/s
- -c) 2.525E-04 m/s
- -d) 2.777E-04 m/s
- -e) 3.055E-04 m/s
- -a) 1.955E+00 mA
- +b) 2.150E+00 mA
- -c) 2.365E+00 mA
- -d) 2.601E+00 mA
- -e) 2.862E+00 mA
- -a) 9.024E+00 s
- -b) 9.927E+00 s
- -c) 1.092E+01 s
- +d) 1.201E+01 s
- -e) 1.321E+01 s
Click these links for the keys:
Key: L1
edit- -a) 1.385E+01 s
- +b) 1.524E+01 s
- -c) 1.676E+01 s
- -d) 1.844E+01 s
- -e) 2.028E+01 s
2) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=5, y=0), (x=0, y=7), and (x=5, y=7), where x and y are measured in meters. The electric field is,
- -a) 1.128E+04 V·m
- -b) 1.241E+04 V·m
- -c) 1.365E+04 V·m
- +d) 1.502E+04 V·m
- -e) 1.652E+04 V·m
- +a) 6.970E+00 mA
- -b) 7.667E+00 mA
- -c) 8.434E+00 mA
- -d) 9.277E+00 mA
- -e) 1.020E+01 mA
4) When a 7.1 V battery operates a 1.8 W bulb, how many electrons pass through it each second?
- -a) 1.439E+18 electrons
- +b) 1.582E+18 electrons
- -c) 1.741E+18 electrons
- -d) 1.915E+18 electrons
- -e) 2.106E+18 electrons
5) Calculate the drift speed of electrons in a copper wire with a diameter of 3.33 mm carrying a 13.8 A current, given that there is one free electron per copper atom. The density of copper is 8.80 x 103kg/m3 and the atomic mass of copper is 63.54 g/mol. Avagadro's number is 6.02 x 1023atoms/mol.
- -a) 8.910E-05 m/s
- -b) 9.801E-05 m/s
- -c) 1.078E-04 m/s
- +d) 1.186E-04 m/s
- -e) 1.305E-04 m/s
6) A non-conducting sphere of radius R=3.3 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.4 (r≤R) where a=2 nC·m-1.6. What is the magnitude of the electric field at a distance of 1.5 m from the center?
- -a) 1.123E+02 N/C
- -b) 1.235E+02 N/C
- +c) 1.358E+02 N/C
- -d) 1.494E+02 N/C
- -e) 1.644E+02 N/C
- -a) 3.070E+02 V
- -b) 3.377E+02 V
- -c) 3.715E+02 V
- -d) 4.086E+02 V
- +e) 4.495E+02 V
8)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- -a) 4.295E+00 V/m2
- +b) 4.724E+00 V/m2
- -c) 5.196E+00 V/m2
- -d) 5.716E+00 V/m2
- -e) 6.288E+00 V/m2
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.7 m. Evaluate at x=0.52 m if a=0.88 m, b=1.3 m. The total charge on the rod is 6 nC.
- -a) 6.804E+00 V/m2
- +b) 7.485E+00 V/m2
- -c) 8.233E+00 V/m2
- -d) 9.056E+00 V/m2
- -e) 9.962E+00 V/m2
10) An empty parallel-plate capacitor with metal plates has an area of 1.94 m2, separated by 1.27 mm. How much charge does it store if the voltage is 8.780E+03 V?
- -a) 1.080E+02 μC
- +b) 1.188E+02 μC
- -c) 1.306E+02 μC
- -d) 1.437E+02 μC
- -e) 1.581E+02 μC
Click these links for the keys:
Key: L2
edit- -a) 3.224E+01 s
- +b) 3.547E+01 s
- -c) 3.902E+01 s
- -d) 4.292E+01 s
- -e) 4.721E+01 s
2) When a 4.63 V battery operates a 2.26 W bulb, how many electrons pass through it each second?
- -a) 2.770E+18 electrons
- +b) 3.047E+18 electrons
- -c) 3.351E+18 electrons
- -d) 3.686E+18 electrons
- -e) 4.055E+18 electrons
3)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- -a) 6.877E+00 V/m2
- -b) 7.565E+00 V/m2
- +c) 8.321E+00 V/m2
- -d) 9.153E+00 V/m2
- -e) 1.007E+01 V/m2
4) A non-conducting sphere of radius R=3.8 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=2 nC·m-1.5. What is the magnitude of the electric field at a distance of 3.0 m from the center?
- +a) 7.825E+02 N/C
- -b) 8.607E+02 N/C
- -c) 9.468E+02 N/C
- -d) 1.041E+03 N/C
- -e) 1.146E+03 N/C
5) An empty parallel-plate capacitor with metal plates has an area of 2.1 m2, separated by 1.13 mm. How much charge does it store if the voltage is 1.680E+03 V?
- +a) 2.764E+01 μC
- -b) 3.041E+01 μC
- -c) 3.345E+01 μC
- -d) 3.679E+01 μC
- -e) 4.047E+01 μC
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.5 m. Evaluate at x=1.0 m if a=1.1 m, b=1.4 m. The total charge on the rod is 5 nC.
- +a) 4.602E+00 V/m2
- -b) 5.062E+00 V/m2
- -c) 5.568E+00 V/m2
- -d) 6.125E+00 V/m2
- -e) 6.738E+00 V/m2
- -a) 5.796E+02 V
- +b) 6.375E+02 V
- -c) 7.013E+02 V
- -d) 7.714E+02 V
- -e) 8.486E+02 V
- -a) 1.825E+00 mA
- -b) 2.007E+00 mA
- +c) 2.208E+00 mA
- -d) 2.429E+00 mA
- -e) 2.672E+00 mA
9) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=5, y=0), (x=0, y=7), and (x=5, y=7), where x and y are measured in meters. The electric field is,
- -a) 4.286E+03 V·m
- -b) 4.714E+03 V·m
- +c) 5.186E+03 V·m
- -d) 5.704E+03 V·m
- -e) 6.275E+03 V·m
10) Calculate the drift speed of electrons in a copper wire with a diameter of 2.72 mm carrying a 16.2 A current, given that there is one free electron per copper atom. The density of copper is 8.80 x 103kg/m3 and the atomic mass of copper is 63.54 g/mol. Avagadro's number is 6.02 x 1023atoms/mol.
- +a) 2.087E-04 m/s
- -b) 2.295E-04 m/s
- -c) 2.525E-04 m/s
- -d) 2.777E-04 m/s
- -e) 3.055E-04 m/s
Click these links for the keys:
Key: M0
edit- -a) 4.743E+01 degrees
- -b) 5.217E+01 degrees
- -c) 5.739E+01 degrees
- -d) 6.313E+01 degrees
- +e) 6.944E+01 degrees
- +a) 5.352E+09 N/C2
- -b) 5.887E+09 N/C2
- -c) 6.476E+09 N/C2
- -d) 7.124E+09 N/C2
- -e) 7.836E+09 N/C2
- -a) 3.712E+01 N·m2/C
- -b) 4.083E+01 N·m2/C
- +c) 4.491E+01 N·m2/C
- -d) 4.940E+01 N·m2/C
- -e) 5.434E+01 N·m2/C
4) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=8, y=0), (x=0, y=8), and (x=8, y=8), where x and y are measured in meters. The electric field is,
- +a) 3.429E+03 V·m
- -b) 3.771E+03 V·m
- -c) 4.149E+03 V·m
- -d) 4.564E+03 V·m
- -e) 5.020E+03 V·m
- -a) 7.033E-01 N
- -b) 7.736E-01 N
- -c) 8.510E-01 N
- -d) 9.361E-01 N
- +e) 1.030E+00 N
- -a) 5.645E+02 V
- +b) 6.210E+02 V
- -c) 6.831E+02 V
- -d) 7.514E+02 V
- -e) 8.266E+02 V
- -a) 2.515E+01 μC
- -b) 2.766E+01 μC
- -c) 3.043E+01 μC
- +d) 3.347E+01 μC
- -e) 3.682E+01 μC
8) Calculate the electric field in a 12-gauge copper wire that is 17 m long and carries a current of 56 mA. The resistivity of copper is 1.680E-08 Ω·m and 12-gauge wire as a cross-sectional area of 3.31 mm2.
- -a) 1.941E-04 V/m
- -b) 2.135E-04 V/m
- -c) 2.349E-04 V/m
- -d) 2.584E-04 V/m
- +e) 2.842E-04 V/m
- +a) 1.660E+00 mA
- -b) 1.826E+00 mA
- -c) 2.009E+00 mA
- -d) 2.209E+00 mA
- -e) 2.430E+00 mA
- -a) 1.385E+01 s
- +b) 1.524E+01 s
- -c) 1.676E+01 s
- -d) 1.844E+01 s
- -e) 2.028E+01 s
Click these links for the keys:
Key: M1
edit- -a) 2.602E+01 μC
- -b) 2.862E+01 μC
- +c) 3.148E+01 μC
- -d) 3.463E+01 μC
- -e) 3.809E+01 μC
- -a) 1.560E+01 s
- -b) 1.716E+01 s
- +c) 1.887E+01 s
- -d) 2.076E+01 s
- -e) 2.284E+01 s
3) Calculate the electric field in a 12-gauge copper wire that is 25 m long and carries a current of 43 mA. The resistivity of copper is 1.680E-08 Ω·m and 12-gauge wire as a cross-sectional area of 3.31 mm2.
- +a) 2.182E-04 V/m
- -b) 2.401E-04 V/m
- -c) 2.641E-04 V/m
- -d) 2.905E-04 V/m
- -e) 3.195E-04 V/m
- -a) 2.281E+00 mA
- -b) 2.509E+00 mA
- -c) 2.760E+00 mA
- -d) 3.036E+00 mA
- +e) 3.340E+00 mA
- -a) 4.024E+01 N·m2/C
- +b) 4.426E+01 N·m2/C
- -c) 4.868E+01 N·m2/C
- -d) 5.355E+01 N·m2/C
- -e) 5.891E+01 N·m2/C
6) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=6, y=0), (x=0, y=3), and (x=6, y=3), where x and y are measured in meters. The electric field is,
- -a) 1.969E+02 V·m
- -b) 2.166E+02 V·m
- -c) 2.383E+02 V·m
- -d) 2.621E+02 V·m
- +e) 2.883E+02 V·m
- -a) 5.569E+01 degrees
- -b) 6.125E+01 degrees
- +c) 6.738E+01 degrees
- -d) 7.412E+01 degrees
- -e) 8.153E+01 degrees
- -a) 3.339E+09 N/C2
- -b) 3.673E+09 N/C2
- -c) 4.041E+09 N/C2
- +d) 4.445E+09 N/C2
- -e) 4.889E+09 N/C2
- -a) 3.070E+02 V
- -b) 3.377E+02 V
- -c) 3.715E+02 V
- -d) 4.086E+02 V
- +e) 4.495E+02 V
- -a) 1.900E-01 N
- -b) 2.090E-01 N
- -c) 2.299E-01 N
- +d) 2.529E-01 N
- -e) 2.781E-01 N
Click these links for the keys:
Key: M2
edit- -a) 1.825E+00 mA
- -b) 2.007E+00 mA
- +c) 2.208E+00 mA
- -d) 2.429E+00 mA
- -e) 2.672E+00 mA
- +a) 9.240E+00 s
- -b) 1.016E+01 s
- -c) 1.118E+01 s
- -d) 1.230E+01 s
- -e) 1.353E+01 s
- -a) 5.645E+02 V
- +b) 6.210E+02 V
- -c) 6.831E+02 V
- -d) 7.514E+02 V
- -e) 8.266E+02 V
- +a) 5.402E+09 N/C2
- -b) 5.943E+09 N/C2
- -c) 6.537E+09 N/C2
- -d) 7.191E+09 N/C2
- -e) 7.910E+09 N/C2
- -a) 3.712E+01 N·m2/C
- -b) 4.083E+01 N·m2/C
- +c) 4.491E+01 N·m2/C
- -d) 4.940E+01 N·m2/C
- -e) 5.434E+01 N·m2/C
6) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=5, y=0), (x=0, y=7), and (x=5, y=7), where x and y are measured in meters. The electric field is,
- -a) 1.997E+03 V·m
- +b) 2.197E+03 V·m
- -c) 2.417E+03 V·m
- -d) 2.659E+03 V·m
- -e) 2.924E+03 V·m
- +a) 6.298E+01 μC
- -b) 6.928E+01 μC
- -c) 7.621E+01 μC
- -d) 8.383E+01 μC
- -e) 9.221E+01 μC
8) Calculate the electric field in a 12-gauge copper wire that is 15 m long and carries a current of 85 mA. The resistivity of copper is 1.680E-08 Ω·m and 12-gauge wire as a cross-sectional area of 3.31 mm2.
- -a) 2.947E-04 V/m
- -b) 3.241E-04 V/m
- -c) 3.565E-04 V/m
- -d) 3.922E-04 V/m
- +e) 4.314E-04 V/m
- -a) 3.697E-01 N
- -b) 4.067E-01 N
- -c) 4.474E-01 N
- +d) 4.921E-01 N
- -e) 5.413E-01 N
- -a) 5.062E+01 degrees
- -b) 5.569E+01 degrees
- -c) 6.125E+01 degrees
- +d) 6.738E+01 degrees
- -e) 7.412E+01 degrees
Click these links for the keys:
Key: N0
edit1) A large thin isolated square plate has an area of 5 m2. It is uniformly charged with 8 nC of charge. What is the magnitude of the electric field 3 mm from the center of the plate's surface?
- -a) 6.171E+01 N/C
- -b) 6.788E+01 N/C
- -c) 7.467E+01 N/C
- -d) 8.214E+01 N/C
- +e) 9.035E+01 N/C
- -a) 1.202E+09 N/C2
- -b) 1.322E+09 N/C2
- -c) 1.454E+09 N/C2
- -d) 1.599E+09 N/C2
- +e) 1.759E+09 N/C2
- -a) 7.081E+01 N·m2/C
- -b) 7.789E+01 N·m2/C
- +c) 8.568E+01 N·m2/C
- -d) 9.425E+01 N·m2/C
- -e) 1.037E+02 N·m2/C
4) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 4.7 nano-Coulombs. What is the magnitude of the electric field at a distance of 4.2 m from the center of the shells?
- +a) 9.592E+00 N/C
- -b) 1.055E+01 N/C
- -c) 1.161E+01 N/C
- -d) 1.277E+01 N/C
- -e) 1.404E+01 N/C
- +a) 1.355E-01 N
- -b) 1.491E-01 N
- -c) 1.640E-01 N
- -d) 1.804E-01 N
- -e) 1.984E-01 N
6) Calculate the final speed of a free electron accelerated from rest through a potential difference of 19 V.
- -a) 1.942E+06 m/s
- -b) 2.137E+06 m/s
- -c) 2.350E+06 m/s
- +d) 2.585E+06 m/s
- -e) 2.844E+06 m/s
- -a) 4.255E+00 μF
- +b) 4.681E+00 μF
- -c) 5.149E+00 μF
- -d) 5.664E+00 μF
- -e) 6.230E+00 μF
8) Imagine a substance could be made into a very hot filament. Suppose the resitance is 5.88 Ω at a temperature of 87°C and that the temperature coefficient of expansion is 5.290E-03 (°C)−1). What is the resistance at a temperature of 547 °C?
- -a) 1.831E+01 Ω
- -b) 1.923E+01 Ω
- +c) 2.019E+01 Ω
- -d) 2.120E+01 Ω
- -e) 2.226E+01 Ω
- +a) 1.418E+01 W
- -b) 1.560E+01 W
- -c) 1.716E+01 W
- -d) 1.887E+01 W
- -e) 2.076E+01 W
10) A battery with a terminal voltage of 14.6 V is connected to a circuit consisting of 2 21.7 Ω resistors and one 14.4 Ω resistor. What is the voltage drop across the 14.4 Ω resistor?
- +a) 3.637E+00 V
- -b) 4.001E+00 V
- -c) 4.401E+00 V
- -d) 4.841E+00 V
- -e) 5.325E+00 V
Click these links for the keys:
Key: N1
edit- +a) 5.482E+00 μF
- -b) 6.030E+00 μF
- -c) 6.633E+00 μF
- -d) 7.296E+00 μF
- -e) 8.026E+00 μF
- +a) 1.355E-01 N
- -b) 1.491E-01 N
- -c) 1.640E-01 N
- -d) 1.804E-01 N
- -e) 1.984E-01 N
3) A large thin isolated square plate has an area of 6 m2. It is uniformly charged with 6 nC of charge. What is the magnitude of the electric field 2 mm from the center of the plate's surface?
- +a) 5.647E+01 N/C
- -b) 6.212E+01 N/C
- -c) 6.833E+01 N/C
- -d) 7.516E+01 N/C
- -e) 8.268E+01 N/C
- +a) 3.074E+01 N·m2/C
- -b) 3.382E+01 N·m2/C
- -c) 3.720E+01 N·m2/C
- -d) 4.092E+01 N·m2/C
- -e) 4.501E+01 N·m2/C
- -a) 8.489E+00 W
- -b) 9.338E+00 W
- +c) 1.027E+01 W
- -d) 1.130E+01 W
- -e) 1.243E+01 W
6) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 1.9 nano-Coulombs. What is the magnitude of the electric field at a distance of 2.1 m from the center of the shells?
- -a) 5.297E+00 N/C
- -b) 5.827E+00 N/C
- -c) 6.409E+00 N/C
- -d) 7.050E+00 N/C
- +e) 7.755E+00 N/C
7) A battery with a terminal voltage of 14.1 V is connected to a circuit consisting of 2 20.3 Ω resistors and one 13.1 Ω resistor. What is the voltage drop across the 13.1 Ω resistor?
- -a) 2.843E+00 V
- -b) 3.127E+00 V
- +c) 3.440E+00 V
- -d) 3.784E+00 V
- -e) 4.162E+00 V
8) Calculate the final speed of a free electron accelerated from rest through a potential difference of 74 V.
- -a) 4.638E+06 m/s
- +b) 5.102E+06 m/s
- -c) 5.612E+06 m/s
- -d) 6.173E+06 m/s
- -e) 6.791E+06 m/s
9) Imagine a substance could be made into a very hot filament. Suppose the resitance is 3.64 Ω at a temperature of 82°C and that the temperature coefficient of expansion is 4.530E-03 (°C)−1). What is the resistance at a temperature of 390 °C?
- -a) 7.532E+00 Ω
- -b) 7.908E+00 Ω
- -c) 8.303E+00 Ω
- +d) 8.719E+00 Ω
- -e) 9.155E+00 Ω
- -a) 3.339E+09 N/C2
- -b) 3.673E+09 N/C2
- -c) 4.041E+09 N/C2
- +d) 4.445E+09 N/C2
- -e) 4.889E+09 N/C2
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Key: N2
edit1) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 7.2 nano-Coulombs. What is the magnitude of the electric field at a distance of 4.6 m from the center of the shells?
- -a) 1.114E+01 N/C
- +b) 1.225E+01 N/C
- -c) 1.347E+01 N/C
- -d) 1.482E+01 N/C
- -e) 1.630E+01 N/C
2) Calculate the final speed of a free electron accelerated from rest through a potential difference of 6 V.
- -a) 1.091E+06 m/s
- -b) 1.201E+06 m/s
- -c) 1.321E+06 m/s
- +d) 1.453E+06 m/s
- -e) 1.598E+06 m/s
- -a) 1.190E+01 W
- -b) 1.309E+01 W
- +c) 1.440E+01 W
- -d) 1.584E+01 W
- -e) 1.742E+01 W
4) Imagine a substance could be made into a very hot filament. Suppose the resitance is 4.08 Ω at a temperature of 26°C and that the temperature coefficient of expansion is 4.800E-03 (°C)−1). What is the resistance at a temperature of 388 °C?
- -a) 1.064E+01 Ω
- +b) 1.117E+01 Ω
- -c) 1.173E+01 Ω
- -d) 1.231E+01 Ω
- -e) 1.293E+01 Ω
- +a) 5.434E-01 N
- -b) 5.977E-01 N
- -c) 6.575E-01 N
- -d) 7.233E-01 N
- -e) 7.956E-01 N
- -a) 4.730E+01 N·m2/C
- +b) 5.203E+01 N·m2/C
- -c) 5.723E+01 N·m2/C
- -d) 6.295E+01 N·m2/C
- -e) 6.925E+01 N·m2/C
7) A battery with a terminal voltage of 12.4 V is connected to a circuit consisting of 3 21.6 Ω resistors and one 12.1 Ω resistor. What is the voltage drop across the 12.1 Ω resistor?
- -a) 1.333E+00 V
- -b) 1.466E+00 V
- -c) 1.612E+00 V
- -d) 1.774E+00 V
- +e) 1.951E+00 V
- -a) 3.250E+00 μF
- -b) 3.575E+00 μF
- -c) 3.933E+00 μF
- -d) 4.326E+00 μF
- +e) 4.758E+00 μF
- +a) 3.159E+09 N/C2
- -b) 3.475E+09 N/C2
- -c) 3.823E+09 N/C2
- -d) 4.205E+09 N/C2
- -e) 4.626E+09 N/C2
10) A large thin isolated square plate has an area of 9 m2. It is uniformly charged with 8 nC of charge. What is the magnitude of the electric field 3 mm from the center of the plate's surface?
- -a) 3.428E+01 N/C
- -b) 3.771E+01 N/C
- -c) 4.148E+01 N/C
- -d) 4.563E+01 N/C
- +e) 5.020E+01 N/C
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Key: O0
edit1)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- -a) 8.933E+00 V/m2
- -b) 9.826E+00 V/m2
- +c) 1.081E+01 V/m2
- -d) 1.189E+01 V/m2
- -e) 1.308E+01 V/m2
2) A large thin isolated square plate has an area of 4 m2. It is uniformly charged with 5 nC of charge. What is the magnitude of the electric field 1 mm from the center of the plate's surface?
- -a) 4.821E+01 N/C
- -b) 5.303E+01 N/C
- -c) 5.834E+01 N/C
- -d) 6.417E+01 N/C
- +e) 7.059E+01 N/C
- -a) 4.730E+01 N·m2/C
- +b) 5.203E+01 N·m2/C
- -c) 5.723E+01 N·m2/C
- -d) 6.295E+01 N·m2/C
- -e) 6.925E+01 N·m2/C
4) A non-conducting sphere of radius R=1.2 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.6 (r≤R) where a=2 nC·m-1.4. What is the magnitude of the electric field at a distance of 0.76 m from the center?
- +a) 2.406E+01 N/C
- -b) 2.646E+01 N/C
- -c) 2.911E+01 N/C
- -d) 3.202E+01 N/C
- -e) 3.522E+01 N/C
5) Calculate the final speed of a free electron accelerated from rest through a potential difference of 46 V.
- -a) 3.022E+06 m/s
- -b) 3.324E+06 m/s
- -c) 3.657E+06 m/s
- +d) 4.023E+06 m/s
- -e) 4.425E+06 m/s
6) A 5 C charge is separated from a 12 C charge by distance of 10 cm. What is the work done by increasing this separation to 16 cm?
- -a) 1.381E-06 J
- -b) 1.519E-06 J
- -c) 1.671E-06 J
- -d) 1.838E-06 J
- +e) 2.022E-06 J
- -a) 2.702E+01 μC
- -b) 2.972E+01 μC
- +c) 3.269E+01 μC
- -d) 3.596E+01 μC
- -e) 3.956E+01 μC
8) Calculate the resistance of a 12-gauge copper wire that is 11 m long and carries a current of 94 mA. The resistivity of copper is 1.680E-08 Ω·m and 12-gauge wire as a cross-sectional area of 3.31 mm2.
- -a) 3.813E-02 Ω
- -b) 4.195E-02 Ω
- -c) 4.614E-02 Ω
- -d) 5.076E-02 Ω
- +e) 5.583E-02 Ω
- -a) 1.427E-01 A
- -b) 1.569E-01 A
- +c) 1.726E-01 A
- -d) 1.899E-01 A
- -e) 2.089E-01 A
- +a) 1.418E+01 W
- -b) 1.560E+01 W
- -c) 1.716E+01 W
- -d) 1.887E+01 W
- -e) 2.076E+01 W
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Key: O1
edit1)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- -a) 1.258E+00 V/m2
- -b) 1.384E+00 V/m2
- -c) 1.522E+00 V/m2
- +d) 1.674E+00 V/m2
- -e) 1.842E+00 V/m2
2) Calculate the resistance of a 12-gauge copper wire that is 30 m long and carries a current of 31 mA. The resistivity of copper is 1.680E-08 Ω·m and 12-gauge wire as a cross-sectional area of 3.31 mm2.
- -a) 1.384E-01 Ω
- +b) 1.523E-01 Ω
- -c) 1.675E-01 Ω
- -d) 1.842E-01 Ω
- -e) 2.027E-01 Ω
- -a) 1.701E-01 A
- +b) 1.871E-01 A
- -c) 2.058E-01 A
- -d) 2.264E-01 A
- -e) 2.490E-01 A
- +a) 1.418E+01 W
- -b) 1.560E+01 W
- -c) 1.716E+01 W
- -d) 1.887E+01 W
- -e) 2.076E+01 W
5) A large thin isolated square plate has an area of 6 m2. It is uniformly charged with 9 nC of charge. What is the magnitude of the electric field 3 mm from the center of the plate's surface?
- +a) 8.471E+01 N/C
- -b) 9.318E+01 N/C
- -c) 1.025E+02 N/C
- -d) 1.127E+02 N/C
- -e) 1.240E+02 N/C
6) A 7 C charge is separated from a 11 C charge by distance of 11 cm. What is the work done by increasing this separation to 19 cm?
- -a) 2.408E-06 J
- +b) 2.649E-06 J
- -c) 2.914E-06 J
- -d) 3.205E-06 J
- -e) 3.526E-06 J
- +a) 3.074E+01 N·m2/C
- -b) 3.382E+01 N·m2/C
- -c) 3.720E+01 N·m2/C
- -d) 4.092E+01 N·m2/C
- -e) 4.501E+01 N·m2/C
8) A non-conducting sphere of radius R=1.7 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.2 (r≤R) where a=3 nC·m-1.8. What is the magnitude of the electric field at a distance of 0.71 m from the center?
- +a) 3.797E+01 N/C
- -b) 4.177E+01 N/C
- -c) 4.595E+01 N/C
- -d) 5.054E+01 N/C
- -e) 5.560E+01 N/C
- -a) 2.515E+01 μC
- -b) 2.766E+01 μC
- -c) 3.043E+01 μC
- +d) 3.347E+01 μC
- -e) 3.682E+01 μC
10) Calculate the final speed of a free electron accelerated from rest through a potential difference of 83 V.
- -a) 4.466E+06 m/s
- -b) 4.912E+06 m/s
- +c) 5.403E+06 m/s
- -d) 5.944E+06 m/s
- -e) 6.538E+06 m/s
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Key: O2
edit- -a) 1.446E+01 W
- -b) 1.591E+01 W
- -c) 1.750E+01 W
- -d) 1.925E+01 W
- +e) 2.117E+01 W
2) A non-conducting sphere of radius R=1.7 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.2 (r≤R) where a=3 nC·m-1.8. What is the magnitude of the electric field at a distance of 0.71 m from the center?
- +a) 3.797E+01 N/C
- -b) 4.177E+01 N/C
- -c) 4.595E+01 N/C
- -d) 5.054E+01 N/C
- -e) 5.560E+01 N/C
3) Calculate the final speed of a free electron accelerated from rest through a potential difference of 45 V.
- -a) 3.617E+06 m/s
- +b) 3.979E+06 m/s
- -c) 4.376E+06 m/s
- -d) 4.814E+06 m/s
- -e) 5.296E+06 m/s
- -a) 1.552E-01 A
- -b) 1.707E-01 A
- -c) 1.878E-01 A
- -d) 2.065E-01 A
- +e) 2.272E-01 A
- -a) 2.451E+01 μC
- -b) 2.696E+01 μC
- -c) 2.966E+01 μC
- -d) 3.262E+01 μC
- +e) 3.589E+01 μC
6)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- -a) 4.961E-01 V/m2
- -b) 5.457E-01 V/m2
- -c) 6.002E-01 V/m2
- -d) 6.603E-01 V/m2
- +e) 7.263E-01 V/m2
7) A large thin isolated square plate has an area of 9 m2. It is uniformly charged with 6 nC of charge. What is the magnitude of the electric field 1 mm from the center of the plate's surface?
- -a) 2.571E+01 N/C
- -b) 2.828E+01 N/C
- -c) 3.111E+01 N/C
- -d) 3.422E+01 N/C
- +e) 3.765E+01 N/C
8) A 7 C charge is separated from a 12 C charge by distance of 9 cm. What is the work done by increasing this separation to 15 cm?
- -a) 2.292E-06 J
- -b) 2.521E-06 J
- -c) 2.773E-06 J
- -d) 3.050E-06 J
- +e) 3.355E-06 J
- -a) 3.328E+01 N·m2/C
- -b) 3.660E+01 N·m2/C
- -c) 4.026E+01 N·m2/C
- -d) 4.429E+01 N·m2/C
- +e) 4.872E+01 N·m2/C
10) Calculate the resistance of a 12-gauge copper wire that is 52 m long and carries a current of 99 mA. The resistivity of copper is 1.680E-08 Ω·m and 12-gauge wire as a cross-sectional area of 3.31 mm2.
- -a) 1.983E-01 Ω
- -b) 2.181E-01 Ω
- -c) 2.399E-01 Ω
- +d) 2.639E-01 Ω
- -e) 2.903E-01 Ω
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Key: P0
edit- -a) 3.426E-15 N
- -b) 3.768E-15 N
- -c) 4.145E-15 N
- -d) 4.560E-15 N
- +e) 5.015E-15 N
- -a) 5.581E+09 N/C2
- -b) 6.139E+09 N/C2
- +c) 6.753E+09 N/C2
- -d) 7.428E+09 N/C2
- -e) 8.171E+09 N/C2
- +a) 8.314E+01 N·m2/C
- -b) 9.146E+01 N·m2/C
- -c) 1.006E+02 N·m2/C
- -d) 1.107E+02 N·m2/C
- -e) 1.217E+02 N·m2/C
- +a) 6.192E+01 N·m2/C
- -b) 6.811E+01 N·m2/C
- -c) 7.492E+01 N·m2/C
- -d) 8.242E+01 N·m2/C
- -e) 9.066E+01 N·m2/C
5) Two large parallel conducting plates are separated by 8.13 mm. Equal and opposite surface charges of 7.540E-07 C/m2 exist on the surfaces between the plates. What is the distance between equipotential planes which differ by 92 V?
- -a) 9.394E-01 mm
- +b) 1.080E+00 mm
- -c) 1.242E+00 mm
- -d) 1.429E+00 mm
- -e) 1.643E+00 mm
6) Assume that a 11 nC charge is situated at the origin. Calculate the the magnitude (absolute value) of the potential difference between points P1 and P2 where the polar coordinates (r,φ) of P1 are (9 cm, 0°) and P2 is at (12 cm, 14°).
- -a) 1.876E+02 V
- -b) 2.063E+02 V
- -c) 2.270E+02 V
- -d) 2.497E+02 V
- +e) 2.746E+02 V
7) An empty parallel-plate capacitor with metal plates has an area of 2.66 m2, separated by 1.18 mm. How much charge does it store if the voltage is 6.170E+03 V?
- +a) 1.231E+02 μC
- -b) 1.355E+02 μC
- -c) 1.490E+02 μC
- -d) 1.639E+02 μC
- -e) 1.803E+02 μC
8) What is the average current involved when a truck battery sets in motion 728 C of charge in 3.94 s while starting an engine?
- +a) 1.848E+02 A
- -b) 2.032E+02 A
- -c) 2.236E+02 A
- -d) 2.459E+02 A
- -e) 2.705E+02 A
- -a) 1.013E+01 V
- -b) 1.115E+01 V
- -c) 1.226E+01 V
- +d) 1.349E+01 V
- -e) 1.484E+01 V
10) Three resistors, R1 = 1.52 Ω, and R2 = R2 = 3.38 Ω, are connected in parallel to a 5.82 V voltage source. Calculate the power dissipated by the smaller resistor (R1.)
- -a) 1.842E+01 W
- -b) 2.026E+01 W
- +c) 2.228E+01 W
- -d) 2.451E+01 W
- -e) 2.696E+01 W
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Key: P1
edit- -a) 3.391E-14 N
- -b) 3.731E-14 N
- -c) 4.104E-14 N
- +d) 4.514E-14 N
- -e) 4.965E-14 N
2) What is the average current involved when a truck battery sets in motion 821 C of charge in 5.51 s while starting an engine?
- -a) 1.231E+02 A
- -b) 1.355E+02 A
- +c) 1.490E+02 A
- -d) 1.639E+02 A
- -e) 1.803E+02 A
- -a) 1.737E+01 N·m2/C
- -b) 1.910E+01 N·m2/C
- -c) 2.101E+01 N·m2/C
- -d) 2.311E+01 N·m2/C
- +e) 2.543E+01 N·m2/C
4) Three resistors, R1 = 1.52 Ω, and R2 = R2 = 3.38 Ω, are connected in parallel to a 5.82 V voltage source. Calculate the power dissipated by the smaller resistor (R1.)
- -a) 1.842E+01 W
- -b) 2.026E+01 W
- +c) 2.228E+01 W
- -d) 2.451E+01 W
- -e) 2.696E+01 W
- -a) 8.945E+00 V
- +b) 9.840E+00 V
- -c) 1.082E+01 V
- -d) 1.191E+01 V
- -e) 1.310E+01 V
- -a) 6.925E+09 N/C2
- -b) 7.617E+09 N/C2
- +c) 8.379E+09 N/C2
- -d) 9.217E+09 N/C2
- -e) 1.014E+10 N/C2
7) Two large parallel conducting plates are separated by 6.95 mm. Equal and opposite surface charges of 7.360E-07 C/m2 exist on the surfaces between the plates. What is the distance between equipotential planes which differ by 83 V?
- -a) 6.565E-01 mm
- -b) 7.550E-01 mm
- -c) 8.683E-01 mm
- +d) 9.985E-01 mm
- -e) 1.148E+00 mm
8) An empty parallel-plate capacitor with metal plates has an area of 1.94 m2, separated by 1.36 mm. How much charge does it store if the voltage is 8.530E+03 V?
- -a) 7.359E+01 μC
- -b) 8.094E+01 μC
- -c) 8.904E+01 μC
- -d) 9.794E+01 μC
- +e) 1.077E+02 μC
9) Assume that a 25 nC charge is situated at the origin. Calculate the the magnitude (absolute value) of the potential difference between points P1 and P2 where the polar coordinates (r,φ) of P1 are (5 cm, 0°) and P2 is at (13 cm, 70°).
- -a) 2.285E+03 V
- -b) 2.514E+03 V
- +c) 2.765E+03 V
- -d) 3.042E+03 V
- -e) 3.346E+03 V
- -a) 3.328E+01 N·m2/C
- -b) 3.660E+01 N·m2/C
- -c) 4.026E+01 N·m2/C
- -d) 4.429E+01 N·m2/C
- +e) 4.872E+01 N·m2/C
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Key: P2
edit- -a) 3.436E+00 V
- -b) 3.779E+00 V
- -c) 4.157E+00 V
- -d) 4.573E+00 V
- +e) 5.030E+00 V
- -a) 2.429E+09 N/C2
- +b) 2.672E+09 N/C2
- -c) 2.939E+09 N/C2
- -d) 3.233E+09 N/C2
- -e) 3.556E+09 N/C2
3) Three resistors, R1 = 0.61 Ω, and R2 = R2 = 1.35 Ω, are connected in parallel to a 7.04 V voltage source. Calculate the power dissipated by the smaller resistor (R1.)
- -a) 7.386E+01 W
- +b) 8.125E+01 W
- -c) 8.937E+01 W
- -d) 9.831E+01 W
- -e) 1.081E+02 W
4) Assume that a 17 nC charge is situated at the origin. Calculate the the magnitude (absolute value) of the potential difference between points P1 and P2 where the polar coordinates (r,φ) of P1 are (9 cm, 0°) and P2 is at (12 cm, 15°).
- +a) 4.244E+02 V
- -b) 4.669E+02 V
- -c) 5.135E+02 V
- -d) 5.649E+02 V
- -e) 6.214E+02 V
- -a) 1.308E-13 N
- -b) 1.439E-13 N
- -c) 1.583E-13 N
- +d) 1.741E-13 N
- -e) 1.915E-13 N
6) An empty parallel-plate capacitor with metal plates has an area of 2.42 m2, separated by 1.33 mm. How much charge does it store if the voltage is 1.130E+03 V?
- -a) 1.368E+01 μC
- -b) 1.505E+01 μC
- -c) 1.655E+01 μC
- +d) 1.820E+01 μC
- -e) 2.003E+01 μC
- -a) 4.730E+01 N·m2/C
- +b) 5.203E+01 N·m2/C
- -c) 5.723E+01 N·m2/C
- -d) 6.295E+01 N·m2/C
- -e) 6.925E+01 N·m2/C
8) Two large parallel conducting plates are separated by 7.93 mm. Equal and opposite surface charges of 7.720E-07 C/m2 exist on the surfaces between the plates. What is the distance between equipotential planes which differ by 77 V?
- -a) 6.678E-01 mm
- -b) 7.679E-01 mm
- +c) 8.831E-01 mm
- -d) 1.016E+00 mm
- -e) 1.168E+00 mm
9) What is the average current involved when a truck battery sets in motion 618 C of charge in 2.28 s while starting an engine?
- -a) 2.240E+02 A
- -b) 2.464E+02 A
- +c) 2.711E+02 A
- -d) 2.982E+02 A
- -e) 3.280E+02 A
- -a) 5.439E+01 N·m2/C
- -b) 5.983E+01 N·m2/C
- -c) 6.581E+01 N·m2/C
- +d) 7.239E+01 N·m2/C
- -e) 7.963E+01 N·m2/C
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Key: Q0
edit1) A large thin isolated square plate has an area of 8 m2. It is uniformly charged with 7 nC of charge. What is the magnitude of the electric field 3 mm from the center of the plate's surface?
- -a) 4.492E+01 N/C
- +b) 4.941E+01 N/C
- -c) 5.435E+01 N/C
- -d) 5.979E+01 N/C
- -e) 6.577E+01 N/C
- -a) 5.243E+01 degrees
- -b) 5.767E+01 degrees
- +c) 6.343E+01 degrees
- -d) 6.978E+01 degrees
- -e) 7.676E+01 degrees
3) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=7, y=0), (x=0, y=7), and (x=7, y=7), where x and y are measured in meters. The electric field is,
- -a) 8.731E+02 V·m
- -b) 9.604E+02 V·m
- -c) 1.056E+03 V·m
- +d) 1.162E+03 V·m
- -e) 1.278E+03 V·m
4) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 7.8 nano-Coulombs. What is the magnitude of the electric field at a distance of 1.3 m from the center of the shells?
- -a) 2.837E+01 N/C
- -b) 3.121E+01 N/C
- -c) 3.433E+01 N/C
- -d) 3.776E+01 N/C
- +e) 4.154E+01 N/C
5) A 12.0 V battery can move 35,000 C of charge. How many Joules does it deliver?
- +a) 4.200E+05 J
- -b) 4.620E+05 J
- -c) 5.082E+05 J
- -d) 5.590E+05 J
- -e) 6.149E+05 J
- -a) 9.129E+00 μC
- +b) 1.004E+01 μC
- -c) 1.105E+01 μC
- -d) 1.215E+01 μC
- -e) 1.337E+01 μC
7) An empty parallel-plate capacitor with metal plates has an area of 2.83 m2, separated by 1.14 mm. How much charge does it store if the voltage is 4.180E+03 V?
- -a) 6.275E+01 μC
- -b) 6.903E+01 μC
- -c) 7.593E+01 μC
- -d) 8.352E+01 μC
- +e) 9.188E+01 μC
8) Calculate the resistance of a 12-gauge copper wire that is 81 m long and carries a current of 32 mA. The resistivity of copper is 1.680E-08 Ω·m and 12-gauge wire as a cross-sectional area of 3.31 mm2.
- -a) 3.737E-01 Ω
- +b) 4.111E-01 Ω
- -c) 4.522E-01 Ω
- -d) 4.975E-01 Ω
- -e) 5.472E-01 Ω
- +a) 1.085E+00 mA
- -b) 1.194E+00 mA
- -c) 1.313E+00 mA
- -d) 1.444E+00 mA
- -e) 1.589E+00 mA
- +a) 1.285E-01 A
- -b) 1.414E-01 A
- -c) 1.555E-01 A
- -d) 1.711E-01 A
- -e) 1.882E-01 A
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Key: Q1
edit- +a) 1.721E-01 A
- -b) 1.893E-01 A
- -c) 2.082E-01 A
- -d) 2.291E-01 A
- -e) 2.520E-01 A
2) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=4, y=0), (x=0, y=9), and (x=4, y=9), where x and y are measured in meters. The electric field is,
- -a) 7.054E+03 V·m
- -b) 7.759E+03 V·m
- -c) 8.535E+03 V·m
- -d) 9.388E+03 V·m
- +e) 1.033E+04 V·m
- -a) 3.055E+00 mA
- +b) 3.360E+00 mA
- -c) 3.696E+00 mA
- -d) 4.066E+00 mA
- -e) 4.472E+00 mA
4) Calculate the resistance of a 12-gauge copper wire that is 13 m long and carries a current of 22 mA. The resistivity of copper is 1.680E-08 Ω·m and 12-gauge wire as a cross-sectional area of 3.31 mm2.
- -a) 4.957E-02 Ω
- -b) 5.453E-02 Ω
- -c) 5.998E-02 Ω
- +d) 6.598E-02 Ω
- -e) 7.258E-02 Ω
5) An empty parallel-plate capacitor with metal plates has an area of 2.02 m2, separated by 1.44 mm. How much charge does it store if the voltage is 2.170E+03 V?
- -a) 2.450E+01 μC
- +b) 2.695E+01 μC
- -c) 2.965E+01 μC
- -d) 3.261E+01 μC
- -e) 3.587E+01 μC
6) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 6.4 nano-Coulombs. What is the magnitude of the electric field at a distance of 1.1 m from the center of the shells?
- -a) 3.251E+01 N/C
- -b) 3.577E+01 N/C
- -c) 3.934E+01 N/C
- -d) 4.328E+01 N/C
- +e) 4.760E+01 N/C
7) A large thin isolated square plate has an area of 6 m2. It is uniformly charged with 5 nC of charge. What is the magnitude of the electric field 2 mm from the center of the plate's surface?
- -a) 3.214E+01 N/C
- -b) 3.536E+01 N/C
- -c) 3.889E+01 N/C
- -d) 4.278E+01 N/C
- +e) 4.706E+01 N/C
- -a) 1.539E+01 μC
- -b) 1.693E+01 μC
- +c) 1.863E+01 μC
- -d) 2.049E+01 μC
- -e) 2.254E+01 μC
9) A 12.0 V battery can move 26,000 C of charge. How many Joules does it deliver?
- -a) 2.836E+05 J
- +b) 3.120E+05 J
- -c) 3.432E+05 J
- -d) 3.775E+05 J
- -e) 4.153E+05 J
- -a) 4.357E+01 degrees
- -b) 4.793E+01 degrees
- -c) 5.272E+01 degrees
- +d) 5.799E+01 degrees
- -e) 6.379E+01 degrees
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Key: Q2
edit1) Calculate the resistance of a 12-gauge copper wire that is 59 m long and carries a current of 26 mA. The resistivity of copper is 1.680E-08 Ω·m and 12-gauge wire as a cross-sectional area of 3.31 mm2.
- +a) 2.995E-01 Ω
- -b) 3.294E-01 Ω
- -c) 3.623E-01 Ω
- -d) 3.986E-01 Ω
- -e) 4.384E-01 Ω
2) An empty parallel-plate capacitor with metal plates has an area of 2.66 m2, separated by 1.18 mm. How much charge does it store if the voltage is 6.170E+03 V?
- +a) 1.231E+02 μC
- -b) 1.355E+02 μC
- -c) 1.490E+02 μC
- -d) 1.639E+02 μC
- -e) 1.803E+02 μC
- -a) 1.193E+01 μC
- -b) 1.312E+01 μC
- -c) 1.443E+01 μC
- +d) 1.588E+01 μC
- -e) 1.746E+01 μC
4) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=6, y=0), (x=0, y=3), and (x=6, y=3), where x and y are measured in meters. The electric field is,
- -a) 1.969E+02 V·m
- -b) 2.166E+02 V·m
- -c) 2.383E+02 V·m
- -d) 2.621E+02 V·m
- +e) 2.883E+02 V·m
- +a) 2.247E+00 mA
- -b) 2.472E+00 mA
- -c) 2.719E+00 mA
- -d) 2.991E+00 mA
- -e) 3.290E+00 mA
- -a) 5.377E+01 degrees
- -b) 5.914E+01 degrees
- -c) 6.506E+01 degrees
- +d) 7.157E+01 degrees
- -e) 7.872E+01 degrees
7) A large thin isolated square plate has an area of 5 m2. It is uniformly charged with 7 nC of charge. What is the magnitude of the electric field 1 mm from the center of the plate's surface?
- -a) 6.534E+01 N/C
- -b) 7.187E+01 N/C
- +c) 7.906E+01 N/C
- -d) 8.696E+01 N/C
- -e) 9.566E+01 N/C
8) A 12.0 V battery can move 24,000 C of charge. How many Joules does it deliver?
- -a) 1.967E+05 J
- -b) 2.164E+05 J
- -c) 2.380E+05 J
- -d) 2.618E+05 J
- +e) 2.880E+05 J
9) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 6.5 nano-Coulombs. What is the magnitude of the electric field at a distance of 1.3 m from the center of the shells?
- -a) 2.601E+01 N/C
- -b) 2.861E+01 N/C
- -c) 3.147E+01 N/C
- +d) 3.462E+01 N/C
- -e) 3.808E+01 N/C
- -a) 1.886E-01 A
- +b) 2.075E-01 A
- -c) 2.282E-01 A
- -d) 2.510E-01 A
- -e) 2.761E-01 A
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Key: R0
edit- -a) 5.014E-14 N
- -b) 5.515E-14 N
- -c) 6.067E-14 N
- -d) 6.674E-14 N
- +e) 7.341E-14 N
- -a) 7.119E+09 N/C2
- -b) 7.831E+09 N/C2
- +c) 8.614E+09 N/C2
- -d) 9.476E+09 N/C2
- -e) 1.042E+10 N/C2
- -a) 2.901E+01 N·m2/C
- -b) 3.192E+01 N·m2/C
- -c) 3.511E+01 N·m2/C
- -d) 3.862E+01 N·m2/C
- +e) 4.248E+01 N·m2/C
4) A non-conducting sphere of radius R=3.8 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=2 nC·m-1.5. What is the magnitude of the electric field at a distance of 3.0 m from the center?
- +a) 7.825E+02 N/C
- -b) 8.607E+02 N/C
- -c) 9.468E+02 N/C
- -d) 1.041E+03 N/C
- -e) 1.146E+03 N/C
- -a) 9.216E+00 μC
- -b) 1.014E+01 μC
- -c) 1.115E+01 μC
- +d) 1.227E+01 μC
- -e) 1.349E+01 μC
6) If a 21 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=94 V is x2 + y2 + z2 = R2, where R=
- -a) 1.371E+00 m
- -b) 1.509E+00 m
- -c) 1.659E+00 m
- -d) 1.825E+00 m
- +e) 2.008E+00 m
- +a) 4.139E+00 μF
- -b) 4.553E+00 μF
- -c) 5.008E+00 μF
- -d) 5.509E+00 μF
- -e) 6.060E+00 μF
8) Imagine a substance could be made into a very hot filament. Suppose the resitance is 5.89 Ω at a temperature of 43°C and that the temperature coefficient of expansion is 4.400E-03 (°C)−1). What is the resistance at a temperature of 398 °C?
- -a) 1.369E+01 Ω
- -b) 1.437E+01 Ω
- +c) 1.509E+01 Ω
- -d) 1.584E+01 Ω
- -e) 1.664E+01 Ω
9) A battery with a terminal voltage of 14.6 V is connected to a circuit consisting of 2 21.7 Ω resistors and one 14.4 Ω resistor. What is the voltage drop across the 14.4 Ω resistor?
- +a) 3.637E+00 V
- -b) 4.001E+00 V
- -c) 4.401E+00 V
- -d) 4.841E+00 V
- -e) 5.325E+00 V
10) Three resistors, R1 = 1.43 Ω, and R2 = R2 = 3.25 Ω, are connected in parallel to a 9.03 V voltage source. Calculate the power dissipated by the smaller resistor (R1.)
- -a) 5.184E+01 W
- +b) 5.702E+01 W
- -c) 6.272E+01 W
- -d) 6.900E+01 W
- -e) 7.590E+01 W
Click these links for the keys:
Key: R1
edit- -a) 5.445E+00 μF
- +b) 5.990E+00 μF
- -c) 6.589E+00 μF
- -d) 7.247E+00 μF
- -e) 7.972E+00 μF
- -a) 1.202E+09 N/C2
- -b) 1.322E+09 N/C2
- -c) 1.454E+09 N/C2
- -d) 1.599E+09 N/C2
- +e) 1.759E+09 N/C2
3) A non-conducting sphere of radius R=3.1 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.2 (r≤R) where a=2 nC·m-1.8. What is the magnitude of the electric field at a distance of 2.7 m from the center?
- +a) 4.782E+02 N/C
- -b) 5.260E+02 N/C
- -c) 5.787E+02 N/C
- -d) 6.365E+02 N/C
- -e) 7.002E+02 N/C
4) A battery with a terminal voltage of 9.88 V is connected to a circuit consisting of 3 15.9 Ω resistors and one 10.8 Ω resistor. What is the voltage drop across the 10.8 Ω resistor?
- -a) 1.370E+00 V
- -b) 1.507E+00 V
- -c) 1.658E+00 V
- +d) 1.824E+00 V
- -e) 2.006E+00 V
- -a) 3.391E-14 N
- -b) 3.731E-14 N
- -c) 4.104E-14 N
- +d) 4.514E-14 N
- -e) 4.965E-14 N
6) Three resistors, R1 = 0.548 Ω, and R2 = R2 = 1.24 Ω, are connected in parallel to a 7.16 V voltage source. Calculate the power dissipated by the smaller resistor (R1.)
- -a) 7.029E+01 W
- -b) 7.731E+01 W
- -c) 8.505E+01 W
- +d) 9.355E+01 W
- -e) 1.029E+02 W
- -a) 2.079E+01 N·m2/C
- -b) 2.287E+01 N·m2/C
- -c) 2.516E+01 N·m2/C
- +d) 2.768E+01 N·m2/C
- -e) 3.044E+01 N·m2/C
- -a) 9.129E+00 μC
- +b) 1.004E+01 μC
- -c) 1.105E+01 μC
- -d) 1.215E+01 μC
- -e) 1.337E+01 μC
9) If a 11 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=43 V is x2 + y2 + z2 = R2, where R=
- +a) 2.299E+00 m
- -b) 2.529E+00 m
- -c) 2.782E+00 m
- -d) 3.060E+00 m
- -e) 3.366E+00 m
10) Imagine a substance could be made into a very hot filament. Suppose the resitance is 1.98 Ω at a temperature of 92°C and that the temperature coefficient of expansion is 5.080E-03 (°C)−1). What is the resistance at a temperature of 455 °C?
- -a) 5.363E+00 Ω
- +b) 5.631E+00 Ω
- -c) 5.913E+00 Ω
- -d) 6.208E+00 Ω
- -e) 6.519E+00 Ω
Click these links for the keys:
Key: R2
edit- -a) 1.740E+01 N·m2/C
- -b) 1.914E+01 N·m2/C
- -c) 2.106E+01 N·m2/C
- -d) 2.316E+01 N·m2/C
- +e) 2.548E+01 N·m2/C
2) Imagine a substance could be made into a very hot filament. Suppose the resitance is 4.08 Ω at a temperature of 26°C and that the temperature coefficient of expansion is 4.800E-03 (°C)−1). What is the resistance at a temperature of 388 °C?
- -a) 1.064E+01 Ω
- +b) 1.117E+01 Ω
- -c) 1.173E+01 Ω
- -d) 1.231E+01 Ω
- -e) 1.293E+01 Ω
- -a) 4.173E+00 μF
- -b) 4.590E+00 μF
- -c) 5.049E+00 μF
- +d) 5.554E+00 μF
- -e) 6.110E+00 μF
- -a) 1.202E+09 N/C2
- -b) 1.322E+09 N/C2
- -c) 1.454E+09 N/C2
- -d) 1.599E+09 N/C2
- +e) 1.759E+09 N/C2
- +a) 9.883E+00 μC
- -b) 1.087E+01 μC
- -c) 1.196E+01 μC
- -d) 1.315E+01 μC
- -e) 1.447E+01 μC
- -a) 1.308E-13 N
- -b) 1.439E-13 N
- -c) 1.583E-13 N
- +d) 1.741E-13 N
- -e) 1.915E-13 N
7) If a 19 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=73 V is x2 + y2 + z2 = R2, where R=
- -a) 1.598E+00 m
- -b) 1.757E+00 m
- -c) 1.933E+00 m
- -d) 2.127E+00 m
- +e) 2.339E+00 m
8) Three resistors, R1 = 0.87 Ω, and R2 = R2 = 2.0 Ω, are connected in parallel to a 8.57 V voltage source. Calculate the power dissipated by the smaller resistor (R1.)
- -a) 6.977E+01 W
- -b) 7.674E+01 W
- +c) 8.442E+01 W
- -d) 9.286E+01 W
- -e) 1.021E+02 W
9) A battery with a terminal voltage of 7.63 V is connected to a circuit consisting of 3 20.9 Ω resistors and one 12.1 Ω resistor. What is the voltage drop across the 12.1 Ω resistor?
- +a) 1.234E+00 V
- -b) 1.358E+00 V
- -c) 1.493E+00 V
- -d) 1.643E+00 V
- -e) 1.807E+00 V
10) A non-conducting sphere of radius R=1.7 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.2 (r≤R) where a=3 nC·m-1.8. What is the magnitude of the electric field at a distance of 0.71 m from the center?
- +a) 3.797E+01 N/C
- -b) 4.177E+01 N/C
- -c) 4.595E+01 N/C
- -d) 5.054E+01 N/C
- -e) 5.560E+01 N/C
Click these links for the keys:
Key: S0
edit- -a) 6.925E+09 N/C2
- -b) 7.617E+09 N/C2
- +c) 8.379E+09 N/C2
- -d) 9.217E+09 N/C2
- -e) 1.014E+10 N/C2
2)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- -a) 3.722E-01 V/m2
- -b) 4.094E-01 V/m2
- -c) 4.504E-01 V/m2
- +d) 4.954E-01 V/m2
- -e) 5.450E-01 V/m2
3) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 7.6 nano-Coulombs. What is the magnitude of the electric field at a distance of 5.8 m from the center of the shells?
- +a) 1.017E+01 N/C
- -b) 1.118E+01 N/C
- -c) 1.230E+01 N/C
- -d) 1.353E+01 N/C
- -e) 1.488E+01 N/C
- -a) 3.712E+01 N·m2/C
- -b) 4.083E+01 N·m2/C
- +c) 4.491E+01 N·m2/C
- -d) 4.940E+01 N·m2/C
- -e) 5.434E+01 N·m2/C
5) A 3 C charge is separated from a 11 C charge by distance of 12 cm. What is the work done by increasing this separation to 19 cm?
- -a) 8.278E-07 J
- +b) 9.106E-07 J
- -c) 1.002E-06 J
- -d) 1.102E-06 J
- -e) 1.212E-06 J
6) Calculate the final speed of a free electron accelerated from rest through a potential difference of 12 V.
- -a) 1.544E+06 m/s
- -b) 1.698E+06 m/s
- -c) 1.868E+06 m/s
- +d) 2.055E+06 m/s
- -e) 2.260E+06 m/s
- -a) 6.011E+01 μC
- +b) 6.613E+01 μC
- -c) 7.274E+01 μC
- -d) 8.001E+01 μC
- -e) 8.801E+01 μC
8) What is the average current involved when a truck battery sets in motion 669 C of charge in 4.3 s while starting an engine?
- -a) 1.063E+02 A
- -b) 1.169E+02 A
- -c) 1.286E+02 A
- -d) 1.414E+02 A
- +e) 1.556E+02 A
- -a) 8.240E+00 W
- -b) 9.064E+00 W
- -c) 9.970E+00 W
- -d) 1.097E+01 W
- +e) 1.206E+01 W
- -a) 9.718E+00 s
- -b) 1.069E+01 s
- +c) 1.176E+01 s
- -d) 1.293E+01 s
- -e) 1.423E+01 s
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Key: S1
edit- +a) 2.240E+01 W
- -b) 2.464E+01 W
- -c) 2.710E+01 W
- -d) 2.981E+01 W
- -e) 3.279E+01 W
2) What is the average current involved when a truck battery sets in motion 618 C of charge in 2.28 s while starting an engine?
- -a) 2.240E+02 A
- -b) 2.464E+02 A
- +c) 2.711E+02 A
- -d) 2.982E+02 A
- -e) 3.280E+02 A
3)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- -a) 9.459E+00 V/m2
- +b) 1.040E+01 V/m2
- -c) 1.145E+01 V/m2
- -d) 1.259E+01 V/m2
- -e) 1.385E+01 V/m2
4) Calculate the final speed of a free electron accelerated from rest through a potential difference of 56 V.
- -a) 3.031E+06 m/s
- -b) 3.335E+06 m/s
- -c) 3.668E+06 m/s
- -d) 4.035E+06 m/s
- +e) 4.438E+06 m/s
- -a) 2.385E+01 μC
- -b) 2.623E+01 μC
- -c) 2.886E+01 μC
- -d) 3.174E+01 μC
- +e) 3.492E+01 μC
6) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 4.7 nano-Coulombs. What is the magnitude of the electric field at a distance of 4.2 m from the center of the shells?
- +a) 9.592E+00 N/C
- -b) 1.055E+01 N/C
- -c) 1.161E+01 N/C
- -d) 1.277E+01 N/C
- -e) 1.404E+01 N/C
- +a) 8.336E+09 N/C2
- -b) 9.170E+09 N/C2
- -c) 1.009E+10 N/C2
- -d) 1.110E+10 N/C2
- -e) 1.220E+10 N/C2
- -a) 9.024E+00 s
- -b) 9.927E+00 s
- -c) 1.092E+01 s
- +d) 1.201E+01 s
- -e) 1.321E+01 s
9) A 2 C charge is separated from a 10 C charge by distance of 8 cm. What is the work done by increasing this separation to 14 cm?
- -a) 8.754E-07 J
- +b) 9.630E-07 J
- -c) 1.059E-06 J
- -d) 1.165E-06 J
- -e) 1.282E-06 J
- -a) 6.920E+01 N·m2/C
- -b) 7.612E+01 N·m2/C
- -c) 8.373E+01 N·m2/C
- +d) 9.210E+01 N·m2/C
- -e) 1.013E+02 N·m2/C
Click these links for the keys:
Key: S2
edit- -a) 2.470E+01 W
- +b) 2.717E+01 W
- -c) 2.989E+01 W
- -d) 3.288E+01 W
- -e) 3.617E+01 W
- -a) 2.451E+01 μC
- -b) 2.696E+01 μC
- -c) 2.966E+01 μC
- -d) 3.262E+01 μC
- +e) 3.589E+01 μC
3) A 7 C charge is separated from a 12 C charge by distance of 11 cm. What is the work done by increasing this separation to 19 cm?
- +a) 2.890E-06 J
- -b) 3.179E-06 J
- -c) 3.497E-06 J
- -d) 3.846E-06 J
- -e) 4.231E-06 J
- -a) 4.809E+01 N·m2/C
- -b) 5.290E+01 N·m2/C
- +c) 5.819E+01 N·m2/C
- -d) 6.401E+01 N·m2/C
- -e) 7.041E+01 N·m2/C
5) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 2.8 nano-Coulombs. What is the magnitude of the electric field at a distance of 4.8 m from the center of the shells?
- -a) 2.988E+00 N/C
- -b) 3.287E+00 N/C
- -c) 3.616E+00 N/C
- -d) 3.977E+00 N/C
- +e) 4.375E+00 N/C
6) What is the average current involved when a truck battery sets in motion 738 C of charge in 3.87 s while starting an engine?
- +a) 1.907E+02 A
- -b) 2.098E+02 A
- -c) 2.307E+02 A
- -d) 2.538E+02 A
- -e) 2.792E+02 A
- -a) 2.429E+09 N/C2
- +b) 2.672E+09 N/C2
- -c) 2.939E+09 N/C2
- -d) 3.233E+09 N/C2
- -e) 3.556E+09 N/C2
8) Calculate the final speed of a free electron accelerated from rest through a potential difference of 81 V.
- -a) 4.411E+06 m/s
- -b) 4.853E+06 m/s
- +c) 5.338E+06 m/s
- -d) 5.872E+06 m/s
- -e) 6.459E+06 m/s
9)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- -a) 8.924E-01 V/m2
- -b) 9.816E-01 V/m2
- +c) 1.080E+00 V/m2
- -d) 1.188E+00 V/m2
- -e) 1.307E+00 V/m2
- -a) 3.224E+01 s
- +b) 3.547E+01 s
- -c) 3.902E+01 s
- -d) 4.292E+01 s
- -e) 4.721E+01 s
Click these links for the keys:
Key: T0
edit- -a) 9.750E-15 N
- -b) 1.072E-14 N
- -c) 1.180E-14 N
- -d) 1.298E-14 N
- +e) 1.427E-14 N
2) A large thin isolated square plate has an area of 3 m2. It is uniformly charged with 9 nC of charge. What is the magnitude of the electric field 3 mm from the center of the plate's surface?
- +a) 1.694E+02 N/C
- -b) 1.864E+02 N/C
- -c) 2.050E+02 N/C
- -d) 2.255E+02 N/C
- -e) 2.480E+02 N/C
3) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 9.0 nano-Coulombs. What is the magnitude of the electric field at a distance of 5.5 m from the center of the shells?
- -a) 9.144E+00 N/C
- -b) 1.006E+01 N/C
- -c) 1.106E+01 N/C
- -d) 1.217E+01 N/C
- +e) 1.339E+01 N/C
- -a) 1.740E+01 N·m2/C
- -b) 1.914E+01 N·m2/C
- -c) 2.106E+01 N·m2/C
- -d) 2.316E+01 N·m2/C
- +e) 2.548E+01 N·m2/C
5) Two large parallel conducting plates are separated by 7.42 mm. Equal and opposite surface charges of 7.760E-07 C/m2 exist on the surfaces between the plates. What is the distance between equipotential planes which differ by 61 V?
- -a) 3.979E-01 mm
- -b) 4.576E-01 mm
- -c) 5.263E-01 mm
- -d) 6.052E-01 mm
- +e) 6.960E-01 mm
6) A 2 C charge is separated from a 10 C charge by distance of 8 cm. What is the work done by increasing this separation to 14 cm?
- -a) 8.754E-07 J
- +b) 9.630E-07 J
- -c) 1.059E-06 J
- -d) 1.165E-06 J
- -e) 1.282E-06 J
- -a) 1.303E+01 μJ
- -b) 1.434E+01 μJ
- -c) 1.577E+01 μJ
- -d) 1.735E+01 μJ
- +e) 1.908E+01 μJ
8) Imagine a substance could be made into a very hot filament. Suppose the resitance is 1.52 Ω at a temperature of 45°C and that the temperature coefficient of expansion is 4.330E-03 (°C)−1). What is the resistance at a temperature of 479 °C?
- -a) 3.970E+00 Ω
- -b) 4.168E+00 Ω
- +c) 4.376E+00 Ω
- -d) 4.595E+00 Ω
- -e) 4.825E+00 Ω
- -a) 1.177E+01 V
- -b) 1.295E+01 V
- -c) 1.424E+01 V
- +d) 1.567E+01 V
- -e) 1.723E+01 V
- -a) 7.264E-01 mA
- +b) 7.990E-01 mA
- -c) 8.789E-01 mA
- -d) 9.668E-01 mA
- -e) 1.063E+00 mA
Click these links for the keys:
Key: T1
edit1) A 8 C charge is separated from a 12 C charge by distance of 9 cm. What is the work done by increasing this separation to 18 cm?
- -a) 3.274E-06 J
- -b) 3.601E-06 J
- -c) 3.961E-06 J
- -d) 4.358E-06 J
- +e) 4.793E-06 J
- -a) 3.391E-14 N
- -b) 3.731E-14 N
- -c) 4.104E-14 N
- +d) 4.514E-14 N
- -e) 4.965E-14 N
- +a) 1.085E+00 mA
- -b) 1.194E+00 mA
- -c) 1.313E+00 mA
- -d) 1.444E+00 mA
- -e) 1.589E+00 mA
4) Two large parallel conducting plates are separated by 6.95 mm. Equal and opposite surface charges of 7.360E-07 C/m2 exist on the surfaces between the plates. What is the distance between equipotential planes which differ by 83 V?
- -a) 6.565E-01 mm
- -b) 7.550E-01 mm
- -c) 8.683E-01 mm
- +d) 9.985E-01 mm
- -e) 1.148E+00 mm
- -a) 5.000E+01 N·m2/C
- -b) 5.500E+01 N·m2/C
- -c) 6.050E+01 N·m2/C
- +d) 6.656E+01 N·m2/C
- -e) 7.321E+01 N·m2/C
6) A large thin isolated square plate has an area of 6 m2. It is uniformly charged with 9 nC of charge. What is the magnitude of the electric field 3 mm from the center of the plate's surface?
- +a) 8.471E+01 N/C
- -b) 9.318E+01 N/C
- -c) 1.025E+02 N/C
- -d) 1.127E+02 N/C
- -e) 1.240E+02 N/C
- -a) 8.718E+00 μJ
- -b) 9.589E+00 μJ
- -c) 1.055E+01 μJ
- -d) 1.160E+01 μJ
- +e) 1.276E+01 μJ
8) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 7.3 nano-Coulombs. What is the magnitude of the electric field at a distance of 1.5 m from the center of the shells?
- -a) 1.994E+01 N/C
- -b) 2.194E+01 N/C
- -c) 2.413E+01 N/C
- -d) 2.655E+01 N/C
- +e) 2.920E+01 N/C
9) Imagine a substance could be made into a very hot filament. Suppose the resitance is 5.94 Ω at a temperature of 70°C and that the temperature coefficient of expansion is 5.120E-03 (°C)−1). What is the resistance at a temperature of 386 °C?
- -a) 1.279E+01 Ω
- -b) 1.343E+01 Ω
- -c) 1.410E+01 Ω
- -d) 1.481E+01 Ω
- +e) 1.555E+01 Ω
- -a) 6.064E+00 V
- -b) 6.670E+00 V
- +c) 7.337E+00 V
- -d) 8.071E+00 V
- -e) 8.878E+00 V
Click these links for the keys:
Key: T2
edit- +a) 1.660E+00 mA
- -b) 1.826E+00 mA
- -c) 2.009E+00 mA
- -d) 2.209E+00 mA
- -e) 2.430E+00 mA
- -a) 6.488E+00 V
- +b) 7.137E+00 V
- -c) 7.850E+00 V
- -d) 8.635E+00 V
- -e) 9.499E+00 V
3) Two large parallel conducting plates are separated by 7.77 mm. Equal and opposite surface charges of 7.280E-07 C/m2 exist on the surfaces between the plates. What is the distance between equipotential planes which differ by 70 V?
- +a) 8.514E-01 mm
- -b) 9.791E-01 mm
- -c) 1.126E+00 mm
- -d) 1.295E+00 mm
- -e) 1.489E+00 mm
- -a) 5.014E-14 N
- -b) 5.515E-14 N
- -c) 6.067E-14 N
- -d) 6.674E-14 N
- +e) 7.341E-14 N
- -a) 2.079E+01 N·m2/C
- -b) 2.287E+01 N·m2/C
- -c) 2.516E+01 N·m2/C
- +d) 2.768E+01 N·m2/C
- -e) 3.044E+01 N·m2/C
6) A 3 C charge is separated from a 9 C charge by distance of 13 cm. What is the work done by increasing this separation to 21 cm?
- -a) 6.465E-07 J
- +b) 7.111E-07 J
- -c) 7.822E-07 J
- -d) 8.604E-07 J
- -e) 9.465E-07 J
7) Imagine a substance could be made into a very hot filament. Suppose the resitance is 1.95 Ω at a temperature of 96°C and that the temperature coefficient of expansion is 4.400E-03 (°C)−1). What is the resistance at a temperature of 469 °C?
- -a) 4.449E+00 Ω
- -b) 4.672E+00 Ω
- -c) 4.905E+00 Ω
- +d) 5.150E+00 Ω
- -e) 5.408E+00 Ω
- -a) 6.750E+00 μJ
- -b) 7.425E+00 μJ
- +c) 8.168E+00 μJ
- -d) 8.984E+00 μJ
- -e) 9.883E+00 μJ
9) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 7.6 nano-Coulombs. What is the magnitude of the electric field at a distance of 5.8 m from the center of the shells?
- +a) 1.017E+01 N/C
- -b) 1.118E+01 N/C
- -c) 1.230E+01 N/C
- -d) 1.353E+01 N/C
- -e) 1.488E+01 N/C
10) A large thin isolated square plate has an area of 6 m2. It is uniformly charged with 5 nC of charge. What is the magnitude of the electric field 1 mm from the center of the plate's surface?
- -a) 3.214E+01 N/C
- -b) 3.536E+01 N/C
- -c) 3.889E+01 N/C
- -d) 4.278E+01 N/C
- +e) 4.706E+01 N/C
Click these links for the keys:
Key: U0
edit- -a) 1.473E-14 N
- -b) 1.620E-14 N
- -c) 1.782E-14 N
- -d) 1.960E-14 N
- +e) 2.156E-14 N
2)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- -a) 6.877E+00 V/m2
- -b) 7.565E+00 V/m2
- +c) 8.321E+00 V/m2
- -d) 9.153E+00 V/m2
- -e) 1.007E+01 V/m2
3) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=4, y=0), (x=0, y=9), and (x=4, y=9), where x and y are measured in meters. The electric field is,
- -a) 7.054E+03 V·m
- -b) 7.759E+03 V·m
- -c) 8.535E+03 V·m
- -d) 9.388E+03 V·m
- +e) 1.033E+04 V·m
- -a) 4.988E+01 N·m2/C
- -b) 5.487E+01 N·m2/C
- -c) 6.035E+01 N·m2/C
- -d) 6.639E+01 N·m2/C
- +e) 7.303E+01 N·m2/C
5) A 9 C charge is separated from a 16 C charge by distance of 10 cm. What is the work done by increasing this separation to 16 cm?
- +a) 4.853E-06 J
- -b) 5.339E-06 J
- -c) 5.872E-06 J
- -d) 6.460E-06 J
- -e) 7.106E-06 J
- -a) 4.590E+02 V
- -b) 5.049E+02 V
- -c) 5.554E+02 V
- +d) 6.109E+02 V
- -e) 6.720E+02 V
7) An empty parallel-plate capacitor with metal plates has an area of 2.83 m2, separated by 1.14 mm. How much charge does it store if the voltage is 4.180E+03 V?
- -a) 6.275E+01 μC
- -b) 6.903E+01 μC
- -c) 7.593E+01 μC
- -d) 8.352E+01 μC
- +e) 9.188E+01 μC
8) A make-believe metal has a density of 1.430E+04 kg/m3 and an atomic mass of 37.8 g/mol. Taking Avogadro's number to be 6.020E+23 atoms/mol and assuming one free electron per atom, calculate the number of free electrons per cubic meter.
- -a) 1.882E+29 e−/m3
- -b) 2.070E+29 e−/m3
- +c) 2.277E+29 e−/m3
- -d) 2.505E+29 e−/m3
- -e) 2.756E+29 e−/m3
9) A given battery has a 13 V emf and an internal resistance of 0.161 Ω. If it is connected to a 0.814 Ω resistor what is the power dissipated by that load?
- -a) 1.087E+02 W
- -b) 1.196E+02 W
- -c) 1.316E+02 W
- +d) 1.447E+02 W
- -e) 1.592E+02 W
- -a) 1.056E+01 V
- -b) 1.161E+01 V
- -c) 1.277E+01 V
- +d) 1.405E+01 V
- -e) 1.545E+01 V
Click these links for the keys:
Key: U1
edit1) An empty parallel-plate capacitor with metal plates has an area of 2.66 m2, separated by 1.18 mm. How much charge does it store if the voltage is 6.170E+03 V?
- +a) 1.231E+02 μC
- -b) 1.355E+02 μC
- -c) 1.490E+02 μC
- -d) 1.639E+02 μC
- -e) 1.803E+02 μC
2) A given battery has a 12 V emf and an internal resistance of 0.107 Ω. If it is connected to a 0.814 Ω resistor what is the power dissipated by that load?
- +a) 1.382E+02 W
- -b) 1.520E+02 W
- -c) 1.672E+02 W
- -d) 1.839E+02 W
- -e) 2.023E+02 W
3) A make-believe metal has a density of 1.480E+04 kg/m3 and an atomic mass of 196.0 g/mol. Taking Avogadro's number to be 6.020E+23 atoms/mol and assuming one free electron per atom, calculate the number of free electrons per cubic meter.
- +a) 4.546E+28 e−/m3
- -b) 5.000E+28 e−/m3
- -c) 5.500E+28 e−/m3
- -d) 6.050E+28 e−/m3
- -e) 6.655E+28 e−/m3
- -a) 2.731E+02 V
- -b) 3.004E+02 V
- -c) 3.304E+02 V
- -d) 3.634E+02 V
- +e) 3.998E+02 V
- -a) 5.439E+01 N·m2/C
- -b) 5.983E+01 N·m2/C
- -c) 6.581E+01 N·m2/C
- +d) 7.239E+01 N·m2/C
- -e) 7.963E+01 N·m2/C
6)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- -a) 5.134E-01 V/m2
- +b) 5.648E-01 V/m2
- -c) 6.212E-01 V/m2
- -d) 6.834E-01 V/m2
- -e) 7.517E-01 V/m2
- -a) 2.036E-14 N
- -b) 2.240E-14 N
- +c) 2.464E-14 N
- -d) 2.710E-14 N
- -e) 2.981E-14 N
8) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=5, y=0), (x=0, y=7), and (x=5, y=7), where x and y are measured in meters. The electric field is,
- -a) 1.128E+04 V·m
- -b) 1.241E+04 V·m
- -c) 1.365E+04 V·m
- +d) 1.502E+04 V·m
- -e) 1.652E+04 V·m
- +a) 1.380E+01 V
- -b) 1.518E+01 V
- -c) 1.670E+01 V
- -d) 1.837E+01 V
- -e) 2.020E+01 V
10) A 8 C charge is separated from a 13 C charge by distance of 7 cm. What is the work done by increasing this separation to 13 cm?
- -a) 4.209E-06 J
- -b) 4.630E-06 J
- -c) 5.093E-06 J
- -d) 5.603E-06 J
- +e) 6.163E-06 J
Click these links for the keys:
Key: U2
edit- -a) 5.796E+02 V
- +b) 6.375E+02 V
- -c) 7.013E+02 V
- -d) 7.714E+02 V
- -e) 8.486E+02 V
- -a) 3.416E+00 V
- -b) 3.757E+00 V
- -c) 4.133E+00 V
- +d) 4.546E+00 V
- -e) 5.001E+00 V
3) A 2 C charge is separated from a 10 C charge by distance of 8 cm. What is the work done by increasing this separation to 14 cm?
- -a) 8.754E-07 J
- +b) 9.630E-07 J
- -c) 1.059E-06 J
- -d) 1.165E-06 J
- -e) 1.282E-06 J
4) A given battery has a 14 V emf and an internal resistance of 0.0842 Ω. If it is connected to a 0.835 Ω resistor what is the power dissipated by that load?
- -a) 1.455E+02 W
- -b) 1.601E+02 W
- -c) 1.761E+02 W
- +d) 1.937E+02 W
- -e) 2.131E+02 W
5) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=7, y=0), (x=0, y=4), and (x=7, y=4), where x and y are measured in meters. The electric field is,
- -a) 2.610E+03 V·m
- -b) 2.871E+03 V·m
- +c) 3.158E+03 V·m
- -d) 3.474E+03 V·m
- -e) 3.822E+03 V·m
6) A make-believe metal has a density of 3.530E+03 kg/m3 and an atomic mass of 10.5 g/mol. Taking Avogadro's number to be 6.020E+23 atoms/mol and assuming one free electron per atom, calculate the number of free electrons per cubic meter.
- -a) 1.673E+29 e−/m3
- -b) 1.840E+29 e−/m3
- +c) 2.024E+29 e−/m3
- -d) 2.226E+29 e−/m3
- -e) 2.449E+29 e−/m3
- -a) 3.876E-14 N
- -b) 4.263E-14 N
- -c) 4.690E-14 N
- +d) 5.159E-14 N
- -e) 5.675E-14 N
8)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- -a) 4.961E-01 V/m2
- -b) 5.457E-01 V/m2
- -c) 6.002E-01 V/m2
- -d) 6.603E-01 V/m2
- +e) 7.263E-01 V/m2
- +a) 8.921E+01 N·m2/C
- -b) 9.813E+01 N·m2/C
- -c) 1.079E+02 N·m2/C
- -d) 1.187E+02 N·m2/C
- -e) 1.306E+02 N·m2/C
10) An empty parallel-plate capacitor with metal plates has an area of 1.81 m2, separated by 1.26 mm. How much charge does it store if the voltage is 4.610E+03 V?
- -a) 4.005E+01 μC
- -b) 4.405E+01 μC
- -c) 4.846E+01 μC
- -d) 5.330E+01 μC
- +e) 5.864E+01 μC
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Key: V0
edit- -a) 3.672E+09 N/C2
- -b) 4.039E+09 N/C2
- -c) 4.443E+09 N/C2
- +d) 4.887E+09 N/C2
- -e) 5.376E+09 N/C2
- -a) 5.767E+01 degrees
- +b) 6.343E+01 degrees
- -c) 6.978E+01 degrees
- -d) 7.676E+01 degrees
- -e) 8.443E+01 degrees
- -a) 3.662E+01 N·m2/C
- +b) 4.028E+01 N·m2/C
- -c) 4.430E+01 N·m2/C
- -d) 4.873E+01 N·m2/C
- -e) 5.361E+01 N·m2/C
- -a) 1.891E+01 N·m2/C
- -b) 2.080E+01 N·m2/C
- +c) 2.288E+01 N·m2/C
- -d) 2.517E+01 N·m2/C
- -e) 2.768E+01 N·m2/C
5) A 7 C charge is separated from a 11 C charge by distance of 11 cm. What is the work done by increasing this separation to 19 cm?
- -a) 2.408E-06 J
- +b) 2.649E-06 J
- -c) 2.914E-06 J
- -d) 3.205E-06 J
- -e) 3.526E-06 J
6) Two large parallel conducting plates are separated by 7.14 mm. Equal and opposite surface charges of 7.660E-07 C/m2 exist on the surfaces between the plates. What is the distance between equipotential planes which differ by 61 V?
- -a) 4.031E-01 mm
- -b) 4.636E-01 mm
- -c) 5.332E-01 mm
- -d) 6.131E-01 mm
- +e) 7.051E-01 mm
- -a) 1.508E+01 μJ
- +b) 1.659E+01 μJ
- -c) 1.825E+01 μJ
- -d) 2.007E+01 μJ
- -e) 2.208E+01 μJ
8) A make-believe metal has a density of 3.230E+03 kg/m3 and an atomic mass of 116.0 g/mol. Taking Avogadro's number to be 6.020E+23 atoms/mol and assuming one free electron per atom, calculate the number of free electrons per cubic meter.
- -a) 1.385E+28 e−/m3
- -b) 1.524E+28 e−/m3
- +c) 1.676E+28 e−/m3
- -d) 1.844E+28 e−/m3
- -e) 2.028E+28 e−/m3
9) A given battery has a 15 V emf and an internal resistance of 0.162 Ω. If it is connected to a 0.561 Ω resistor what is the power dissipated by that load?
- -a) 1.814E+02 W
- -b) 1.996E+02 W
- -c) 2.195E+02 W
- +d) 2.415E+02 W
- -e) 2.656E+02 W
- -a) 8.482E+00 V
- +b) 9.330E+00 V
- -c) 1.026E+01 V
- -d) 1.129E+01 V
- -e) 1.242E+01 V
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Key: V1
edit- -a) 3.436E+00 V
- -b) 3.779E+00 V
- -c) 4.157E+00 V
- -d) 4.573E+00 V
- +e) 5.030E+00 V
2) Two large parallel conducting plates are separated by 6.95 mm. Equal and opposite surface charges of 7.360E-07 C/m2 exist on the surfaces between the plates. What is the distance between equipotential planes which differ by 83 V?
- -a) 6.565E-01 mm
- -b) 7.550E-01 mm
- -c) 8.683E-01 mm
- +d) 9.985E-01 mm
- -e) 1.148E+00 mm
3) A make-believe metal has a density of 3.230E+03 kg/m3 and an atomic mass of 116.0 g/mol. Taking Avogadro's number to be 6.020E+23 atoms/mol and assuming one free electron per atom, calculate the number of free electrons per cubic meter.
- -a) 1.385E+28 e−/m3
- -b) 1.524E+28 e−/m3
- +c) 1.676E+28 e−/m3
- -d) 1.844E+28 e−/m3
- -e) 2.028E+28 e−/m3
- +a) 2.242E+01 μJ
- -b) 2.467E+01 μJ
- -c) 2.713E+01 μJ
- -d) 2.985E+01 μJ
- -e) 3.283E+01 μJ
5) A 4 C charge is separated from a 10 C charge by distance of 10 cm. What is the work done by increasing this separation to 19 cm?
- -a) 1.548E-06 J
- +b) 1.703E-06 J
- -c) 1.873E-06 J
- -d) 2.061E-06 J
- -e) 2.267E-06 J
- -a) 5.439E+01 N·m2/C
- -b) 5.983E+01 N·m2/C
- -c) 6.581E+01 N·m2/C
- +d) 7.239E+01 N·m2/C
- -e) 7.963E+01 N·m2/C
- -a) 6.364E+01 N·m2/C
- -b) 7.000E+01 N·m2/C
- +c) 7.700E+01 N·m2/C
- -d) 8.470E+01 N·m2/C
- -e) 9.317E+01 N·m2/C
8) A given battery has a 15 V emf and an internal resistance of 0.113 Ω. If it is connected to a 0.645 Ω resistor what is the power dissipated by that load?
- -a) 1.898E+02 W
- -b) 2.087E+02 W
- -c) 2.296E+02 W
- +d) 2.526E+02 W
- -e) 2.778E+02 W
- -a) 5.272E+01 degrees
- +b) 5.799E+01 degrees
- -c) 6.379E+01 degrees
- -d) 7.017E+01 degrees
- -e) 7.719E+01 degrees
- -a) 3.339E+09 N/C2
- -b) 3.673E+09 N/C2
- -c) 4.041E+09 N/C2
- +d) 4.445E+09 N/C2
- -e) 4.889E+09 N/C2
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Key: V2
edit1) A make-believe metal has a density of 8.690E+03 kg/m3 and an atomic mass of 48.4 g/mol. Taking Avogadro's number to be 6.020E+23 atoms/mol and assuming one free electron per atom, calculate the number of free electrons per cubic meter.
- +a) 1.081E+29 e−/m3
- -b) 1.189E+29 e−/m3
- -c) 1.308E+29 e−/m3
- -d) 1.439E+29 e−/m3
- -e) 1.582E+29 e−/m3
- -a) 5.243E+01 degrees
- -b) 5.767E+01 degrees
- +c) 6.343E+01 degrees
- -d) 6.978E+01 degrees
- -e) 7.676E+01 degrees
- -a) 1.353E+09 N/C2
- -b) 1.488E+09 N/C2
- +c) 1.637E+09 N/C2
- -d) 1.801E+09 N/C2
- -e) 1.981E+09 N/C2
- -a) 2.134E+01 N·m2/C
- -b) 2.347E+01 N·m2/C
- +c) 2.582E+01 N·m2/C
- -d) 2.840E+01 N·m2/C
- -e) 3.124E+01 N·m2/C
- -a) 3.436E+00 V
- -b) 3.779E+00 V
- -c) 4.157E+00 V
- -d) 4.573E+00 V
- +e) 5.030E+00 V
6) A given battery has a 15 V emf and an internal resistance of 0.113 Ω. If it is connected to a 0.645 Ω resistor what is the power dissipated by that load?
- -a) 1.898E+02 W
- -b) 2.087E+02 W
- -c) 2.296E+02 W
- +d) 2.526E+02 W
- -e) 2.778E+02 W
7) A 8 C charge is separated from a 12 C charge by distance of 9 cm. What is the work done by increasing this separation to 18 cm?
- -a) 3.274E-06 J
- -b) 3.601E-06 J
- -c) 3.961E-06 J
- -d) 4.358E-06 J
- +e) 4.793E-06 J
8) Two large parallel conducting plates are separated by 9.87 mm. Equal and opposite surface charges of 7.610E-07 C/m2 exist on the surfaces between the plates. What is the distance between equipotential planes which differ by 66 V?
- -a) 4.391E-01 mm
- -b) 5.049E-01 mm
- -c) 5.806E-01 mm
- -d) 6.677E-01 mm
- +e) 7.679E-01 mm
- -a) 2.102E+01 μJ
- -b) 2.312E+01 μJ
- +c) 2.543E+01 μJ
- -d) 2.797E+01 μJ
- -e) 3.077E+01 μJ
- -a) 7.081E+01 N·m2/C
- -b) 7.789E+01 N·m2/C
- +c) 8.568E+01 N·m2/C
- -d) 9.425E+01 N·m2/C
- -e) 1.037E+02 N·m2/C
Click these links for the keys:
Key: W0
edit- -a) 5.243E-14 N
- +b) 5.768E-14 N
- -c) 6.344E-14 N
- -d) 6.979E-14 N
- -e) 7.677E-14 N
- -a) 6.925E+09 N/C2
- -b) 7.617E+09 N/C2
- +c) 8.379E+09 N/C2
- -d) 9.217E+09 N/C2
- -e) 1.014E+10 N/C2
3) A non-conducting sphere of radius R=1.7 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=3 nC·m-1.5. What is the magnitude of the electric field at a distance of 0.64 m from the center?
- -a) 2.039E+01 N/C
- -b) 2.243E+01 N/C
- +c) 2.467E+01 N/C
- -d) 2.714E+01 N/C
- -e) 2.985E+01 N/C
4) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=6, y=0), (x=0, y=5), and (x=6, y=5), where x and y are measured in meters. The electric field is,
- -a) 2.067E+03 V·m
- -b) 2.274E+03 V·m
- +c) 2.501E+03 V·m
- -d) 2.752E+03 V·m
- -e) 3.027E+03 V·m
5) If a 14 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=83 V is x2 + y2 + z2 = R2, where R=
- -a) 1.378E+00 m
- +b) 1.516E+00 m
- -c) 1.668E+00 m
- -d) 1.834E+00 m
- -e) 2.018E+00 m
6) A 12.0 V battery can move 32,000 C of charge. How many Joules does it deliver?
- -a) 2.885E+05 J
- -b) 3.174E+05 J
- -c) 3.491E+05 J
- +d) 3.840E+05 J
- -e) 4.224E+05 J
- -a) 2.444E+01 μC
- -b) 2.689E+01 μC
- -c) 2.958E+01 μC
- +d) 3.253E+01 μC
- -e) 3.579E+01 μC
8) What is consumer cost to operate one 77−W incandescent bulb for 12 hours per day for 1 year (365 days) if the cost of electricity is $0.124 per kilowatt-hour?
- -a) $3.142E+01
- -b) $3.456E+01
- -c) $3.802E+01
- +d) $4.182E+01
- -e) $4.600E+01
- -a) 1.834E-01 A
- +b) 2.018E-01 A
- -c) 2.220E-01 A
- -d) 2.441E-01 A
- -e) 2.686E-01 A
10) A battery with a terminal voltage of 6.49 V is connected to a circuit consisting of 3 18.0 Ω resistors and one 10.3 Ω resistor. What is the voltage drop across the 10.3 Ω resistor?
- -a) 7.101E-01 V
- -b) 7.811E-01 V
- -c) 8.592E-01 V
- -d) 9.451E-01 V
- +e) 1.040E+00 V
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Key: W1
edit1) A 12.0 V battery can move 24,000 C of charge. How many Joules does it deliver?
- -a) 1.967E+05 J
- -b) 2.164E+05 J
- -c) 2.380E+05 J
- -d) 2.618E+05 J
- +e) 2.880E+05 J
2) A non-conducting sphere of radius R=1.5 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=2 nC·m-1.5. What is the magnitude of the electric field at a distance of 0.73 m from the center?
- +a) 2.285E+01 N/C
- -b) 2.514E+01 N/C
- -c) 2.765E+01 N/C
- -d) 3.042E+01 N/C
- -e) 3.346E+01 N/C
- -a) 6.011E+01 μC
- +b) 6.613E+01 μC
- -c) 7.274E+01 μC
- -d) 8.001E+01 μC
- -e) 8.801E+01 μC
4) What is consumer cost to operate one 79−W incandescent bulb for 9 hours per day for 1 year (365 days) if the cost of electricity is $0.142 per kilowatt-hour?
- -a) $2.517E+01
- -b) $2.769E+01
- -c) $3.046E+01
- -d) $3.350E+01
- +e) $3.685E+01
5) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=4, y=0), (x=0, y=3), and (x=4, y=3), where x and y are measured in meters. The electric field is,
- +a) 7.200E+01 V·m
- -b) 7.920E+01 V·m
- -c) 8.712E+01 V·m
- -d) 9.583E+01 V·m
- -e) 1.054E+02 V·m
6) A battery with a terminal voltage of 12.4 V is connected to a circuit consisting of 3 21.6 Ω resistors and one 12.1 Ω resistor. What is the voltage drop across the 12.1 Ω resistor?
- -a) 1.333E+00 V
- -b) 1.466E+00 V
- -c) 1.612E+00 V
- -d) 1.774E+00 V
- +e) 1.951E+00 V
- -a) 1.353E+09 N/C2
- -b) 1.488E+09 N/C2
- +c) 1.637E+09 N/C2
- -d) 1.801E+09 N/C2
- -e) 1.981E+09 N/C2
- -a) 5.014E-14 N
- -b) 5.515E-14 N
- -c) 6.067E-14 N
- -d) 6.674E-14 N
- +e) 7.341E-14 N
- +a) 1.285E-01 A
- -b) 1.414E-01 A
- -c) 1.555E-01 A
- -d) 1.711E-01 A
- -e) 1.882E-01 A
10) If a 20 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=70 V is x2 + y2 + z2 = R2, where R=
- -a) 1.754E+00 m
- -b) 1.929E+00 m
- -c) 2.122E+00 m
- -d) 2.334E+00 m
- +e) 2.568E+00 m
Click these links for the keys:
Key: W2
edit- +a) 5.732E-15 N
- -b) 6.305E-15 N
- -c) 6.936E-15 N
- -d) 7.629E-15 N
- -e) 8.392E-15 N
- -a) 5.581E+09 N/C2
- -b) 6.139E+09 N/C2
- +c) 6.753E+09 N/C2
- -d) 7.428E+09 N/C2
- -e) 8.171E+09 N/C2
3) A non-conducting sphere of radius R=1.7 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=3 nC·m-1.5. What is the magnitude of the electric field at a distance of 0.64 m from the center?
- -a) 2.039E+01 N/C
- -b) 2.243E+01 N/C
- +c) 2.467E+01 N/C
- -d) 2.714E+01 N/C
- -e) 2.985E+01 N/C
- -a) 1.834E-01 A
- +b) 2.018E-01 A
- -c) 2.220E-01 A
- -d) 2.441E-01 A
- -e) 2.686E-01 A
5) What is consumer cost to operate one 56−W incandescent bulb for 6 hours per day for 1 year (365 days) if the cost of electricity is $0.13 per kilowatt-hour?
- -a) $1.198E+01
- -b) $1.318E+01
- -c) $1.449E+01
- +d) $1.594E+01
- -e) $1.754E+01
6) A 12.0 V battery can move 31,000 C of charge. How many Joules does it deliver?
- -a) 2.541E+05 J
- -b) 2.795E+05 J
- -c) 3.074E+05 J
- -d) 3.382E+05 J
- +e) 3.720E+05 J
- +a) 7.625E+01 μC
- -b) 8.388E+01 μC
- -c) 9.227E+01 μC
- -d) 1.015E+02 μC
- -e) 1.116E+02 μC
8) If a 13 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=84 V is x2 + y2 + z2 = R2, where R=
- +a) 1.391E+00 m
- -b) 1.530E+00 m
- -c) 1.683E+00 m
- -d) 1.851E+00 m
- -e) 2.036E+00 m
9) A battery with a terminal voltage of 8.41 V is connected to a circuit consisting of 3 16.1 Ω resistors and one 10.9 Ω resistor. What is the voltage drop across the 10.9 Ω resistor?
- -a) 1.058E+00 V
- -b) 1.163E+00 V
- -c) 1.280E+00 V
- -d) 1.408E+00 V
- +e) 1.548E+00 V
10) What is the magnetude (absolute value) of the electric flux through a rectangle that occupies the z=0 plane with corners at (x,y)= (x=0, y=0), (x=6, y=0), (x=0, y=6), and (x=6, y=6), where x and y are measured in meters. The electric field is,
- -a) 4.820E+03 V·m
- -b) 5.302E+03 V·m
- +c) 5.832E+03 V·m
- -d) 6.415E+03 V·m
- -e) 7.057E+03 V·m
Click these links for the keys:
Key: X0
edit- +a) 6.343E+01 degrees
- -b) 6.978E+01 degrees
- -c) 7.676E+01 degrees
- -d) 8.443E+01 degrees
- -e) 9.288E+01 degrees
- -a) 9.958E-15 N
- -b) 1.095E-14 N
- -c) 1.205E-14 N
- -d) 1.325E-14 N
- +e) 1.458E-14 N
3) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 3.4 nano-Coulombs. What is the magnitude of the electric field at a distance of 2.8 m from the center of the shells?
- -a) 5.865E+00 N/C
- -b) 6.451E+00 N/C
- -c) 7.096E+00 N/C
- +d) 7.806E+00 N/C
- -e) 8.587E+00 N/C
4) A non-conducting sphere of radius R=1.4 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.6 (r≤R) where a=3 nC·m-1.4. What is the magnitude of the electric field at a distance of 1.3 m from the center?
- +a) 1.457E+02 N/C
- -b) 1.603E+02 N/C
- -c) 1.763E+02 N/C
- -d) 1.939E+02 N/C
- -e) 2.133E+02 N/C
5) If a 14 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=26 V is x2 + y2 + z2 = R2, where R=
- -a) 3.636E+00 m
- -b) 4.000E+00 m
- -c) 4.399E+00 m
- +d) 4.839E+00 m
- -e) 5.323E+00 m
6) When a 6.24 V battery operates a 2.1 W bulb, how many electrons pass through it each second?
- -a) 1.435E+18 electrons
- -b) 1.578E+18 electrons
- -c) 1.736E+18 electrons
- -d) 1.910E+18 electrons
- +e) 2.101E+18 electrons
- +a) 2.242E+01 μJ
- -b) 2.467E+01 μJ
- -c) 2.713E+01 μJ
- -d) 2.985E+01 μJ
- -e) 3.283E+01 μJ
8) A DC winch moter draws 23 amps at 196 volts as it lifts a 4.870E+03 N weight at a constant speed of 0.731 m/s. Assuming that all the electrical power is either converted into gravitational potential energy or ohmically heats the motor's coils, calculate the coil's resistance.
- -a) 1.346E+00 Ω
- -b) 1.481E+00 Ω
- -c) 1.629E+00 Ω
- +d) 1.792E+00 Ω
- -e) 1.971E+00 Ω
- -a) 3.890E+00 V
- -b) 4.279E+00 V
- -c) 4.707E+00 V
- +d) 5.178E+00 V
- -e) 5.695E+00 V
- -a) 1.981E+01 V
- +b) 2.179E+01 V
- -c) 2.397E+01 V
- -d) 2.637E+01 V
- -e) 2.901E+01 V
Click these links for the keys:
Key: X1
edit1) If a 29 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=81 V is x2 + y2 + z2 = R2, where R=
- +a) 3.218E+00 m
- -b) 3.540E+00 m
- -c) 3.893E+00 m
- -d) 4.283E+00 m
- -e) 4.711E+00 m
- -a) 9.142E+00 V
- -b) 1.006E+01 V
- +c) 1.106E+01 V
- -d) 1.217E+01 V
- -e) 1.338E+01 V
3) A DC winch moter draws 26 amps at 153 volts as it lifts a 4.100E+03 N weight at a constant speed of 0.609 m/s. Assuming that all the electrical power is either converted into gravitational potential energy or ohmically heats the motor's coils, calculate the coil's resistance.
- +a) 2.191E+00 Ω
- -b) 2.410E+00 Ω
- -c) 2.651E+00 Ω
- -d) 2.916E+00 Ω
- -e) 3.208E+00 Ω
4) When a 1.95 V battery operates a 2.8 W bulb, how many electrons pass through it each second?
- -a) 7.407E+18 electrons
- -b) 8.147E+18 electrons
- +c) 8.962E+18 electrons
- -d) 9.858E+18 electrons
- -e) 1.084E+19 electrons
- -a) 1.308E-13 N
- -b) 1.439E-13 N
- -c) 1.583E-13 N
- +d) 1.741E-13 N
- -e) 1.915E-13 N
- -a) 1.645E+01 μJ
- -b) 1.809E+01 μJ
- -c) 1.990E+01 μJ
- +d) 2.189E+01 μJ
- -e) 2.408E+01 μJ
7) A non-conducting sphere of radius R=2.9 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.5 (r≤R) where a=3 nC·m-1.5. What is the magnitude of the electric field at a distance of 1.7 m from the center?
- -a) 2.579E+02 N/C
- +b) 2.837E+02 N/C
- -c) 3.121E+02 N/C
- -d) 3.433E+02 N/C
- -e) 3.776E+02 N/C
- -a) 6.125E+01 degrees
- +b) 6.738E+01 degrees
- -c) 7.412E+01 degrees
- -d) 8.153E+01 degrees
- -e) 8.968E+01 degrees
9) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 6.5 nano-Coulombs. What is the magnitude of the electric field at a distance of 1.3 m from the center of the shells?
- -a) 2.601E+01 N/C
- -b) 2.861E+01 N/C
- -c) 3.147E+01 N/C
- +d) 3.462E+01 N/C
- -e) 3.808E+01 N/C
- -a) 1.309E+01 V
- -b) 1.440E+01 V
- +c) 1.584E+01 V
- -d) 1.742E+01 V
- -e) 1.917E+01 V
Click these links for the keys:
Key: X2
edit1) If a 16 nC charge is situated at the origin, the equipotential surface for V(x,y,z)=19 V is x2 + y2 + z2 = R2, where R=
- -a) 5.169E+00 m
- -b) 5.686E+00 m
- -c) 6.255E+00 m
- -d) 6.880E+00 m
- +e) 7.568E+00 m
2) A non-conducting sphere of radius R=3.8 m has a non-uniform charge density that varies with the distnce from its center as given by ρ(r)=ar1.7 (r≤R) where a=3 nC·m-1.3. What is the magnitude of the electric field at a distance of 3.1 m from the center?
- -a) 1.390E+03 N/C
- +b) 1.530E+03 N/C
- -c) 1.682E+03 N/C
- -d) 1.851E+03 N/C
- -e) 2.036E+03 N/C
- -a) 1.906E+01 V
- +b) 2.097E+01 V
- -c) 2.306E+01 V
- -d) 2.537E+01 V
- -e) 2.790E+01 V
- -a) 9.750E-15 N
- -b) 1.072E-14 N
- -c) 1.180E-14 N
- -d) 1.298E-14 N
- +e) 1.427E-14 N
- -a) 1.270E+01 μJ
- -b) 1.397E+01 μJ
- -c) 1.537E+01 μJ
- -d) 1.690E+01 μJ
- +e) 1.859E+01 μJ
- -a) 1.013E+01 V
- -b) 1.115E+01 V
- -c) 1.226E+01 V
- +d) 1.349E+01 V
- -e) 1.484E+01 V
- +a) 6.343E+01 degrees
- -b) 6.978E+01 degrees
- -c) 7.676E+01 degrees
- -d) 8.443E+01 degrees
- -e) 9.288E+01 degrees
8) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 3.4 nano-Coulombs. What is the magnitude of the electric field at a distance of 2.8 m from the center of the shells?
- -a) 5.865E+00 N/C
- -b) 6.451E+00 N/C
- -c) 7.096E+00 N/C
- +d) 7.806E+00 N/C
- -e) 8.587E+00 N/C
9) A DC winch moter draws 18 amps at 126 volts as it lifts a 5.830E+03 N weight at a constant speed of 0.26 m/s. Assuming that all the electrical power is either converted into gravitational potential energy or ohmically heats the motor's coils, calculate the coil's resistance.
- -a) 1.919E+00 Ω
- -b) 2.111E+00 Ω
- +c) 2.322E+00 Ω
- -d) 2.554E+00 Ω
- -e) 2.809E+00 Ω
10) When a 2.76 V battery operates a 2.71 W bulb, how many electrons pass through it each second?
- -a) 5.571E+18 electrons
- +b) 6.128E+18 electrons
- -c) 6.741E+18 electrons
- -d) 7.415E+18 electrons
- -e) 8.157E+18 electrons
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Key: Y0
editis an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.7 m. Evaluate at x=0.76 m if a=1.1 m, b=1.6 m. The total charge on the rod is 8 nC.
- -a) 5.267E+00 V/m2
- -b) 5.794E+00 V/m2
- -c) 6.374E+00 V/m2
- +d) 7.011E+00 V/m2
- -e) 7.712E+00 V/m2
2)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- -a) 2.567E+01 V/m2
- -b) 2.824E+01 V/m2
- -c) 3.106E+01 V/m2
- -d) 3.417E+01 V/m2
- +e) 3.759E+01 V/m2
- -a) 4.777E+01 N·m2/C
- -b) 5.254E+01 N·m2/C
- -c) 5.780E+01 N·m2/C
- +d) 6.358E+01 N·m2/C
- -e) 6.993E+01 N·m2/C
4) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 9.0 nano-Coulombs. What is the magnitude of the electric field at a distance of 5.5 m from the center of the shells?
- -a) 9.144E+00 N/C
- -b) 1.006E+01 N/C
- -c) 1.106E+01 N/C
- -d) 1.217E+01 N/C
- +e) 1.339E+01 N/C
- +a) 1.900E+01 μC
- -b) 2.090E+01 μC
- -c) 2.299E+01 μC
- -d) 2.529E+01 μC
- -e) 2.782E+01 μC
6) A 12.0 V battery can move 11,000 C of charge. How many Joules does it deliver?
- -a) 9.016E+04 J
- -b) 9.917E+04 J
- -c) 1.091E+05 J
- -d) 1.200E+05 J
- +e) 1.320E+05 J
- -a) 8.197E+01 μC
- +b) 9.017E+01 μC
- -c) 9.919E+01 μC
- -d) 1.091E+02 μC
- -e) 1.200E+02 μC
8) Calculate the drift speed of electrons in a copper wire with a diameter of 5.24 mm carrying a 1.8 A current, given that there is one free electron per copper atom. The density of copper is 8.80 x 103kg/m3 and the atomic mass of copper is 63.54 g/mol. Avagadro's number is 6.02 x 1023atoms/mol.
- +a) 6.247E-06 m/s
- -b) 6.872E-06 m/s
- -c) 7.559E-06 m/s
- -d) 8.315E-06 m/s
- -e) 9.146E-06 m/s
- -a) 1.309E+01 V
- -b) 1.440E+01 V
- +c) 1.584E+01 V
- -d) 1.742E+01 V
- -e) 1.917E+01 V
- -a) 7.886E+00 V
- -b) 8.675E+00 V
- -c) 9.542E+00 V
- -d) 1.050E+01 V
- +e) 1.155E+01 V
Click these links for the keys:
Key: Y1
edit- -a) 1.193E+01 μC
- -b) 1.312E+01 μC
- -c) 1.443E+01 μC
- +d) 1.588E+01 μC
- -e) 1.746E+01 μC
- -a) 4.986E+00 V
- -b) 5.484E+00 V
- -c) 6.033E+00 V
- -d) 6.636E+00 V
- +e) 7.299E+00 V
- -a) 2.515E+01 μC
- -b) 2.766E+01 μC
- -c) 3.043E+01 μC
- +d) 3.347E+01 μC
- -e) 3.682E+01 μC
4) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 7.8 nano-Coulombs. What is the magnitude of the electric field at a distance of 1.3 m from the center of the shells?
- -a) 2.837E+01 N/C
- -b) 3.121E+01 N/C
- -c) 3.433E+01 N/C
- -d) 3.776E+01 N/C
- +e) 4.154E+01 N/C
5) Calculate the drift speed of electrons in a copper wire with a diameter of 3.33 mm carrying a 13.8 A current, given that there is one free electron per copper atom. The density of copper is 8.80 x 103kg/m3 and the atomic mass of copper is 63.54 g/mol. Avagadro's number is 6.02 x 1023atoms/mol.
- -a) 8.910E-05 m/s
- -b) 9.801E-05 m/s
- -c) 1.078E-04 m/s
- +d) 1.186E-04 m/s
- -e) 1.305E-04 m/s
- -a) 6.064E+00 V
- -b) 6.670E+00 V
- +c) 7.337E+00 V
- -d) 8.071E+00 V
- -e) 8.878E+00 V
7) A 12.0 V battery can move 12,000 C of charge. How many Joules does it deliver?
- -a) 1.190E+05 J
- -b) 1.309E+05 J
- +c) 1.440E+05 J
- -d) 1.584E+05 J
- -e) 1.742E+05 J
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.9 m. Evaluate at x=0.54 m if a=1.0 m, b=2.0 m. The total charge on the rod is 3 nC.
- -a) 1.665E+00 V/m2
- -b) 1.831E+00 V/m2
- -c) 2.014E+00 V/m2
- +d) 2.216E+00 V/m2
- -e) 2.437E+00 V/m2
9)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- -a) 3.722E-01 V/m2
- -b) 4.094E-01 V/m2
- -c) 4.504E-01 V/m2
- +d) 4.954E-01 V/m2
- -e) 5.450E-01 V/m2
- -a) 2.134E+01 N·m2/C
- -b) 2.347E+01 N·m2/C
- +c) 2.582E+01 N·m2/C
- -d) 2.840E+01 N·m2/C
- -e) 3.124E+01 N·m2/C
Click these links for the keys:
Key: Y2
edit- -a) 8.825E+00 V
- -b) 9.708E+00 V
- -c) 1.068E+01 V
- -d) 1.175E+01 V
- +e) 1.292E+01 V
2) Calculate the drift speed of electrons in a copper wire with a diameter of 2.72 mm carrying a 16.2 A current, given that there is one free electron per copper atom. The density of copper is 8.80 x 103kg/m3 and the atomic mass of copper is 63.54 g/mol. Avagadro's number is 6.02 x 1023atoms/mol.
- +a) 2.087E-04 m/s
- -b) 2.295E-04 m/s
- -c) 2.525E-04 m/s
- -d) 2.777E-04 m/s
- -e) 3.055E-04 m/s
3) A 12.0 V battery can move 26,000 C of charge. How many Joules does it deliver?
- -a) 2.836E+05 J
- +b) 3.120E+05 J
- -c) 3.432E+05 J
- -d) 3.775E+05 J
- -e) 4.153E+05 J
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.8 m. Evaluate at x=1.0 m if a=1.0 m, b=1.8 m. The total charge on the rod is 6 nC.
- -a) 3.610E+00 V/m2
- +b) 3.971E+00 V/m2
- -c) 4.368E+00 V/m2
- -d) 4.804E+00 V/m2
- -e) 5.285E+00 V/m2
5) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 2.8 nano-Coulombs. What is the magnitude of the electric field at a distance of 4.8 m from the center of the shells?
- -a) 2.988E+00 N/C
- -b) 3.287E+00 N/C
- -c) 3.616E+00 N/C
- -d) 3.977E+00 N/C
- +e) 4.375E+00 N/C
- -a) 1.500E+01 μC
- -b) 1.650E+01 μC
- -c) 1.815E+01 μC
- -d) 1.997E+01 μC
- +e) 2.196E+01 μC
- +a) 8.314E+01 N·m2/C
- -b) 9.146E+01 N·m2/C
- -c) 1.006E+02 N·m2/C
- -d) 1.107E+02 N·m2/C
- -e) 1.217E+02 N·m2/C
8)
is an integral that calculates the magnitude of the electric field at a distance fromthe center of a thin circular disk as measured along a line normal to the plane of the disk. The disk's radius is and the surface charge density is . Evaluate at .
- -a) 4.961E-01 V/m2
- -b) 5.457E-01 V/m2
- -c) 6.002E-01 V/m2
- -d) 6.603E-01 V/m2
- +e) 7.263E-01 V/m2
- -a) 6.720E+00 V
- -b) 7.392E+00 V
- -c) 8.131E+00 V
- -d) 8.944E+00 V
- +e) 9.838E+00 V
- -a) 2.306E+01 μC
- -b) 2.537E+01 μC
- -c) 2.790E+01 μC
- -d) 3.069E+01 μC
- +e) 3.376E+01 μC
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Key: Z0
edit- -a) 1.308E-13 N
- -b) 1.439E-13 N
- -c) 1.583E-13 N
- +d) 1.741E-13 N
- -e) 1.915E-13 N
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.7 m. Evaluate at x=0.52 m if a=0.88 m, b=1.3 m. The total charge on the rod is 6 nC.
- -a) 6.804E+00 V/m2
- +b) 7.485E+00 V/m2
- -c) 8.233E+00 V/m2
- -d) 9.056E+00 V/m2
- -e) 9.962E+00 V/m2
3) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 7.4 nano-Coulombs. What is the magnitude of the electric field at a distance of 5.4 m from the center of the shells?
- -a) 8.580E+00 N/C
- -b) 9.438E+00 N/C
- -c) 1.038E+01 N/C
- +d) 1.142E+01 N/C
- -e) 1.256E+01 N/C
- -a) 4.420E+01 N·m2/C
- -b) 4.862E+01 N·m2/C
- -c) 5.348E+01 N·m2/C
- -d) 5.882E+01 N·m2/C
- +e) 6.471E+01 N·m2/C
- -a) 3.852E+02 V
- -b) 4.238E+02 V
- +c) 4.661E+02 V
- -d) 5.127E+02 V
- -e) 5.640E+02 V
6) Calculate the final speed of a free electron accelerated from rest through a potential difference of 19 V.
- -a) 1.942E+06 m/s
- -b) 2.137E+06 m/s
- -c) 2.350E+06 m/s
- +d) 2.585E+06 m/s
- -e) 2.844E+06 m/s
7) An empty parallel-plate capacitor with metal plates has an area of 1.81 m2, separated by 1.26 mm. How much charge does it store if the voltage is 4.610E+03 V?
- -a) 4.005E+01 μC
- -b) 4.405E+01 μC
- -c) 4.846E+01 μC
- -d) 5.330E+01 μC
- +e) 5.864E+01 μC
8) A device requires consumes 156 W of power and requires 5.42 A of current which is supplied by a single core 10-guage (2.588 mm diameter) wire. Find the magnitude of the average current density.
- -a) 7.742E+05 A/m2
- -b) 8.516E+05 A/m2
- -c) 9.367E+05 A/m2
- +d) 1.030E+06 A/m2
- -e) 1.133E+06 A/m2
- -a) 1.385E+01 s
- +b) 1.524E+01 s
- -c) 1.676E+01 s
- -d) 1.844E+01 s
- -e) 2.028E+01 s
- -a) 1.446E+01 W
- -b) 1.591E+01 W
- -c) 1.750E+01 W
- -d) 1.925E+01 W
- +e) 2.117E+01 W
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Key: Z1
edit1) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 1.9 nano-Coulombs. What is the magnitude of the electric field at a distance of 2.1 m from the center of the shells?
- -a) 5.297E+00 N/C
- -b) 5.827E+00 N/C
- -c) 6.409E+00 N/C
- -d) 7.050E+00 N/C
- +e) 7.755E+00 N/C
2) An empty parallel-plate capacitor with metal plates has an area of 2.16 m2, separated by 1.12 mm. How much charge does it store if the voltage is 1.530E+03 V?
- -a) 2.375E+01 μC
- +b) 2.613E+01 μC
- -c) 2.874E+01 μC
- -d) 3.161E+01 μC
- -e) 3.477E+01 μC
3) Calculate the final speed of a free electron accelerated from rest through a potential difference of 19 V.
- -a) 1.942E+06 m/s
- -b) 2.137E+06 m/s
- -c) 2.350E+06 m/s
- +d) 2.585E+06 m/s
- -e) 2.844E+06 m/s
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.5 m. Evaluate at x=1.1 m if a=0.62 m, b=1.3 m. The total charge on the rod is 7 nC.
- -a) 6.311E+00 V/m2
- -b) 6.943E+00 V/m2
- +c) 7.637E+00 V/m2
- -d) 8.401E+00 V/m2
- -e) 9.241E+00 V/m2
- -a) 1.296E+01 s
- -b) 1.425E+01 s
- +c) 1.568E+01 s
- -d) 1.725E+01 s
- -e) 1.897E+01 s
- -a) 7.017E+02 V
- +b) 7.718E+02 V
- -c) 8.490E+02 V
- -d) 9.339E+02 V
- -e) 1.027E+03 V
- -a) 2.186E+01 N·m2/C
- -b) 2.404E+01 N·m2/C
- +c) 2.645E+01 N·m2/C
- -d) 2.909E+01 N·m2/C
- -e) 3.200E+01 N·m2/C
8) A device requires consumes 78 W of power and requires 11.3 A of current which is supplied by a single core 10-guage (2.588 mm diameter) wire. Find the magnitude of the average current density.
- -a) 1.953E+06 A/m2
- +b) 2.148E+06 A/m2
- -c) 2.363E+06 A/m2
- -d) 2.599E+06 A/m2
- -e) 2.859E+06 A/m2
- -a) 1.446E+01 W
- -b) 1.591E+01 W
- -c) 1.750E+01 W
- -d) 1.925E+01 W
- +e) 2.117E+01 W
- -a) 8.613E-15 N
- -b) 9.474E-15 N
- -c) 1.042E-14 N
- +d) 1.146E-14 N
- -e) 1.261E-14 N
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Key: Z2
edit1) A device requires consumes 72 W of power and requires 11.7 A of current which is supplied by a single core 10-guage (2.588 mm diameter) wire. Find the magnitude of the average current density.
- -a) 1.519E+06 A/m2
- -b) 1.671E+06 A/m2
- -c) 1.838E+06 A/m2
- -d) 2.022E+06 A/m2
- +e) 2.224E+06 A/m2
- -a) 8.457E+01 N·m2/C
- +b) 9.303E+01 N·m2/C
- -c) 1.023E+02 N·m2/C
- -d) 1.126E+02 N·m2/C
- -e) 1.238E+02 N·m2/C
is an integral that calculates the z-component of the electric field at point P situated above the x-axis where a charged rod of length (a+b) is located. The distance between point P and the x-axis is z=1.5 m. Evaluate at x=1.1 m if a=0.61 m, b=1.7 m. The total charge on the rod is 8 nC.
- -a) 5.995E+00 V/m2
- -b) 6.595E+00 V/m2
- +c) 7.254E+00 V/m2
- -d) 7.980E+00 V/m2
- -e) 8.778E+00 V/m2
- -a) 5.796E+02 V
- +b) 6.375E+02 V
- -c) 7.013E+02 V
- -d) 7.714E+02 V
- -e) 8.486E+02 V
5) An empty parallel-plate capacitor with metal plates has an area of 1.94 m2, separated by 1.27 mm. How much charge does it store if the voltage is 8.780E+03 V?
- -a) 1.080E+02 μC
- +b) 1.188E+02 μC
- -c) 1.306E+02 μC
- -d) 1.437E+02 μC
- -e) 1.581E+02 μC
- -a) 8.259E-15 N
- -b) 9.085E-15 N
- -c) 9.993E-15 N
- -d) 1.099E-14 N
- +e) 1.209E-14 N
7) Five concentric spherical shells have radius of exactly (1m, 2m, 3m, 4m, 5m).Each is uniformly charged with 7.4 nano-Coulombs. What is the magnitude of the electric field at a distance of 5.4 m from the center of the shells?
- -a) 8.580E+00 N/C
- -b) 9.438E+00 N/C
- -c) 1.038E+01 N/C
- +d) 1.142E+01 N/C
- -e) 1.256E+01 N/C
- -a) 5.401E+00 s
- -b) 5.941E+00 s
- -c) 6.535E+00 s
- -d) 7.189E+00 s
- +e) 7.908E+00 s
- -a) 7.123E+00 W
- -b) 7.835E+00 W
- -c) 8.618E+00 W
- -d) 9.480E+00 W
- +e) 1.043E+01 W
10) Calculate the final speed of a free electron accelerated from rest through a potential difference of 83 V.
- -a) 4.466E+06 m/s
- -b) 4.912E+06 m/s
- +c) 5.403E+06 m/s
- -d) 5.944E+06 m/s
- -e) 6.538E+06 m/s
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