Quizbank/Electricity and Magnetism (calculus based)/c09

c09 A0 edit

1) 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

2) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=27 C and ${\displaystyle \tau =}$0.0154 s. What is the current at ${\displaystyle t=}$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

3) Calculate the drift speed of electrons in a copper wire with a diameter of 5.19 mm carrying a 18.2 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) 5.321E-05 m/s

b) 5.853E-05 m/s

c) 6.439E-05 m/s

d) 7.083E-05 m/s

e) 7.791E-05 m/s

4) 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

c09 A1 edit

1) 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

2) Calculate the resistance of a 12-gauge copper wire that is 90 m long and carries a current of 34 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) 3.432E-01 Ω

b) 3.775E-01 Ω

c) 4.153E-01 Ω

d) 4.568E-01 Ω

e) 5.025E-01 Ω

3) Calculate the drift speed of electrons in a copper wire with a diameter of 4.38 mm carrying a 5.79 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) 2.615E-05 m/s

b) 2.876E-05 m/s

c) 3.164E-05 m/s

d) 3.480E-05 m/s

e) 3.828E-05 m/s

4) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=91 C and ${\displaystyle \tau =}$0.0156 s. What is the current at ${\displaystyle t=}$0.0131 s?

a) 2.082E+03 A

b) 2.290E+03 A

c) 2.519E+03 A

d) 2.771E+03 A

e) 3.048E+03 A

c09 A2 edit

1) Imagine a substance could be made into a very hot filament. Suppose the resitance is 6.74 Ω at a temperature of 89°C and that the temperature coefficient of expansion is 4.990E-03 (°C)⁻¹). What is the resistance at a temperature of 366 °C?

a) 1.529E+01 Ω

b) 1.606E+01 Ω

c) 1.686E+01 Ω

d) 1.770E+01 Ω

e) 1.859E+01 Ω

2) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=58 C and ${\displaystyle \tau =}$0.0249 s. What is the current at ${\displaystyle t=}$0.0191 s?

a) 8.127E+02 A

b) 8.939E+02 A

c) 9.833E+02 A

d) 1.082E+03 A

e) 1.190E+03 A

3) Calculate the drift speed of electrons in a copper wire with a diameter of 5.82 mm carrying a 9.11 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) 1.926E-05 m/s

b) 2.118E-05 m/s

c) 2.330E-05 m/s

d) 2.563E-05 m/s

e) 2.819E-05 m/s

4) 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

c09 B0 edit

1) A make-believe metal has a density of 1.050E+04 kg/m³ and an atomic mass of 58.8 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) 1.075E+29 e⁻/m³

b) 1.183E+29 e⁻/m³

c) 1.301E+29 e⁻/m³

d) 1.431E+29 e⁻/m³

e) 1.574E+29 e⁻/m³

2) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=42 C and ${\displaystyle \tau =}$0.0166 s. What is the current at ${\displaystyle t=}$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

3) A device requires consumes 176 W of power and requires 11.9 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) 2.262E+06 A/m²

b) 2.489E+06 A/m²

c) 2.737E+06 A/m²

d) 3.011E+06 A/m²

e) 3.312E+06 A/m²

4) Calculate the electric field in a 12-gauge copper wire that is 13 m long and carries a current of 59 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) 2.250E-04 V/m

b) 2.475E-04 V/m

c) 2.722E-04 V/m

d) 2.995E-04 V/m

e) 3.294E-04 V/m

c09 B1 edit

1) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=97 C and ${\displaystyle \tau =}$0.0132 s. What is the current at ${\displaystyle t=}$0.0225 s?

a) 1.336E+03 A

b) 1.470E+03 A

c) 1.617E+03 A

d) 1.779E+03 A

e) 1.957E+03 A

2) A make-believe metal has a density of 1.480E+04 kg/m³ and an atomic mass of 73.3 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) 1.105E+29 e⁻/m³

b) 1.215E+29 e⁻/m³

c) 1.337E+29 e⁻/m³

d) 1.471E+29 e⁻/m³

e) 1.618E+29 e⁻/m³

3) Calculate the electric field in a 12-gauge copper wire that is 64 m long and carries a current of 76 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) 2.635E-04 V/m

b) 2.898E-04 V/m

c) 3.188E-04 V/m

d) 3.507E-04 V/m

e) 3.857E-04 V/m

4) A device requires consumes 126 W of power and requires 1.11 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) 2.110E+05 A/m²

b) 2.321E+05 A/m²

c) 2.553E+05 A/m²

d) 2.809E+05 A/m²

e) 3.090E+05 A/m²

c09 B2 edit

1) A device requires consumes 142 W of power and requires 12.1 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) 2.300E+06 A/m²

b) 2.530E+06 A/m²

c) 2.783E+06 A/m²

d) 3.062E+06 A/m²

e) 3.368E+06 A/m²

2) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=30 C and ${\displaystyle \tau =}$0.0178 s. What is the current at ${\displaystyle t=}$0.0161 s?

a) 5.125E+02 A

b) 5.638E+02 A

c) 6.201E+02 A

d) 6.822E+02 A

e) 7.504E+02 A

3) A make-believe metal has a density of 1.300E+04 kg/m³ and an atomic mass of 75.7 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) 9.398E+28 e⁻/m³

b) 1.034E+29 e⁻/m³

c) 1.137E+29 e⁻/m³

d) 1.251E+29 e⁻/m³

e) 1.376E+29 e⁻/m³

4) 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

c09 C0 edit

1) Imagine a substance could be made into a very hot filament. Suppose the resitance is 6.06 Ω at a temperature of 80°C and that the temperature coefficient of expansion is 4.290E-03 (°C)⁻¹). What is the resistance at a temperature of 330 °C?

a) 1.196E+01 Ω

b) 1.256E+01 Ω

c) 1.319E+01 Ω

d) 1.385E+01 Ω

e) 1.454E+01 Ω

2) A make-believe metal has a density of 1.050E+04 kg/m³ and an atomic mass of 58.8 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) 1.075E+29 e⁻/m³

b) 1.183E+29 e⁻/m³

c) 1.301E+29 e⁻/m³

d) 1.431E+29 e⁻/m³

e) 1.574E+29 e⁻/m³

3) Calculate the resistance of a 12-gauge copper wire that is 86 m long and carries a current of 97 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) 4.365E-01 Ω

b) 4.801E-01 Ω

c) 5.282E-01 Ω

d) 5.810E-01 Ω

e) 6.391E-01 Ω

4) Calculate the drift speed of electrons in a copper wire with a diameter of 5.33 mm carrying a 5.1 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) 1.711E-05 m/s

b) 1.882E-05 m/s

c) 2.070E-05 m/s

d) 2.277E-05 m/s

e) 2.505E-05 m/s

c09 C1 edit

1) Imagine a substance could be made into a very hot filament. Suppose the resitance is 6.06 Ω at a temperature of 80°C and that the temperature coefficient of expansion is 4.290E-03 (°C)⁻¹). What is the resistance at a temperature of 330 °C?

a) 1.196E+01 Ω

b) 1.256E+01 Ω

c) 1.319E+01 Ω

d) 1.385E+01 Ω

e) 1.454E+01 Ω

2) A make-believe metal has a density of 1.300E+04 kg/m³ and an atomic mass of 75.7 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) 9.398E+28 e⁻/m³

b) 1.034E+29 e⁻/m³

c) 1.137E+29 e⁻/m³

d) 1.251E+29 e⁻/m³

e) 1.376E+29 e⁻/m³

3) 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

4) Calculate the resistance of a 12-gauge copper wire that is 19 m long and carries a current of 59 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) 7.970E-02 Ω

b) 8.767E-02 Ω

c) 9.644E-02 Ω

d) 1.061E-01 Ω

e) 1.167E-01 Ω

c09 C2 edit

1) A make-believe metal has a density of 1.180E+04 kg/m³ and an atomic mass of 121.0 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) 4.010E+28 e⁻/m³

b) 4.411E+28 e⁻/m³

c) 4.852E+28 e⁻/m³

d) 5.337E+28 e⁻/m³

e) 5.871E+28 e⁻/m³

2) Calculate the resistance of a 12-gauge copper wire that is 14 m long and carries a current of 38 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) 5.873E-02 Ω

b) 6.460E-02 Ω

c) 7.106E-02 Ω

d) 7.816E-02 Ω

e) 8.598E-02 Ω

3) 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

4) 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

c09 D0 edit

1) 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

2) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=30 C and ${\displaystyle \tau =}$0.0178 s. What is the current at ${\displaystyle t=}$0.0161 s?

a) 5.125E+02 A

b) 5.638E+02 A

c) 6.201E+02 A

d) 6.822E+02 A

e) 7.504E+02 A

3) A make-believe metal has a density of 1.050E+04 kg/m³ and an atomic mass of 58.8 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) 1.075E+29 e⁻/m³

b) 1.183E+29 e⁻/m³

c) 1.301E+29 e⁻/m³

d) 1.431E+29 e⁻/m³

e) 1.574E+29 e⁻/m³

4) What is the average current involved when a truck battery sets in motion 572 C of charge in 3.33 s while starting an engine?

a) 1.173E+02 A

b) 1.291E+02 A

c) 1.420E+02 A

d) 1.562E+02 A

e) 1.718E+02 A

c09 D1 edit

1) What is the average current involved when a truck battery sets in motion 760 C of charge in 5.35 s while starting an engine?

a) 1.291E+02 A

b) 1.421E+02 A

c) 1.563E+02 A

d) 1.719E+02 A

e) 1.891E+02 A

2) A make-believe metal has a density of 1.050E+04 kg/m³ and an atomic mass of 58.8 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) 1.075E+29 e⁻/m³

b) 1.183E+29 e⁻/m³

c) 1.301E+29 e⁻/m³

d) 1.431E+29 e⁻/m³

e) 1.574E+29 e⁻/m³

3) 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

4) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=30 C and ${\displaystyle \tau =}$0.0178 s. What is the current at ${\displaystyle t=}$0.0161 s?

a) 5.125E+02 A

b) 5.638E+02 A

c) 6.201E+02 A

d) 6.822E+02 A

e) 7.504E+02 A

c09 D2 edit

1) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=27 C and ${\displaystyle \tau =}$0.0154 s. What is the current at ${\displaystyle t=}$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

2) What is the average current involved when a truck battery sets in motion 659 C of charge in 5.48 s while starting an engine?

a) 8.214E+01 A

b) 9.035E+01 A

c) 9.938E+01 A

d) 1.093E+02 A

e) 1.203E+02 A

3) 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

4) 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

c09 E0 edit

1) A DC winch moter draws 29 amps at 153 volts as it lifts a 4.780E+03 N weight at a constant speed of 0.691 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) 1.226E+00 Ω

b) 1.348E+00 Ω

c) 1.483E+00 Ω

d) 1.632E+00 Ω

e) 1.795E+00 Ω

2) What is consumer cost to operate one 76−W incandescent bulb for 9 hours per day for 1 year (365 days) if the cost of electricity is $0.144 per kilowatt-hour?

a) $3.595E+01

b) $3.955E+01

c) $4.350E+01

d) $4.785E+01

e) $5.264E+01

3) 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

4) Calculate the electric field in a 12-gauge copper wire that is 48 m long and carries a current of 63 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) 3.198E-04 V/m

b) 3.517E-04 V/m

c) 3.869E-04 V/m

d) 4.256E-04 V/m

e) 4.682E-04 V/m

c09 E1 edit

1) 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

2) A device requires consumes 166 W of power and requires 9.99 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) 1.570E+06 A/m²

b) 1.727E+06 A/m²

c) 1.899E+06 A/m²

d) 2.089E+06 A/m²

e) 2.298E+06 A/m²

3) 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

4) 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

c09 E2 edit

1) A device requires consumes 166 W of power and requires 9.99 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) 1.570E+06 A/m²

b) 1.727E+06 A/m²

c) 1.899E+06 A/m²

d) 2.089E+06 A/m²

e) 2.298E+06 A/m²

2) What is consumer cost to operate one 102−W incandescent bulb for 6 hours per day for 1 year (365 days) if the cost of electricity is $0.127 per kilowatt-hour?

a) $2.131E+01

b) $2.345E+01

c) $2.579E+01

d) $2.837E+01

e) $3.121E+01

3) A DC winch moter draws 27 amps at 143 volts as it lifts a 5.060E+03 N weight at a constant speed of 0.623 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) 8.033E-01 Ω

b) 8.837E-01 Ω

c) 9.720E-01 Ω

d) 1.069E+00 Ω

e) 1.176E+00 Ω

4) Calculate the electric field in a 12-gauge copper wire that is 18 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) 1.117E-04 V/m

b) 1.228E-04 V/m

c) 1.351E-04 V/m

d) 1.486E-04 V/m

e) 1.635E-04 V/m

c09 F0 edit

1) 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

2) A device requires consumes 185 W of power and requires 10.1 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) 1.920E+06 A/m²

b) 2.112E+06 A/m²

c) 2.323E+06 A/m²

d) 2.556E+06 A/m²

e) 2.811E+06 A/m²

3) Calculate the resistance of a 12-gauge copper wire that is 48 m long and carries a current of 50 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) 2.215E-01 Ω

b) 2.436E-01 Ω

c) 2.680E-01 Ω

d) 2.948E-01 Ω

e) 3.243E-01 Ω

4) A make-believe metal has a density of 1.300E+04 kg/m³ and an atomic mass of 75.7 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) 9.398E+28 e⁻/m³

b) 1.034E+29 e⁻/m³

c) 1.137E+29 e⁻/m³

d) 1.251E+29 e⁻/m³

e) 1.376E+29 e⁻/m³

c09 F1 edit

1) Calculate the resistance of a 12-gauge copper wire that is 69 m long and carries a current of 98 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) 2.631E-01 Ω

b) 2.894E-01 Ω

c) 3.184E-01 Ω

d) 3.502E-01 Ω

e) 3.852E-01 Ω

2) 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

3) 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

4) A device requires consumes 177 W of power and requires 6.82 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) 9.741E+05 A/m²

b) 1.072E+06 A/m²

c) 1.179E+06 A/m²

d) 1.297E+06 A/m²

e) 1.426E+06 A/m²

c09 F2 edit

1) 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

2) Calculate the resistance of a 12-gauge copper wire that is 14 m long and carries a current of 38 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) 5.873E-02 Ω

b) 6.460E-02 Ω

c) 7.106E-02 Ω

d) 7.816E-02 Ω

e) 8.598E-02 Ω

3) 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

4) A device requires consumes 103 W of power and requires 6.3 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) 8.999E+05 A/m²

b) 9.899E+05 A/m²

c) 1.089E+06 A/m²

d) 1.198E+06 A/m²

e) 1.317E+06 A/m²

c09 G0 edit

1) 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

2) Calculate the electric field in a 12-gauge copper wire that is 99 m long and carries a current of 71 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) 3.604E-04 V/m

b) 3.964E-04 V/m

c) 4.360E-04 V/m

d) 4.796E-04 V/m

e) 5.276E-04 V/m

3) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=42 C and ${\displaystyle \tau =}$0.0166 s. What is the current at ${\displaystyle t=}$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

4) A DC winch moter draws 23 amps at 170 volts as it lifts a 5.200E+03 N weight at a constant speed of 0.662 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) 7.305E-01 Ω

b) 8.036E-01 Ω

c) 8.839E-01 Ω

d) 9.723E-01 Ω

e) 1.070E+00 Ω

c09 G1 edit

1) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=24 C and ${\displaystyle \tau =}$0.0248 s. What is the current at ${\displaystyle t=}$0.0122 s?

a) 4.042E+02 A

b) 4.446E+02 A

c) 4.890E+02 A

d) 5.379E+02 A

e) 5.917E+02 A

2) Calculate the electric field in a 12-gauge copper wire that is 18 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) 1.117E-04 V/m

b) 1.228E-04 V/m

c) 1.351E-04 V/m

d) 1.486E-04 V/m

e) 1.635E-04 V/m

3) A make-believe metal has a density of 1.580E+04 kg/m³ and an atomic mass of 41.5 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) 2.292E+29 e⁻/m³

b) 2.521E+29 e⁻/m³

c) 2.773E+29 e⁻/m³

d) 3.051E+29 e⁻/m³

e) 3.356E+29 e⁻/m³

4) A DC winch moter draws 13 amps at 159 volts as it lifts a 4.270E+03 N weight at a constant speed of 0.357 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) 3.211E+00 Ω

b) 3.532E+00 Ω

c) 3.885E+00 Ω

d) 4.273E+00 Ω

e) 4.701E+00 Ω

c09 G2 edit

1) 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

2) 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

3) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=91 C and ${\displaystyle \tau =}$0.0156 s. What is the current at ${\displaystyle t=}$0.0131 s?

a) 2.082E+03 A

b) 2.290E+03 A

c) 2.519E+03 A

d) 2.771E+03 A

e) 3.048E+03 A

4) A make-believe metal has a density of 1.480E+04 kg/m³ and an atomic mass of 73.3 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) 1.105E+29 e⁻/m³

b) 1.215E+29 e⁻/m³

c) 1.337E+29 e⁻/m³

d) 1.471E+29 e⁻/m³

e) 1.618E+29 e⁻/m³

c09 H0 edit

1) A make-believe metal has a density of 1.050E+04 kg/m³ and an atomic mass of 58.8 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) 1.075E+29 e⁻/m³

b) 1.183E+29 e⁻/m³

c) 1.301E+29 e⁻/m³

d) 1.431E+29 e⁻/m³

e) 1.574E+29 e⁻/m³

2) Calculate the electric field in a 12-gauge copper wire that is 48 m long and carries a current of 63 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) 3.198E-04 V/m

b) 3.517E-04 V/m

c) 3.869E-04 V/m

d) 4.256E-04 V/m

e) 4.682E-04 V/m

3) 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

4) A DC winch moter draws 20 amps at 157 volts as it lifts a 5.270E+03 N weight at a constant speed of 0.403 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) 2.540E+00 Ω

b) 2.795E+00 Ω

c) 3.074E+00 Ω

d) 3.381E+00 Ω

e) 3.720E+00 Ω

c09 H1 edit

1) A make-believe metal has a density of 5.880E+03 kg/m³ and an atomic mass of 87.4 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) 3.347E+28 e⁻/m³

b) 3.682E+28 e⁻/m³

c) 4.050E+28 e⁻/m³

d) 4.455E+28 e⁻/m³

e) 4.901E+28 e⁻/m³

2) 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

3) A device requires consumes 84 W of power and requires 3.66 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) 5.751E+05 A/m²

b) 6.326E+05 A/m²

c) 6.958E+05 A/m²

d) 7.654E+05 A/m²

e) 8.419E+05 A/m²

4) A DC winch moter draws 25 amps at 128 volts as it lifts a 5.710E+03 N weight at a constant speed of 0.449 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) 8.413E-01 Ω

b) 9.254E-01 Ω

c) 1.018E+00 Ω

d) 1.120E+00 Ω

e) 1.232E+00 Ω

c09 H2 edit

1) A DC winch moter draws 24 amps at 159 volts as it lifts a 4.120E+03 N weight at a constant speed of 0.657 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) 1.447E+00 Ω

b) 1.591E+00 Ω

c) 1.751E+00 Ω

d) 1.926E+00 Ω

e) 2.118E+00 Ω

2) A device requires consumes 81 W of power and requires 2.34 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) 3.342E+05 A/m²

b) 3.677E+05 A/m²

c) 4.044E+05 A/m²

d) 4.449E+05 A/m²

e) 4.894E+05 A/m²

3) A make-believe metal has a density of 1.180E+04 kg/m³ and an atomic mass of 121.0 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) 4.010E+28 e⁻/m³

b) 4.411E+28 e⁻/m³

c) 4.852E+28 e⁻/m³

d) 5.337E+28 e⁻/m³

e) 5.871E+28 e⁻/m³

4) Calculate the electric field in a 12-gauge copper wire that is 99 m long and carries a current of 71 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) 3.604E-04 V/m

b) 3.964E-04 V/m

c) 4.360E-04 V/m

d) 4.796E-04 V/m

e) 5.276E-04 V/m

c09 I0 edit

1) 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

2) Calculate the electric field in a 12-gauge copper wire that is 16 m long and carries a current of 58 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) 2.212E-04 V/m

b) 2.433E-04 V/m

c) 2.676E-04 V/m

d) 2.944E-04 V/m

e) 3.238E-04 V/m

3) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=85 C and ${\displaystyle \tau =}$0.021 s. What is the current at ${\displaystyle t=}$0.0128 s?

a) 1.503E+03 A

b) 1.653E+03 A

c) 1.818E+03 A

d) 2.000E+03 A

e) 2.200E+03 A

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

c09 I1 edit

1) Imagine a substance could be made into a very hot filament. Suppose the resitance is 6.06 Ω at a temperature of 80°C and that the temperature coefficient of expansion is 4.290E-03 (°C)⁻¹). What is the resistance at a temperature of 330 °C?

a) 1.196E+01 Ω

b) 1.256E+01 Ω

c) 1.319E+01 Ω

d) 1.385E+01 Ω

e) 1.454E+01 Ω

2) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=63 C and ${\displaystyle \tau =}$0.0149 s. What is the current at ${\displaystyle t=}$0.0172 s?

a) 1.212E+03 A

b) 1.333E+03 A

c) 1.466E+03 A

d) 1.613E+03 A

e) 1.774E+03 A

3) What is consumer cost to operate one 102−W incandescent bulb for 6 hours per day for 1 year (365 days) if the cost of electricity is $0.127 per kilowatt-hour?

a) $2.131E+01

b) $2.345E+01

c) $2.579E+01

d) $2.837E+01

e) $3.121E+01

4) Calculate the electric field in a 12-gauge copper wire that is 62 m long and carries a current of 52 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-04 V/m

b) 2.181E-04 V/m

c) 2.399E-04 V/m

d) 2.639E-04 V/m

e) 2.903E-04 V/m

c09 I2 edit

1) Imagine a substance could be made into a very hot filament. Suppose the resitance is 6.74 Ω at a temperature of 89°C and that the temperature coefficient of expansion is 4.990E-03 (°C)⁻¹). What is the resistance at a temperature of 366 °C?

a) 1.529E+01 Ω

b) 1.606E+01 Ω

c) 1.686E+01 Ω

d) 1.770E+01 Ω

e) 1.859E+01 Ω

2) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=18 C and ${\displaystyle \tau =}$0.0169 s. What is the current at ${\displaystyle t=}$0.0137 s?

a) 3.913E+02 A

b) 4.305E+02 A

c) 4.735E+02 A

d) 5.209E+02 A

e) 5.729E+02 A

3) 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

4) Calculate the electric field in a 12-gauge copper wire that is 84 m long and carries a current of 48 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) 1.664E-04 V/m

b) 1.830E-04 V/m

c) 2.013E-04 V/m

d) 2.215E-04 V/m

e) 2.436E-04 V/m

c09 J0 edit

1) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=97 C and ${\displaystyle \tau =}$0.0132 s. What is the current at ${\displaystyle t=}$0.0225 s?

a) 1.336E+03 A

b) 1.470E+03 A

c) 1.617E+03 A

d) 1.779E+03 A

e) 1.957E+03 A

2) Calculate the resistance of a 12-gauge copper wire that is 90 m long and carries a current of 34 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) 3.432E-01 Ω

b) 3.775E-01 Ω

c) 4.153E-01 Ω

d) 4.568E-01 Ω

e) 5.025E-01 Ω

3) What is consumer cost to operate one 89−W incandescent bulb for 10 hours per day for 1 year (365 days) if the cost of electricity is $0.141 per kilowatt-hour?

a) $3.785E+01

b) $4.164E+01

c) $4.580E+01

d) $5.038E+01

e) $5.542E+01

4) 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

c09 J1 edit

1) Calculate the resistance of a 12-gauge copper wire that is 10 m long and carries a current of 69 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) 4.614E-02 Ω

b) 5.076E-02 Ω

c) 5.583E-02 Ω

d) 6.141E-02 Ω

e) 6.756E-02 Ω

2) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=42 C and ${\displaystyle \tau =}$0.0166 s. What is the current at ${\displaystyle t=}$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

3) A device requires consumes 103 W of power and requires 6.3 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) 8.999E+05 A/m²

b) 9.899E+05 A/m²

c) 1.089E+06 A/m²

d) 1.198E+06 A/m²

e) 1.317E+06 A/m²

4) What is consumer cost to operate one 69−W incandescent bulb for 7 hours per day for 1 year (365 days) if the cost of electricity is $0.117 per kilowatt-hour?

a) $2.063E+01

b) $2.269E+01

c) $2.496E+01

d) $2.745E+01

e) $3.020E+01

c09 J2 edit

1) A device requires consumes 103 W of power and requires 6.3 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) 8.999E+05 A/m²

b) 9.899E+05 A/m²

c) 1.089E+06 A/m²

d) 1.198E+06 A/m²

e) 1.317E+06 A/m²

2) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=23 C and ${\displaystyle \tau =}$0.0204 s. What is the current at ${\displaystyle t=}$0.0106 s?

a) 6.096E+02 A

b) 6.706E+02 A

c) 7.376E+02 A

d) 8.114E+02 A

e) 8.925E+02 A

3) What is consumer cost to operate one 57−W incandescent bulb for 11 hours per day for 1 year (365 days) if the cost of electricity is $0.146 per kilowatt-hour?

a) $2.282E+01

b) $2.510E+01

c) $2.761E+01

d) $3.038E+01

e) $3.341E+01

4) 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

c09 K0 edit

1) 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

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

3) What is consumer cost to operate one 89−W incandescent bulb for 10 hours per day for 1 year (365 days) if the cost of electricity is $0.141 per kilowatt-hour?

a) $3.785E+01

b) $4.164E+01

c) $4.580E+01

d) $5.038E+01

e) $5.542E+01

4) 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

c09 K1 edit

1) What is consumer cost to operate one 65−W incandescent bulb for 12 hours per day for 1 year (365 days) if the cost of electricity is $0.134 per kilowatt-hour?

a) $2.866E+01

b) $3.153E+01

c) $3.468E+01

d) $3.815E+01

e) $4.196E+01

2) A device requires consumes 81 W of power and requires 2.34 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) 3.342E+05 A/m²

b) 3.677E+05 A/m²

c) 4.044E+05 A/m²

d) 4.449E+05 A/m²

e) 4.894E+05 A/m²

3) 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

4) Calculate the electric field in a 12-gauge copper wire that is 18 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) 1.117E-04 V/m

b) 1.228E-04 V/m

c) 1.351E-04 V/m

d) 1.486E-04 V/m

e) 1.635E-04 V/m

c09 K2 edit

1) Calculate the electric field in a 12-gauge copper wire that is 18 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) 1.117E-04 V/m

b) 1.228E-04 V/m

c) 1.351E-04 V/m

d) 1.486E-04 V/m

e) 1.635E-04 V/m

2) What is consumer cost to operate one 76−W incandescent bulb for 9 hours per day for 1 year (365 days) if the cost of electricity is $0.144 per kilowatt-hour?

a) $3.595E+01

b) $3.955E+01

c) $4.350E+01

d) $4.785E+01

e) $5.264E+01

3) 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

4) A device requires consumes 177 W of power and requires 6.82 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) 9.741E+05 A/m²

b) 1.072E+06 A/m²

c) 1.179E+06 A/m²

d) 1.297E+06 A/m²

e) 1.426E+06 A/m²

c09 L0 edit

1) 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

2) What is consumer cost to operate one 102−W incandescent bulb for 5 hours per day for 1 year (365 days) if the cost of electricity is $0.149 per kilowatt-hour?

a) $2.292E+01

b) $2.521E+01

c) $2.774E+01

d) $3.051E+01

e) $3.356E+01

3) Imagine a substance could be made into a very hot filament. Suppose the resitance is 4.48 Ω at a temperature of 56°C and that the temperature coefficient of expansion is 4.550E-03 (°C)⁻¹). What is the resistance at a temperature of 449 °C?

a) 1.028E+01 Ω

b) 1.079E+01 Ω

c) 1.133E+01 Ω

d) 1.190E+01 Ω

e) 1.249E+01 Ω

4) Calculate the drift speed of electrons in a copper wire with a diameter of 5.46 mm carrying a 5.05 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) 1.614E-05 m/s

b) 1.776E-05 m/s

c) 1.953E-05 m/s

d) 2.149E-05 m/s

e) 2.363E-05 m/s

c09 L1 edit

1) What is consumer cost to operate one 73−W incandescent bulb for 11 hours per day for 1 year (365 days) if the cost of electricity is $0.113 per kilowatt-hour?

a) $3.312E+01

b) $3.643E+01

c) $4.007E+01

d) $4.408E+01

e) $4.849E+01

2) A device requires consumes 177 W of power and requires 6.82 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) 9.741E+05 A/m²

b) 1.072E+06 A/m²

c) 1.179E+06 A/m²

d) 1.297E+06 A/m²

e) 1.426E+06 A/m²

3) Calculate the drift speed of electrons in a copper wire with a diameter of 2.17 mm carrying a 19.4 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) 3.569E-04 m/s

b) 3.926E-04 m/s

c) 4.319E-04 m/s

d) 4.750E-04 m/s

e) 5.226E-04 m/s

4) 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

c09 L2 edit

1) 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

2) 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

3) Imagine a substance could be made into a very hot filament. Suppose the resitance is 4.48 Ω at a temperature of 56°C and that the temperature coefficient of expansion is 4.550E-03 (°C)⁻¹). What is the resistance at a temperature of 449 °C?

a) 1.028E+01 Ω

b) 1.079E+01 Ω

c) 1.133E+01 Ω

d) 1.190E+01 Ω

e) 1.249E+01 Ω

4) Calculate the drift speed of electrons in a copper wire with a diameter of 4.9 mm carrying a 6.43 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) 2.109E-05 m/s

b) 2.320E-05 m/s

c) 2.552E-05 m/s

d) 2.807E-05 m/s

e) 3.088E-05 m/s

c09 M0 edit

1) A device requires consumes 103 W of power and requires 6.3 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) 8.999E+05 A/m²

b) 9.899E+05 A/m²

c) 1.089E+06 A/m²

d) 1.198E+06 A/m²

e) 1.317E+06 A/m²

2) Calculate the electric field in a 12-gauge copper wire that is 16 m long and carries a current of 58 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) 2.212E-04 V/m

b) 2.433E-04 V/m

c) 2.676E-04 V/m

d) 2.944E-04 V/m

e) 3.238E-04 V/m

3) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=11 C and ${\displaystyle \tau =}$0.0162 s. What is the current at ${\displaystyle t=}$0.0249 s?

a) 9.972E+01 A

b) 1.097E+02 A

c) 1.207E+02 A

d) 1.327E+02 A

e) 1.460E+02 A

4) What is consumer cost to operate one 59−W incandescent bulb for 10 hours per day for 1 year (365 days) if the cost of electricity is $0.132 per kilowatt-hour?

a) $2.584E+01

b) $2.843E+01

c) $3.127E+01

d) $3.440E+01

e) $3.784E+01

c09 M1 edit

1) What is consumer cost to operate one 102−W incandescent bulb for 5 hours per day for 1 year (365 days) if the cost of electricity is $0.149 per kilowatt-hour?

a) $2.292E+01

b) $2.521E+01

c) $2.774E+01

d) $3.051E+01

e) $3.356E+01

2) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=18 C and ${\displaystyle \tau =}$0.0169 s. What is the current at ${\displaystyle t=}$0.0137 s?

a) 3.913E+02 A

b) 4.305E+02 A

c) 4.735E+02 A

d) 5.209E+02 A

e) 5.729E+02 A

3) 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

4) A device requires consumes 166 W of power and requires 9.99 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) 1.570E+06 A/m²

b) 1.727E+06 A/m²

c) 1.899E+06 A/m²

d) 2.089E+06 A/m²

e) 2.298E+06 A/m²

c09 M2 edit

1) What is consumer cost to operate one 102−W incandescent bulb for 5 hours per day for 1 year (365 days) if the cost of electricity is $0.149 per kilowatt-hour?

a) $2.292E+01

b) $2.521E+01

c) $2.774E+01

d) $3.051E+01

e) $3.356E+01

2) A device requires consumes 120 W of power and requires 4.85 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) 7.620E+05 A/m²

b) 8.382E+05 A/m²

c) 9.221E+05 A/m²

d) 1.014E+06 A/m²

e) 1.116E+06 A/m²

3) 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

4) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=78 C and ${\displaystyle \tau =}$0.0244 s. What is the current at ${\displaystyle t=}$0.0225 s?

a) 1.271E+03 A

b) 1.398E+03 A

c) 1.538E+03 A

d) 1.692E+03 A

e) 1.861E+03 A

c09 N0 edit

1) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=18 C and ${\displaystyle \tau =}$0.0169 s. What is the current at ${\displaystyle t=}$0.0137 s?

a) 3.913E+02 A

b) 4.305E+02 A

c) 4.735E+02 A

d) 5.209E+02 A

e) 5.729E+02 A

2) 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

3) Calculate the drift speed of electrons in a copper wire with a diameter of 4.38 mm carrying a 5.79 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) 2.615E-05 m/s

b) 2.876E-05 m/s

c) 3.164E-05 m/s

d) 3.480E-05 m/s

e) 3.828E-05 m/s

4) A DC winch moter draws 24 amps at 159 volts as it lifts a 4.120E+03 N weight at a constant speed of 0.657 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) 1.447E+00 Ω

b) 1.591E+00 Ω

c) 1.751E+00 Ω

d) 1.926E+00 Ω

e) 2.118E+00 Ω

c09 N1 edit

1) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=42 C and ${\displaystyle \tau =}$0.0166 s. What is the current at ${\displaystyle t=}$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

2) Calculate the drift speed of electrons in a copper wire with a diameter of 4.9 mm carrying a 6.43 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) 2.109E-05 m/s

b) 2.320E-05 m/s

c) 2.552E-05 m/s

d) 2.807E-05 m/s

e) 3.088E-05 m/s

3) A DC winch moter draws 20 amps at 169 volts as it lifts a 5.120E+03 N weight at a constant speed of 0.543 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) 1.500E+00 Ω

b) 1.650E+00 Ω

c) 1.815E+00 Ω

d) 1.996E+00 Ω

e) 2.196E+00 Ω

4) A make-believe metal has a density of 1.480E+04 kg/m³ and an atomic mass of 73.3 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) 1.105E+29 e⁻/m³

b) 1.215E+29 e⁻/m³

c) 1.337E+29 e⁻/m³

d) 1.471E+29 e⁻/m³

e) 1.618E+29 e⁻/m³

c09 N2 edit

1) A DC winch moter draws 24 amps at 159 volts as it lifts a 4.120E+03 N weight at a constant speed of 0.657 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) 1.447E+00 Ω

b) 1.591E+00 Ω

c) 1.751E+00 Ω

d) 1.926E+00 Ω

e) 2.118E+00 Ω

2) 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

3) 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

4) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=87 C and ${\displaystyle \tau =}$0.0154 s. What is the current at ${\displaystyle t=}$0.0211 s?

a) 1.435E+03 A

b) 1.579E+03 A

c) 1.737E+03 A

d) 1.910E+03 A

e) 2.102E+03 A

c09 O0 edit

1) A device requires consumes 126 W of power and requires 1.11 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) 2.110E+05 A/m²

b) 2.321E+05 A/m²

c) 2.553E+05 A/m²

d) 2.809E+05 A/m²

e) 3.090E+05 A/m²

2) Imagine a substance could be made into a very hot filament. Suppose the resitance is 4.48 Ω at a temperature of 56°C and that the temperature coefficient of expansion is 4.550E-03 (°C)⁻¹). What is the resistance at a temperature of 449 °C?

a) 1.028E+01 Ω

b) 1.079E+01 Ω

c) 1.133E+01 Ω

d) 1.190E+01 Ω

e) 1.249E+01 Ω

3) Calculate the resistance of a 12-gauge copper wire that is 45 m long and carries a current of 51 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) 1.716E-01 Ω

b) 1.888E-01 Ω

c) 2.076E-01 Ω

d) 2.284E-01 Ω

e) 2.512E-01 Ω

4) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=78 C and ${\displaystyle \tau =}$0.0244 s. What is the current at ${\displaystyle t=}$0.0225 s?

a) 1.271E+03 A

b) 1.398E+03 A

c) 1.538E+03 A

d) 1.692E+03 A

e) 1.861E+03 A

c09 O1 edit

1) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=97 C and ${\displaystyle \tau =}$0.0132 s. What is the current at ${\displaystyle t=}$0.0225 s?

a) 1.336E+03 A

b) 1.470E+03 A

c) 1.617E+03 A

d) 1.779E+03 A

e) 1.957E+03 A

2) A device requires consumes 81 W of power and requires 2.34 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) 3.342E+05 A/m²

b) 3.677E+05 A/m²

c) 4.044E+05 A/m²

d) 4.449E+05 A/m²

e) 4.894E+05 A/m²

3) Imagine a substance could be made into a very hot filament. Suppose the resitance is 1.56 Ω at a temperature of 97°C and that the temperature coefficient of expansion is 5.020E-03 (°C)⁻¹). What is the resistance at a temperature of 340 °C?

a) 3.463E+00 Ω

b) 3.636E+00 Ω

c) 3.818E+00 Ω

d) 4.009E+00 Ω

e) 4.209E+00 Ω

4) 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

c09 O2 edit

1) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=87 C and ${\displaystyle \tau =}$0.0154 s. What is the current at ${\displaystyle t=}$0.0211 s?

a) 1.435E+03 A

b) 1.579E+03 A

c) 1.737E+03 A

d) 1.910E+03 A

e) 2.102E+03 A

2) Imagine a substance could be made into a very hot filament. Suppose the resitance is 6.74 Ω at a temperature of 89°C and that the temperature coefficient of expansion is 4.990E-03 (°C)⁻¹). What is the resistance at a temperature of 366 °C?

a) 1.529E+01 Ω

b) 1.606E+01 Ω

c) 1.686E+01 Ω

d) 1.770E+01 Ω

e) 1.859E+01 Ω

3) 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

4) Calculate the resistance of a 12-gauge copper wire that is 19 m long and carries a current of 59 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) 7.970E-02 Ω

b) 8.767E-02 Ω

c) 9.644E-02 Ω

d) 1.061E-01 Ω

e) 1.167E-01 Ω

c09 P0 edit

1) What is consumer cost to operate one 105−W incandescent bulb for 11 hours per day for 1 year (365 days) if the cost of electricity is $0.131 per kilowatt-hour?

a) $5.021E+01

b) $5.523E+01

c) $6.075E+01

d) $6.682E+01

e) $7.351E+01

2) Calculate the electric field in a 12-gauge copper wire that is 84 m long and carries a current of 48 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) 1.664E-04 V/m

b) 1.830E-04 V/m

c) 2.013E-04 V/m

d) 2.215E-04 V/m

e) 2.436E-04 V/m

3) A device requires consumes 120 W of power and requires 4.85 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) 7.620E+05 A/m²

b) 8.382E+05 A/m²

c) 9.221E+05 A/m²

d) 1.014E+06 A/m²

e) 1.116E+06 A/m²

4) Calculate the resistance of a 12-gauge copper wire that is 15 m long and carries a current of 27 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) 5.200E-02 Ω

b) 5.720E-02 Ω

c) 6.292E-02 Ω

d) 6.921E-02 Ω

e) 7.613E-02 Ω

c09 P1 edit

1) Calculate the electric field in a 12-gauge copper wire that is 41 m long and carries a current of 71 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) 3.604E-04 V/m

b) 3.964E-04 V/m

c) 4.360E-04 V/m

d) 4.796E-04 V/m

e) 5.276E-04 V/m

2) Calculate the resistance of a 12-gauge copper wire that is 69 m long and carries a current of 98 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) 2.631E-01 Ω

b) 2.894E-01 Ω

c) 3.184E-01 Ω

d) 3.502E-01 Ω

e) 3.852E-01 Ω

3) What is consumer cost to operate one 73−W incandescent bulb for 11 hours per day for 1 year (365 days) if the cost of electricity is $0.113 per kilowatt-hour?

a) $3.312E+01

b) $3.643E+01

c) $4.007E+01

d) $4.408E+01

e) $4.849E+01

4) A device requires consumes 166 W of power and requires 9.99 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) 1.570E+06 A/m²

b) 1.727E+06 A/m²

c) 1.899E+06 A/m²

d) 2.089E+06 A/m²

e) 2.298E+06 A/m²

c09 P2 edit

1) A device requires consumes 120 W of power and requires 4.85 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) 7.620E+05 A/m²

b) 8.382E+05 A/m²

c) 9.221E+05 A/m²

d) 1.014E+06 A/m²

e) 1.116E+06 A/m²

2) What is consumer cost to operate one 65−W incandescent bulb for 12 hours per day for 1 year (365 days) if the cost of electricity is $0.134 per kilowatt-hour?

a) $2.866E+01

b) $3.153E+01

c) $3.468E+01

d) $3.815E+01

e) $4.196E+01

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) Calculate the resistance of a 12-gauge copper wire that is 90 m long and carries a current of 34 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) 3.432E-01 Ω

b) 3.775E-01 Ω

c) 4.153E-01 Ω

d) 4.568E-01 Ω

e) 5.025E-01 Ω

c09 Q0 edit

1) What is the average current involved when a truck battery sets in motion 779 C of charge in 3.96 s while starting an engine?

a) 1.626E+02 A

b) 1.788E+02 A

c) 1.967E+02 A

d) 2.164E+02 A

e) 2.380E+02 A

2) What is consumer cost to operate one 69−W incandescent bulb for 7 hours per day for 1 year (365 days) if the cost of electricity is $0.117 per kilowatt-hour?

a) $2.063E+01

b) $2.269E+01

c) $2.496E+01

d) $2.745E+01

e) $3.020E+01

3) Calculate the resistance of a 12-gauge copper wire that is 78 m long and carries a current of 82 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) 2.974E-01 Ω

b) 3.272E-01 Ω

c) 3.599E-01 Ω

d) 3.959E-01 Ω

e) 4.355E-01 Ω

4) Calculate the electric field in a 12-gauge copper wire that is 18 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) 1.117E-04 V/m

b) 1.228E-04 V/m

c) 1.351E-04 V/m

d) 1.486E-04 V/m

e) 1.635E-04 V/m

c09 Q1 edit

1) What is the average current involved when a truck battery sets in motion 659 C of charge in 5.48 s while starting an engine?

a) 8.214E+01 A

b) 9.035E+01 A

c) 9.938E+01 A

d) 1.093E+02 A

e) 1.203E+02 A

2) 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

3) Calculate the resistance of a 12-gauge copper wire that is 69 m long and carries a current of 98 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) 2.631E-01 Ω

b) 2.894E-01 Ω

c) 3.184E-01 Ω

d) 3.502E-01 Ω

e) 3.852E-01 Ω

4) 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

c09 Q2 edit

1) What is consumer cost to operate one 69−W incandescent bulb for 7 hours per day for 1 year (365 days) if the cost of electricity is $0.117 per kilowatt-hour?

a) $2.063E+01

b) $2.269E+01

c) $2.496E+01

d) $2.745E+01

e) $3.020E+01

2) What is the average current involved when a truck battery sets in motion 631 C of charge in 3.8 s while starting an engine?

a) 1.661E+02 A

b) 1.827E+02 A

c) 2.009E+02 A

d) 2.210E+02 A

e) 2.431E+02 A

3) Calculate the electric field in a 12-gauge copper wire that is 56 m long and carries a current of 81 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) 4.111E-04 V/m

b) 4.522E-04 V/m

c) 4.975E-04 V/m

d) 5.472E-04 V/m

e) 6.019E-04 V/m

4) 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

c09 R0 edit

1) 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) Calculate the electric field in a 12-gauge copper wire that is 62 m long and carries a current of 52 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-04 V/m

b) 2.181E-04 V/m

c) 2.399E-04 V/m

d) 2.639E-04 V/m

e) 2.903E-04 V/m

3) Imagine a substance could be made into a very hot filament. Suppose the resitance is 1.56 Ω at a temperature of 97°C and that the temperature coefficient of expansion is 5.020E-03 (°C)⁻¹). What is the resistance at a temperature of 340 °C?

a) 3.463E+00 Ω

b) 3.636E+00 Ω

c) 3.818E+00 Ω

d) 4.009E+00 Ω

e) 4.209E+00 Ω

4) A device requires consumes 176 W of power and requires 11.9 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) 2.262E+06 A/m²

b) 2.489E+06 A/m²

c) 2.737E+06 A/m²

d) 3.011E+06 A/m²

e) 3.312E+06 A/m²

c09 R1 edit

1) 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

2) Calculate the electric field in a 12-gauge copper wire that is 21 m long and carries a current of 42 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) 1.602E-04 V/m

b) 1.762E-04 V/m

c) 1.938E-04 V/m

d) 2.132E-04 V/m

e) 2.345E-04 V/m

3) Calculate the resistance of a 12-gauge copper wire that is 45 m long and carries a current of 51 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) 1.716E-01 Ω

b) 1.888E-01 Ω

c) 2.076E-01 Ω

d) 2.284E-01 Ω

e) 2.512E-01 Ω

4) 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

c09 R2 edit

1) Calculate the resistance of a 12-gauge copper wire that is 48 m long and carries a current of 50 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) 2.215E-01 Ω

b) 2.436E-01 Ω

c) 2.680E-01 Ω

d) 2.948E-01 Ω

e) 3.243E-01 Ω

2) Calculate the electric field in a 12-gauge copper wire that is 84 m long and carries a current of 48 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) 1.664E-04 V/m

b) 1.830E-04 V/m

c) 2.013E-04 V/m

d) 2.215E-04 V/m

e) 2.436E-04 V/m

3) 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

4) 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

c09 S0 edit

1) 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

2) Calculate the drift speed of electrons in a copper wire with a diameter of 4.49 mm carrying a 11.6 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) 4.120E-05 m/s

b) 4.532E-05 m/s

c) 4.985E-05 m/s

d) 5.483E-05 m/s

e) 6.032E-05 m/s

3) 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

4) 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

c09 S1 edit

1) Calculate the electric field in a 12-gauge copper wire that is 21 m long and carries a current of 42 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) 1.602E-04 V/m

b) 1.762E-04 V/m

c) 1.938E-04 V/m

d) 2.132E-04 V/m

e) 2.345E-04 V/m

2) A make-believe metal has a density of 1.300E+04 kg/m³ and an atomic mass of 75.7 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) 9.398E+28 e⁻/m³

b) 1.034E+29 e⁻/m³

c) 1.137E+29 e⁻/m³

d) 1.251E+29 e⁻/m³

e) 1.376E+29 e⁻/m³

3) A device requires consumes 172 W of power and requires 2.21 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) 3.157E+05 A/m²

b) 3.472E+05 A/m²

c) 3.820E+05 A/m²

d) 4.202E+05 A/m²

e) 4.622E+05 A/m²

4) Calculate the drift speed of electrons in a copper wire with a diameter of 3.3 mm carrying a 18.5 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) 1.472E-04 m/s

b) 1.619E-04 m/s

c) 1.781E-04 m/s

d) 1.959E-04 m/s

e) 2.155E-04 m/s

c09 S2 edit

1) A device requires consumes 84 W of power and requires 3.66 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) 5.751E+05 A/m²

b) 6.326E+05 A/m²

c) 6.958E+05 A/m²

d) 7.654E+05 A/m²

e) 8.419E+05 A/m²

2) Calculate the electric field in a 12-gauge copper wire that is 16 m long and carries a current of 58 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) 2.212E-04 V/m

b) 2.433E-04 V/m

c) 2.676E-04 V/m

d) 2.944E-04 V/m

e) 3.238E-04 V/m

3) Calculate the drift speed of electrons in a copper wire with a diameter of 5.47 mm carrying a 3.48 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) 1.008E-05 m/s

b) 1.108E-05 m/s

c) 1.219E-05 m/s

d) 1.341E-05 m/s

e) 1.475E-05 m/s

4) A make-believe metal has a density of 6.650E+03 kg/m³ and an atomic mass of 67.5 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) 4.456E+28 e⁻/m³

b) 4.901E+28 e⁻/m³

c) 5.392E+28 e⁻/m³

d) 5.931E+28 e⁻/m³

e) 6.524E+28 e⁻/m³

c09 T0 edit

1) What is the average current involved when a truck battery sets in motion 572 C of charge in 3.33 s while starting an engine?

a) 1.173E+02 A

b) 1.291E+02 A

c) 1.420E+02 A

d) 1.562E+02 A

e) 1.718E+02 A

2) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=18 C and ${\displaystyle \tau =}$0.0169 s. What is the current at ${\displaystyle t=}$0.0137 s?

a) 3.913E+02 A

b) 4.305E+02 A

c) 4.735E+02 A

d) 5.209E+02 A

e) 5.729E+02 A

3) A make-believe metal has a density of 1.580E+04 kg/m³ and an atomic mass of 41.5 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) 2.292E+29 e⁻/m³

b) 2.521E+29 e⁻/m³

c) 2.773E+29 e⁻/m³

d) 3.051E+29 e⁻/m³

e) 3.356E+29 e⁻/m³

4) Calculate the electric field in a 12-gauge copper wire that is 62 m long and carries a current of 52 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-04 V/m

b) 2.181E-04 V/m

c) 2.399E-04 V/m

d) 2.639E-04 V/m

e) 2.903E-04 V/m

c09 T1 edit

1) What is the average current involved when a truck battery sets in motion 572 C of charge in 3.33 s while starting an engine?

a) 1.173E+02 A

b) 1.291E+02 A

c) 1.420E+02 A

d) 1.562E+02 A

e) 1.718E+02 A

2) A make-believe metal has a density of 1.180E+04 kg/m³ and an atomic mass of 121.0 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) 4.010E+28 e⁻/m³

b) 4.411E+28 e⁻/m³

c) 4.852E+28 e⁻/m³

d) 5.337E+28 e⁻/m³

e) 5.871E+28 e⁻/m³

3) Calculate the electric field in a 12-gauge copper wire that is 64 m long and carries a current of 76 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) 2.635E-04 V/m

b) 2.898E-04 V/m

c) 3.188E-04 V/m

d) 3.507E-04 V/m

e) 3.857E-04 V/m

4) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=11 C and ${\displaystyle \tau =}$0.0162 s. What is the current at ${\displaystyle t=}$0.0249 s?

a) 9.972E+01 A

b) 1.097E+02 A

c) 1.207E+02 A

d) 1.327E+02 A

e) 1.460E+02 A

c09 T2 edit

1) 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

2) What is the average current involved when a truck battery sets in motion 659 C of charge in 5.48 s while starting an engine?

a) 8.214E+01 A

b) 9.035E+01 A

c) 9.938E+01 A

d) 1.093E+02 A

e) 1.203E+02 A

3) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=58 C and ${\displaystyle \tau =}$0.0249 s. What is the current at ${\displaystyle t=}$0.0191 s?

a) 8.127E+02 A

b) 8.939E+02 A

c) 9.833E+02 A

d) 1.082E+03 A

e) 1.190E+03 A

4) 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

c09 U0 edit

1) 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

2) 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

3) Imagine a substance could be made into a very hot filament. Suppose the resitance is 3.58 Ω at a temperature of 24°C and that the temperature coefficient of expansion is 5.520E-03 (°C)⁻¹). What is the resistance at a temperature of 349 °C?

a) 9.526E+00 Ω

b) 1.000E+01 Ω

c) 1.050E+01 Ω

d) 1.103E+01 Ω

e) 1.158E+01 Ω

4) A device requires consumes 176 W of power and requires 11.9 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) 2.262E+06 A/m²

b) 2.489E+06 A/m²

c) 2.737E+06 A/m²

d) 3.011E+06 A/m²

e) 3.312E+06 A/m²

c09 U1 edit

1) What is the average current involved when a truck battery sets in motion 779 C of charge in 3.96 s while starting an engine?

a) 1.626E+02 A

b) 1.788E+02 A

c) 1.967E+02 A

d) 2.164E+02 A

e) 2.380E+02 A

2) Calculate the electric field in a 12-gauge copper wire that is 21 m long and carries a current of 42 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) 1.602E-04 V/m

b) 1.762E-04 V/m

c) 1.938E-04 V/m

d) 2.132E-04 V/m

e) 2.345E-04 V/m

3) 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

4) Imagine a substance could be made into a very hot filament. Suppose the resitance is 3.58 Ω at a temperature of 24°C and that the temperature coefficient of expansion is 5.520E-03 (°C)⁻¹). What is the resistance at a temperature of 349 °C?

a) 9.526E+00 Ω

b) 1.000E+01 Ω

c) 1.050E+01 Ω

d) 1.103E+01 Ω

e) 1.158E+01 Ω

c09 U2 edit

1) What is the average current involved when a truck battery sets in motion 631 C of charge in 3.8 s while starting an engine?

a) 1.661E+02 A

b) 1.827E+02 A

c) 2.009E+02 A

d) 2.210E+02 A

e) 2.431E+02 A

2) A device requires consumes 142 W of power and requires 12.1 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) 2.300E+06 A/m²

b) 2.530E+06 A/m²

c) 2.783E+06 A/m²

d) 3.062E+06 A/m²

e) 3.368E+06 A/m²

3) 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

4) 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

c09 V0 edit

1) 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

2) 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

3) What is the average current involved when a truck battery sets in motion 559 C of charge in 4.13 s while starting an engine?

a) 9.245E+01 A

b) 1.017E+02 A

c) 1.119E+02 A

d) 1.230E+02 A

e) 1.354E+02 A

4) Calculate the resistance of a 12-gauge copper wire that is 19 m long and carries a current of 59 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) 7.970E-02 Ω

b) 8.767E-02 Ω

c) 9.644E-02 Ω

d) 1.061E-01 Ω

e) 1.167E-01 Ω

c09 V1 edit

1) Calculate the resistance of a 12-gauge copper wire that is 86 m long and carries a current of 97 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) 4.365E-01 Ω

b) 4.801E-01 Ω

c) 5.282E-01 Ω

d) 5.810E-01 Ω

e) 6.391E-01 Ω

2) What is consumer cost to operate one 102−W incandescent bulb for 6 hours per day for 1 year (365 days) if the cost of electricity is $0.127 per kilowatt-hour?

a) $2.131E+01

b) $2.345E+01

c) $2.579E+01

d) $2.837E+01

e) $3.121E+01

3) What is the average current involved when a truck battery sets in motion 659 C of charge in 5.48 s while starting an engine?

a) 8.214E+01 A

b) 9.035E+01 A

c) 9.938E+01 A

d) 1.093E+02 A

e) 1.203E+02 A

4) A device requires consumes 103 W of power and requires 6.3 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) 8.999E+05 A/m²

b) 9.899E+05 A/m²

c) 1.089E+06 A/m²

d) 1.198E+06 A/m²

e) 1.317E+06 A/m²

c09 V2 edit

1) 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

2) Calculate the resistance of a 12-gauge copper wire that is 48 m long and carries a current of 50 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) 2.215E-01 Ω

b) 2.436E-01 Ω

c) 2.680E-01 Ω

d) 2.948E-01 Ω

e) 3.243E-01 Ω

3) What is consumer cost to operate one 76−W incandescent bulb for 9 hours per day for 1 year (365 days) if the cost of electricity is $0.144 per kilowatt-hour?

a) $3.595E+01

b) $3.955E+01

c) $4.350E+01

d) $4.785E+01

e) $5.264E+01

4) 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

c09 W0 edit

1) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=97 C and ${\displaystyle \tau =}$0.0132 s. What is the current at ${\displaystyle t=}$0.0225 s?

a) 1.336E+03 A

b) 1.470E+03 A

c) 1.617E+03 A

d) 1.779E+03 A

e) 1.957E+03 A

2) 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

3) Calculate the electric field in a 12-gauge copper wire that is 18 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) 1.117E-04 V/m

b) 1.228E-04 V/m

c) 1.351E-04 V/m

d) 1.486E-04 V/m

e) 1.635E-04 V/m

4) Calculate the drift speed of electrons in a copper wire with a diameter of 3.53 mm carrying a 2.8 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) 1.947E-05 m/s

b) 2.141E-05 m/s

c) 2.355E-05 m/s

d) 2.591E-05 m/s

e) 2.850E-05 m/s

c09 W1 edit

1) Imagine a substance could be made into a very hot filament. Suppose the resitance is 6.74 Ω at a temperature of 89°C and that the temperature coefficient of expansion is 4.990E-03 (°C)⁻¹). What is the resistance at a temperature of 366 °C?

a) 1.529E+01 Ω

b) 1.606E+01 Ω

c) 1.686E+01 Ω

d) 1.770E+01 Ω

e) 1.859E+01 Ω

2) Calculate the drift speed of electrons in a copper wire with a diameter of 5.71 mm carrying a 7.54 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) 2.204E-05 m/s

b) 2.424E-05 m/s

c) 2.667E-05 m/s

d) 2.933E-05 m/s

e) 3.227E-05 m/s

3) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=85 C and ${\displaystyle \tau =}$0.021 s. What is the current at ${\displaystyle t=}$0.0128 s?

a) 1.503E+03 A

b) 1.653E+03 A

c) 1.818E+03 A

d) 2.000E+03 A

e) 2.200E+03 A

4) Calculate the electric field in a 12-gauge copper wire that is 62 m long and carries a current of 52 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-04 V/m

b) 2.181E-04 V/m

c) 2.399E-04 V/m

d) 2.639E-04 V/m

e) 2.903E-04 V/m

c09 W2 edit

1) 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

2) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=85 C and ${\displaystyle \tau =}$0.021 s. What is the current at ${\displaystyle t=}$0.0128 s?

a) 1.503E+03 A

b) 1.653E+03 A

c) 1.818E+03 A

d) 2.000E+03 A

e) 2.200E+03 A

3) 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

4) 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

c09 X0 edit

1) 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

2) Calculate the drift speed of electrons in a copper wire with a diameter of 5.82 mm carrying a 9.11 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) 1.926E-05 m/s

b) 2.118E-05 m/s

c) 2.330E-05 m/s

d) 2.563E-05 m/s

e) 2.819E-05 m/s

3) A DC winch moter draws 20 amps at 157 volts as it lifts a 5.270E+03 N weight at a constant speed of 0.403 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) 2.540E+00 Ω

b) 2.795E+00 Ω

c) 3.074E+00 Ω

d) 3.381E+00 Ω

e) 3.720E+00 Ω

4) Calculate the electric field in a 12-gauge copper wire that is 18 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) 1.117E-04 V/m

b) 1.228E-04 V/m

c) 1.351E-04 V/m

d) 1.486E-04 V/m

e) 1.635E-04 V/m

c09 X1 edit

1) 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

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) What is the average current involved when a truck battery sets in motion 559 C of charge in 4.13 s while starting an engine?

a) 9.245E+01 A

b) 1.017E+02 A

c) 1.119E+02 A

d) 1.230E+02 A

e) 1.354E+02 A

4) 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

c09 X2 edit

1) A DC winch moter draws 27 amps at 190 volts as it lifts a 4.910E+03 N weight at a constant speed of 0.769 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) 1.396E+00 Ω

b) 1.535E+00 Ω

c) 1.689E+00 Ω

d) 1.858E+00 Ω

e) 2.043E+00 Ω

2) Calculate the drift speed of electrons in a copper wire with a diameter of 5.71 mm carrying a 7.54 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) 2.204E-05 m/s

b) 2.424E-05 m/s

c) 2.667E-05 m/s

d) 2.933E-05 m/s

e) 3.227E-05 m/s

3) Calculate the electric field in a 12-gauge copper wire that is 21 m long and carries a current of 42 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) 1.602E-04 V/m

b) 1.762E-04 V/m

c) 1.938E-04 V/m

d) 2.132E-04 V/m

e) 2.345E-04 V/m

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

c09 Y0 edit

1) 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

2) A DC winch moter draws 12 amps at 129 volts as it lifts a 4.210E+03 N weight at a constant speed of 0.318 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) 9.924E-01 Ω

b) 1.092E+00 Ω

c) 1.201E+00 Ω

d) 1.321E+00 Ω

e) 1.453E+00 Ω

3) A make-believe metal has a density of 1.510E+04 kg/m³ and an atomic mass of 33.6 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) 2.236E+29 e⁻/m³

b) 2.459E+29 e⁻/m³

c) 2.705E+29 e⁻/m³

d) 2.976E+29 e⁻/m³

e) 3.274E+29 e⁻/m³

4) What is consumer cost to operate one 57−W incandescent bulb for 11 hours per day for 1 year (365 days) if the cost of electricity is $0.146 per kilowatt-hour?

a) $2.282E+01

b) $2.510E+01

c) $2.761E+01

d) $3.038E+01

e) $3.341E+01

c09 Y1 edit

1) Imagine a substance could be made into a very hot filament. Suppose the resitance is 6.06 Ω at a temperature of 80°C and that the temperature coefficient of expansion is 4.290E-03 (°C)⁻¹). What is the resistance at a temperature of 330 °C?

a) 1.196E+01 Ω

b) 1.256E+01 Ω

c) 1.319E+01 Ω

d) 1.385E+01 Ω

e) 1.454E+01 Ω

2) A make-believe metal has a density of 1.050E+04 kg/m³ and an atomic mass of 58.8 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) 1.075E+29 e⁻/m³

b) 1.183E+29 e⁻/m³

c) 1.301E+29 e⁻/m³

d) 1.431E+29 e⁻/m³

e) 1.574E+29 e⁻/m³

3) What is consumer cost to operate one 104−W incandescent bulb for 6 hours per day for 1 year (365 days) if the cost of electricity is $0.136 per kilowatt-hour?

a) $2.116E+01

b) $2.327E+01

c) $2.560E+01

d) $2.816E+01

e) $3.098E+01

4) 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

c09 Y2 edit

1) A DC winch moter draws 20 amps at 169 volts as it lifts a 5.120E+03 N weight at a constant speed of 0.543 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) 1.500E+00 Ω

b) 1.650E+00 Ω

c) 1.815E+00 Ω

d) 1.996E+00 Ω

e) 2.196E+00 Ω

2) 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

3) 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

4) A make-believe metal has a density of 1.300E+04 kg/m³ and an atomic mass of 75.7 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) 9.398E+28 e⁻/m³

b) 1.034E+29 e⁻/m³

c) 1.137E+29 e⁻/m³

d) 1.251E+29 e⁻/m³

e) 1.376E+29 e⁻/m³

c09 Z0 edit

1) 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

2) 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

3) Calculate the drift speed of electrons in a copper wire with a diameter of 5.46 mm carrying a 8.19 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) 2.380E-05 m/s

b) 2.618E-05 m/s

c) 2.880E-05 m/s

d) 3.168E-05 m/s

e) 3.485E-05 m/s

4) 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

c09 Z1 edit

1) 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

2) Calculate the drift speed of electrons in a copper wire with a diameter of 5.33 mm carrying a 5.1 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) 1.711E-05 m/s

b) 1.882E-05 m/s

c) 2.070E-05 m/s

d) 2.277E-05 m/s

e) 2.505E-05 m/s

3) A device requires consumes 177 W of power and requires 6.82 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) 9.741E+05 A/m²

b) 1.072E+06 A/m²

c) 1.179E+06 A/m²

d) 1.297E+06 A/m²

e) 1.426E+06 A/m²

4) Imagine a substance could be made into a very hot filament. Suppose the resitance is 3.58 Ω at a temperature of 24°C and that the temperature coefficient of expansion is 5.520E-03 (°C)⁻¹). What is the resistance at a temperature of 349 °C?

a) 9.526E+00 Ω

b) 1.000E+01 Ω

c) 1.050E+01 Ω

d) 1.103E+01 Ω

e) 1.158E+01 Ω

c09 Z2 edit

1) Calculate the drift speed of electrons in a copper wire with a diameter of 5.47 mm carrying a 3.48 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) 1.008E-05 m/s

b) 1.108E-05 m/s

c) 1.219E-05 m/s

d) 1.341E-05 m/s

e) 1.475E-05 m/s

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

3) 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

4) 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

Key: A0 edit

1) 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

2) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=27 C and ${\displaystyle \tau =}$0.0154 s. What is the current at ${\displaystyle t=}$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

3) Calculate the drift speed of electrons in a copper wire with a diameter of 5.19 mm carrying a 18.2 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) 5.321E-05 m/s

-b) 5.853E-05 m/s

+c) 6.439E-05 m/s

-d) 7.083E-05 m/s

-e) 7.791E-05 m/s

4) 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

Key: A1 edit

1) 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

2) Calculate the resistance of a 12-gauge copper wire that is 90 m long and carries a current of 34 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) 3.432E-01 Ω

-b) 3.775E-01 Ω

-c) 4.153E-01 Ω

+d) 4.568E-01 Ω

-e) 5.025E-01 Ω

3) Calculate the drift speed of electrons in a copper wire with a diameter of 4.38 mm carrying a 5.79 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) 2.615E-05 m/s

+b) 2.876E-05 m/s

-c) 3.164E-05 m/s

-d) 3.480E-05 m/s

-e) 3.828E-05 m/s

4) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=91 C and ${\displaystyle \tau =}$0.0156 s. What is the current at ${\displaystyle t=}$0.0131 s?

-a) 2.082E+03 A

-b) 2.290E+03 A

+c) 2.519E+03 A

-d) 2.771E+03 A

-e) 3.048E+03 A

Key: A2 edit

1) Imagine a substance could be made into a very hot filament. Suppose the resitance is 6.74 Ω at a temperature of 89°C and that the temperature coefficient of expansion is 4.990E-03 (°C)⁻¹). What is the resistance at a temperature of 366 °C?

-a) 1.529E+01 Ω

+b) 1.606E+01 Ω

-c) 1.686E+01 Ω

-d) 1.770E+01 Ω

-e) 1.859E+01 Ω

2) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=58 C and ${\displaystyle \tau =}$0.0249 s. What is the current at ${\displaystyle t=}$0.0191 s?

-a) 8.127E+02 A

-b) 8.939E+02 A

-c) 9.833E+02 A

+d) 1.082E+03 A

-e) 1.190E+03 A

3) Calculate the drift speed of electrons in a copper wire with a diameter of 5.82 mm carrying a 9.11 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) 1.926E-05 m/s

-b) 2.118E-05 m/s

-c) 2.330E-05 m/s

+d) 2.563E-05 m/s

-e) 2.819E-05 m/s

4) 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

Key: B0 edit

1) A make-believe metal has a density of 1.050E+04 kg/m³ and an atomic mass of 58.8 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) 1.075E+29 e⁻/m³

-b) 1.183E+29 e⁻/m³

-c) 1.301E+29 e⁻/m³

-d) 1.431E+29 e⁻/m³

-e) 1.574E+29 e⁻/m³

2) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=42 C and ${\displaystyle \tau =}$0.0166 s. What is the current at ${\displaystyle t=}$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

3) A device requires consumes 176 W of power and requires 11.9 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) 2.262E+06 A/m²

-b) 2.489E+06 A/m²

-c) 2.737E+06 A/m²

-d) 3.011E+06 A/m²

-e) 3.312E+06 A/m²

4) Calculate the electric field in a 12-gauge copper wire that is 13 m long and carries a current of 59 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) 2.250E-04 V/m

-b) 2.475E-04 V/m

-c) 2.722E-04 V/m

+d) 2.995E-04 V/m

-e) 3.294E-04 V/m

Key: B1 edit

1) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=97 C and ${\displaystyle \tau =}$0.0132 s. What is the current at ${\displaystyle t=}$0.0225 s?

+a) 1.336E+03 A

-b) 1.470E+03 A

-c) 1.617E+03 A

-d) 1.779E+03 A

-e) 1.957E+03 A

2) A make-believe metal has a density of 1.480E+04 kg/m³ and an atomic mass of 73.3 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) 1.105E+29 e⁻/m³

+b) 1.215E+29 e⁻/m³

-c) 1.337E+29 e⁻/m³

-d) 1.471E+29 e⁻/m³

-e) 1.618E+29 e⁻/m³

3) Calculate the electric field in a 12-gauge copper wire that is 64 m long and carries a current of 76 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) 2.635E-04 V/m

-b) 2.898E-04 V/m

-c) 3.188E-04 V/m

-d) 3.507E-04 V/m

+e) 3.857E-04 V/m

4) A device requires consumes 126 W of power and requires 1.11 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) 2.110E+05 A/m²

-b) 2.321E+05 A/m²

-c) 2.553E+05 A/m²

-d) 2.809E+05 A/m²

-e) 3.090E+05 A/m²

Key: B2 edit

1) A device requires consumes 142 W of power and requires 12.1 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) 2.300E+06 A/m²

-b) 2.530E+06 A/m²

-c) 2.783E+06 A/m²

-d) 3.062E+06 A/m²

-e) 3.368E+06 A/m²

2) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=30 C and ${\displaystyle \tau =}$0.0178 s. What is the current at ${\displaystyle t=}$0.0161 s?

-a) 5.125E+02 A

-b) 5.638E+02 A

-c) 6.201E+02 A

+d) 6.822E+02 A

-e) 7.504E+02 A

3) A make-believe metal has a density of 1.300E+04 kg/m³ and an atomic mass of 75.7 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) 9.398E+28 e⁻/m³

+b) 1.034E+29 e⁻/m³

-c) 1.137E+29 e⁻/m³

-d) 1.251E+29 e⁻/m³

-e) 1.376E+29 e⁻/m³

4) 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

Key: C0 edit

1) Imagine a substance could be made into a very hot filament. Suppose the resitance is 6.06 Ω at a temperature of 80°C and that the temperature coefficient of expansion is 4.290E-03 (°C)⁻¹). What is the resistance at a temperature of 330 °C?

-a) 1.196E+01 Ω

+b) 1.256E+01 Ω

-c) 1.319E+01 Ω

-d) 1.385E+01 Ω

-e) 1.454E+01 Ω

2) A make-believe metal has a density of 1.050E+04 kg/m³ and an atomic mass of 58.8 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) 1.075E+29 e⁻/m³

-b) 1.183E+29 e⁻/m³

-c) 1.301E+29 e⁻/m³

-d) 1.431E+29 e⁻/m³

-e) 1.574E+29 e⁻/m³

3) Calculate the resistance of a 12-gauge copper wire that is 86 m long and carries a current of 97 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) 4.365E-01 Ω

-b) 4.801E-01 Ω

-c) 5.282E-01 Ω

-d) 5.810E-01 Ω

-e) 6.391E-01 Ω

4) Calculate the drift speed of electrons in a copper wire with a diameter of 5.33 mm carrying a 5.1 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) 1.711E-05 m/s

-b) 1.882E-05 m/s

-c) 2.070E-05 m/s

-d) 2.277E-05 m/s

-e) 2.505E-05 m/s

Key: C1 edit

1) Imagine a substance could be made into a very hot filament. Suppose the resitance is 6.06 Ω at a temperature of 80°C and that the temperature coefficient of expansion is 4.290E-03 (°C)⁻¹). What is the resistance at a temperature of 330 °C?

-a) 1.196E+01 Ω

+b) 1.256E+01 Ω

-c) 1.319E+01 Ω

-d) 1.385E+01 Ω

-e) 1.454E+01 Ω

2) A make-believe metal has a density of 1.300E+04 kg/m³ and an atomic mass of 75.7 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) 9.398E+28 e⁻/m³

+b) 1.034E+29 e⁻/m³

-c) 1.137E+29 e⁻/m³

-d) 1.251E+29 e⁻/m³

-e) 1.376E+29 e⁻/m³

3) 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

4) Calculate the resistance of a 12-gauge copper wire that is 19 m long and carries a current of 59 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) 7.970E-02 Ω

-b) 8.767E-02 Ω

+c) 9.644E-02 Ω

-d) 1.061E-01 Ω

-e) 1.167E-01 Ω

Key: C2 edit

1) A make-believe metal has a density of 1.180E+04 kg/m³ and an atomic mass of 121.0 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) 4.010E+28 e⁻/m³

-b) 4.411E+28 e⁻/m³

-c) 4.852E+28 e⁻/m³

-d) 5.337E+28 e⁻/m³

+e) 5.871E+28 e⁻/m³

2) Calculate the resistance of a 12-gauge copper wire that is 14 m long and carries a current of 38 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) 5.873E-02 Ω

-b) 6.460E-02 Ω

+c) 7.106E-02 Ω

-d) 7.816E-02 Ω

-e) 8.598E-02 Ω

3) 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

4) 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

Key: D0 edit

1) 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

2) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=30 C and ${\displaystyle \tau =}$0.0178 s. What is the current at ${\displaystyle t=}$0.0161 s?

-a) 5.125E+02 A

-b) 5.638E+02 A

-c) 6.201E+02 A

+d) 6.822E+02 A

-e) 7.504E+02 A

3) A make-believe metal has a density of 1.050E+04 kg/m³ and an atomic mass of 58.8 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) 1.075E+29 e⁻/m³

-b) 1.183E+29 e⁻/m³

-c) 1.301E+29 e⁻/m³

-d) 1.431E+29 e⁻/m³

-e) 1.574E+29 e⁻/m³

4) What is the average current involved when a truck battery sets in motion 572 C of charge in 3.33 s while starting an engine?

-a) 1.173E+02 A

-b) 1.291E+02 A

-c) 1.420E+02 A

-d) 1.562E+02 A

+e) 1.718E+02 A

Key: D1 edit

1) What is the average current involved when a truck battery sets in motion 760 C of charge in 5.35 s while starting an engine?

-a) 1.291E+02 A

+b) 1.421E+02 A

-c) 1.563E+02 A

-d) 1.719E+02 A

-e) 1.891E+02 A

2) A make-believe metal has a density of 1.050E+04 kg/m³ and an atomic mass of 58.8 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) 1.075E+29 e⁻/m³

-b) 1.183E+29 e⁻/m³

-c) 1.301E+29 e⁻/m³

-d) 1.431E+29 e⁻/m³

-e) 1.574E+29 e⁻/m³

3) 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

4) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=30 C and ${\displaystyle \tau =}$0.0178 s. What is the current at ${\displaystyle t=}$0.0161 s?

-a) 5.125E+02 A

-b) 5.638E+02 A

-c) 6.201E+02 A

+d) 6.822E+02 A

-e) 7.504E+02 A

Key: D2 edit

1) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=27 C and ${\displaystyle \tau =}$0.0154 s. What is the current at ${\displaystyle t=}$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

2) What is the average current involved when a truck battery sets in motion 659 C of charge in 5.48 s while starting an engine?

-a) 8.214E+01 A

-b) 9.035E+01 A

-c) 9.938E+01 A

-d) 1.093E+02 A

+e) 1.203E+02 A

3) 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

4) 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

Key: E0 edit

1) A DC winch moter draws 29 amps at 153 volts as it lifts a 4.780E+03 N weight at a constant speed of 0.691 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) 1.226E+00 Ω

+b) 1.348E+00 Ω

-c) 1.483E+00 Ω

-d) 1.632E+00 Ω

-e) 1.795E+00 Ω

2) What is consumer cost to operate one 76−W incandescent bulb for 9 hours per day for 1 year (365 days) if the cost of electricity is $0.144 per kilowatt-hour?

+a) $3.595E+01

-b) $3.955E+01

-c) $4.350E+01

-d) $4.785E+01

-e) $5.264E+01

3) 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

4) Calculate the electric field in a 12-gauge copper wire that is 48 m long and carries a current of 63 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) 3.198E-04 V/m

-b) 3.517E-04 V/m

-c) 3.869E-04 V/m

-d) 4.256E-04 V/m

-e) 4.682E-04 V/m

Key: E1 edit

1) 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

2) A device requires consumes 166 W of power and requires 9.99 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) 1.570E+06 A/m²

-b) 1.727E+06 A/m²

+c) 1.899E+06 A/m²

-d) 2.089E+06 A/m²

-e) 2.298E+06 A/m²

3) 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

4) 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

Key: E2 edit

1) A device requires consumes 166 W of power and requires 9.99 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) 1.570E+06 A/m²

-b) 1.727E+06 A/m²

+c) 1.899E+06 A/m²

-d) 2.089E+06 A/m²

-e) 2.298E+06 A/m²

2) What is consumer cost to operate one 102−W incandescent bulb for 6 hours per day for 1 year (365 days) if the cost of electricity is $0.127 per kilowatt-hour?

-a) $2.131E+01

-b) $2.345E+01

-c) $2.579E+01

+d) $2.837E+01

-e) $3.121E+01

3) A DC winch moter draws 27 amps at 143 volts as it lifts a 5.060E+03 N weight at a constant speed of 0.623 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) 8.033E-01 Ω

-b) 8.837E-01 Ω

+c) 9.720E-01 Ω

-d) 1.069E+00 Ω

-e) 1.176E+00 Ω

4) Calculate the electric field in a 12-gauge copper wire that is 18 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) 1.117E-04 V/m

-b) 1.228E-04 V/m

-c) 1.351E-04 V/m

-d) 1.486E-04 V/m

-e) 1.635E-04 V/m

Key: F0 edit

1) 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

2) A device requires consumes 185 W of power and requires 10.1 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) 1.920E+06 A/m²

-b) 2.112E+06 A/m²

-c) 2.323E+06 A/m²

-d) 2.556E+06 A/m²

-e) 2.811E+06 A/m²

3) Calculate the resistance of a 12-gauge copper wire that is 48 m long and carries a current of 50 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) 2.215E-01 Ω

+b) 2.436E-01 Ω

-c) 2.680E-01 Ω

-d) 2.948E-01 Ω

-e) 3.243E-01 Ω

4) A make-believe metal has a density of 1.300E+04 kg/m³ and an atomic mass of 75.7 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) 9.398E+28 e⁻/m³

+b) 1.034E+29 e⁻/m³

-c) 1.137E+29 e⁻/m³

-d) 1.251E+29 e⁻/m³

-e) 1.376E+29 e⁻/m³

Key: F1 edit

1) Calculate the resistance of a 12-gauge copper wire that is 69 m long and carries a current of 98 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) 2.631E-01 Ω

-b) 2.894E-01 Ω

-c) 3.184E-01 Ω

+d) 3.502E-01 Ω

-e) 3.852E-01 Ω

2) 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

3) 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

4) A device requires consumes 177 W of power and requires 6.82 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) 9.741E+05 A/m²

-b) 1.072E+06 A/m²

-c) 1.179E+06 A/m²

+d) 1.297E+06 A/m²

-e) 1.426E+06 A/m²

Key: F2 edit

1) 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

2) Calculate the resistance of a 12-gauge copper wire that is 14 m long and carries a current of 38 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) 5.873E-02 Ω

-b) 6.460E-02 Ω

+c) 7.106E-02 Ω

-d) 7.816E-02 Ω

-e) 8.598E-02 Ω

3) 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

4) A device requires consumes 103 W of power and requires 6.3 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) 8.999E+05 A/m²

-b) 9.899E+05 A/m²

-c) 1.089E+06 A/m²

+d) 1.198E+06 A/m²

-e) 1.317E+06 A/m²

Key: G0 edit

1) 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

2) Calculate the electric field in a 12-gauge copper wire that is 99 m long and carries a current of 71 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) 3.604E-04 V/m

-b) 3.964E-04 V/m

-c) 4.360E-04 V/m

-d) 4.796E-04 V/m

-e) 5.276E-04 V/m

3) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=42 C and ${\displaystyle \tau =}$0.0166 s. What is the current at ${\displaystyle t=}$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

4) A DC winch moter draws 23 amps at 170 volts as it lifts a 5.200E+03 N weight at a constant speed of 0.662 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) 7.305E-01 Ω

-b) 8.036E-01 Ω

+c) 8.839E-01 Ω

-d) 9.723E-01 Ω

-e) 1.070E+00 Ω

Key: G1 edit

1) The charge passing a plane intersecting a wire is ${\displaystyle Q_{M}=\left(1-e^{t/\tau }\right)}$, where ${\displaystyle Q_{M}}$=24 C and ${\displaystyle \tau =}$0.0248 s. What is the current at ${\displaystyle t=}$0.0122 s?

-a) 4.042E+02 A

-b) 4.446E+02 A

-c) 4.890E+02 A

-d) 5.379E+02 A

+e) 5.917E+02 A

2) Calculate the electric field in a 12-gauge copper wire that is 18 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) 1.117E-04 V/m

-b) 1.228E-04 V/m

-c) 1.351E-04 V/m

-d) 1.486E-04 V/m

-e) 1.635E-04 V/m

3) A make-believe metal has a density of 1.580E+04 kg/m³ and an atomic mass of 41.5 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) 2.292E+29 e⁻/m³

-b) 2.521E+29 e⁻/m³

-c) 2.773E+29 e⁻/m³

-d) 3.051E+29 e⁻/m³

-e) 3.356E+29 e⁻/m³

4) A DC winch moter draws 13 amps at 159 volts as it lifts a 4.270E+03 N weight at a constant speed of 0.357 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) 3.211E+00 Ω

-b) 3.532E+00 Ω

-c) 3.885E+00 Ω

-d) 4.273E+00 Ω

-e) 4.701E+00 Ω