Quizbank/College Physics Sem 1/FE

1) A car is accelerating uniformly at an acceleration of 3.8m/s/s. At x = 4.5m, the speed is 3.6m/s. How fast is it moving at x = 11.5 m?

a) 8.13 m/s.

b) 9.76 m/s.

c) 11.71 m/s.

d) 14.06 m/s.

e) 16.87 m/s.

2) Mr. Smith is driving at a speed of 7 m/s, when he slows down to a speed of 5 m/s, when he hits a wall at this speed, after travelling for 4 seconds. How far did he travel?

a) 23.0 meters

b) 27.0 meters

c) 25.0 meters

d) 24.0 meters

e) 26.0 meters

3) At time, t=0, two particles are on the x axis. Particle A is (initially) at the origin and moves at a constant speed of 5.86 m/s at an angle of θ above the x-axis. Particle B is initially situated at x= 2.46 m, and moves at a constant speed of 2.23 m/s in the +y direction. At what time do they meet?

a) 0.45 s.

b) 0.54 s.

c) 0.65 s.

d) 0.78 s.

e) 0.94 s.

4) A car is headed due north and decreasing its speed. It is also turning right because it is also traveling in a perfect circle. The acceleration vector points

a) northeast

b) south

c) north

d) northwest

e) southeast

5) A mass with weight (mg) of 27 newtons is suspended symmetrically from two strings. The angle between the two strings (i.e. where they are attached to the mass) is 70 degrees. What is the tension in the string?

a) 12.5 N.

b) 14.3 N.

c) 16.5 N.

d) 19 N.

e) 21.8 N.

6) A sled of mass 5.4 kg is at rest on a rough surface. A string pulls with a tension of 46.6N at an angle of 38 degress above the horizontal. What is the magnitude of the friction?

a) 36.72 N.

b) 42.23 N.

c) 48.56 N.

d) 55.85 N.

e) 64.23 N.

7)

In the figure shown, θ₁ is 17 degrees , and θ₃ is 39 degrees . The mass has a weight of 42 N. What is the tension, T₁?

a) 34.24 N.

b) 39.37 N.

c) 45.28 N.

d) 52.07 N.

e) 59.88 N.

8) The cart has a mass of 48.30kg. It is moving at a speed of 3.80m/s, when it is at a height of 3.61m. If the spring constant was 699N/m, what was the initial compression?

a) 1.85 m

b) 1.98 m

c) 2.12 m

d) 2.27 m

e) 2.43 m

9) A car of mass 674 kg is driving on an icy road at a speed of 16 m/s, when it collides with a stationary truck. After the collision they stick and move at a speed of 5.9 m/s. What was the mass of the truck?

a) 801 kg

b) 961 kg

c) 1154 kg

d) 1385 kg

e) 1661 kg

10)

A massless bar of length, S = 9.1m is attached to a wall by a frictionless hinge (shown as a circle). The bar his held horizontal by a string that makes and angle θ = 26.7 degrees above the horizontal. An object of mass, M = 6.2kg is suspended at a length, L = 5.6m from the wall. What is the tension, T, in the string?

a) 3.31E+01 N

b) 4.17E+01 N

c) 5.25E+01 N

d) 6.61E+01 N

e) 8.32E+01 N

11) A lead filled bicycle wheel of radius 0.58 m and mass 2.8 kg is rotating at a frequency of 1.8 revolutions per second. What is the total kinetic energy if the wheel is rolling about a stationary axis?

a) 3.39 x 10¹ J

b) 4.1 x 10¹ J

c) 4.97 x 10¹ J

d) 6.02 x 10¹ J

e) 7.3 x 10¹ J

12) A cylinder with a radius of 0.38 m and a length of 2.3 m is held so that the top circular face is 4.5 m below the water. The mass of the block is 909.0 kg. The mass density of water is 1000kg/m^3. What is the force exerted by the water at the top surface?

a) 1.59E4 N

b) 2.00E4 N

c) 2.52E4 N

d) 3.17E4 N

e) 3.99E4 N

13) A 6.7 cm diameter pipe can fill a 2.2 m^3 volume in 8.0 minutes. Before exiting the pipe, the diameter is reduced to 2.3 cm (with no loss of flow rate). What is the speed in the first (wider) pipe?

a) 8.86E-1 m/s

b) 1.07E0 m/s

c) 1.30E0 m/s

d) 1.57E0 m/s

e) 1.91E0 m/s

14) What is the rms speed of a molecule with an atomic mass of 18 if the temperature is 113 degrees Fahrenheit?

a) 3.08 x 10² m/s

b) 3.73 x 10² m/s

c) 4.52 x 10² m/s

d) 5.48 x 10² m/s

e) 6.64 x 10² m/s

15) The specific heat of water and aluminum are 4186 and 900, respectively, where the units are J/kg/Celsius. An aluminum container of mass 0.82 kg is filled with 0.11 kg of water. How much heat does it take to raise both from 20.2 C to 96.9 C?

a) 6.62 x 10⁴ J

b) 7.8 x 10⁴ J

c) 9.19 x 10⁴ J

d) 1.08 x 10⁵ J

e) 1.28 x 10⁵ J

16)

A 1241 heat cycle uses 1.6 moles of an ideal gas. The pressures and volumes are: P₁= 1.9 kPa, P₂= 3.6 kPa. The volumes are V₁= 1.6m³ and V₄= 3.3m³. How much work is done in in one cycle?

a) 4.57 x 10¹ J

b) 1.45 x 10² J

c) 4.57 x 10² J

d) 1.45 x 10³ J

e) 4.57 x 10³ J

1) What is the rms speed of a molecule with an atomic mass of 19 if the temperature is 78 degrees Fahrenheit?

a) 4.27 x 10² m/s

b) 5.17 x 10² m/s

c) 6.26 x 10² m/s

d) 7.59 x 10² m/s

e) 9.19 x 10² m/s

2) The specific heat of water and aluminum are 4186 and 900, respectively, where the units are J/kg/Celsius. An aluminum container of mass 0.66 kg is filled with 0.11 kg of water. How much heat does it take to raise both from 57.1 C to 78 C?

a) 1.59 x 10⁴ J

b) 1.87 x 10⁴ J

c) 2.2 x 10⁴ J

d) 2.6 x 10⁴ J

e) 3.06 x 10⁴ J

3) A car is headed due north and decreasing its speed. It is also turning right because it is also traveling in a perfect circle. The acceleration vector points

a) north

b) southeast

c) south

d) northwest

e) northeast

4) A sled of mass 5.9 kg is at rest on a rough surface. A string pulls with a tension of 43.7N at an angle of 41 degress above the horizontal. What is the magnitude of the friction?

a) 24.94 N.

b) 28.68 N.

c) 32.98 N.

d) 37.93 N.

e) 43.62 N.

5)

A massless bar of length, S = 8.1m is attached to a wall by a frictionless hinge (shown as a circle). The bar his held horizontal by a string that makes and angle θ = 31.1 degrees above the horizontal. An object of mass, M = 5.4kg is suspended at a length, L = 6.2m from the wall. What is the tension, T, in the string?

a) 3.93E+01 N

b) 4.95E+01 N

c) 6.23E+01 N

d) 7.84E+01 N

e) 9.87E+01 N

6) A lead filled bicycle wheel of radius 0.33 m and mass 2.2 kg is rotating at a frequency of 1.3 revolutions per second. What is the total kinetic if the wheel is rotating about a stationary axis?

a) 6.6 x 10⁰ J

b) 7.99 x 10⁰ J

c) 9.68 x 10⁰ J

d) 1.17 x 10¹ J

e) 1.42 x 10¹ J

7) Mr. Smith is driving at a speed of 7 m/s, when he slows down to a speed of 5 m/s, when he hits a wall at this speed, after travelling for 4 seconds. How far did he travel?

a) 25.0 meters

b) 26.0 meters

c) 23.0 meters

d) 27.0 meters

e) 24.0 meters

8) The cart has a mass of 47.20kg. It is moving at a speed of 2.20m/s, when it is at a height of 2.77m. If the spring constant was 527N/m, what was the initial compression?

a) 2.30 m

b) 2.46 m

c) 2.63 m

d) 2.82 m

e) 3.02 m

9) A 6.7 cm diameter pipe can fill a 2.2 m^3 volume in 8.0 minutes. Before exiting the pipe, the diameter is reduced to 2.3 cm (with no loss of flow rate). What is the speed in the first (wider) pipe?

a) 8.86E-1 m/s

b) 1.07E0 m/s

c) 1.30E0 m/s

d) 1.57E0 m/s

e) 1.91E0 m/s

10) A mass with weight (mg) of 37 newtons is suspended symmetrically from two strings. The angle between the two strings (i.e. where they are attached to the mass) is 44 degrees. What is the tension in the string?

a) 11.4 N.

b) 13.1 N.

c) 15.1 N.

d) 17.4 N.

e) 20 N.

11)

A 1241 heat cycle uses 2.9 moles of an ideal gas. The pressures and volumes are: P₁= 2.3 kPa, P₂= 4.8 kPa. The volumes are V₁= 2.1m³ and V₄= 3.5m³. How much work is done in in one cycle?

a) 1.75 x 10¹ J

b) 5.53 x 10¹ J

c) 1.75 x 10² J

d) 5.53 x 10² J

e) 1.75 x 10³ J

12) A car of mass 884 kg is driving on an icy road at a speed of 20 m/s, when it collides with a stationary truck. After the collision they stick and move at a speed of 4.2 m/s. What was the mass of the truck?

a) 3326 kg

b) 3991 kg

c) 4789 kg

d) 5747 kg

e) 6896 kg

13)

In the figure shown, θ₁ is 17 degrees , and θ₃ is 33 degrees . The mass has a 'weight' of 33 N. What is the tension, T₁?

a) 27.32 N.

b) 31.42 N.

c) 36.13 N.

d) 41.55 N.

e) 47.78 N.

14) At time, t=0, two particles are on the x axis. Particle A is (initially) at the origin and moves at a constant speed of 6.1 m/s at an angle of θ above the x-axis. Particle B is initially situated at x= 2.79 m, and moves at a constant speed of 2.87 m/s in the +y direction. At what time do they meet?

a) 0.43 s.

b) 0.52 s.

c) 0.62 s.

d) 0.75 s.

e) 0.9 s.

15) A car is accelerating uniformly at an acceleration of 3.2m/s/s. At x = 7.5m, the speed is 4m/s. How fast is it moving at x = 12 m?

a) 4.65 m/s.

b) 5.58 m/s.

c) 6.69 m/s.

d) 8.03 m/s.

e) 9.64 m/s.

16) A cylinder with a radius of 0.25 m and a length of 3.5 m is held so that the top circular face is 3.3 m below the water. The mass of the block is 922.0 kg. The mass density of water is 1000kg/m^3. What is the force exerted by the water at the top surface?

a) 4.01E3 N

b) 5.04E3 N

c) 6.35E3 N

d) 7.99E3 N

e) 1.01E4 N

1) The cart has a mass of 36.40kg. It is moving at a speed of 3.90m/s, when it is at a height of 2.52m. If the spring constant was 612N/m, what was the initial compression?

a) 1.83 m

b) 1.96 m

c) 2.10 m

d) 2.24 m

e) 2.40 m

2) A 7.0 cm diameter pipe can fill a 2.1 m^3 volume in 8.0 minutes. Before exiting the pipe, the diameter is reduced to 1.7 cm (with no loss of flow rate). What is the speed in the first (wider) pipe?

a) 1.14E0 m/s

b) 1.38E0 m/s

c) 1.67E0 m/s

d) 2.02E0 m/s

e) 2.45E0 m/s

3) At time, t=0, two particles are on the x axis. Particle A is (initially) at the origin and moves at a constant speed of 6.76 m/s at an angle of θ above the x-axis. Particle B is initially situated at x= 2.65 m, and moves at a constant speed of 2.8 m/s in the +y direction. At what time do they meet?

a) 0.21 s.

b) 0.25 s.

c) 0.3 s.

d) 0.36 s.

e) 0.43 s.

4) A lead filled bicycle wheel of radius 0.37 m and mass 2.3 kg is rotating at a frequency of 1.6 revolutions per second. What is the total kinetic energy if the wheel is rotating about a stationary axis?

a) 7.39 x 10⁰ J

b) 8.95 x 10⁰ J

c) 1.08 x 10¹ J

d) 1.31 x 10¹ J

e) 1.59 x 10¹ J

5) The specific heat of water and aluminum are 4186 and 900, respectively, where the units are J/kg/Celsius. An aluminum container of mass 0.66 kg is filled with 0.11 kg of water. How much heat does it take to raise both from 57.1 C to 78 C?

a) 1.59 x 10⁴ J

b) 1.87 x 10⁴ J

c) 2.2 x 10⁴ J

d) 2.6 x 10⁴ J

e) 3.06 x 10⁴ J

6) A mass with weight (mg) of 32 newtons is suspended symmetrically from two strings. The angle between the two strings (i.e. where they are attached to the mass) is 70 degrees. What is the tension in the string?

a) 12.8 N.

b) 14.8 N.

c) 17 N.

d) 19.5 N.

e) 22.5 N.

7) What is the rms speed of a molecule with an atomic mass of 19 if the temperature is 78 degrees Fahrenheit?

a) 4.27 x 10² m/s

b) 5.17 x 10² m/s

c) 6.26 x 10² m/s

d) 7.59 x 10² m/s

e) 9.19 x 10² m/s

8) A car is accelerating uniformly at an acceleration of 3.6m/s/s. At x = 7.5m, the speed is 4.7m/s. How fast is it moving at x = 11.5 m?

a) 4.95 m/s.

b) 5.94 m/s.

c) 7.13 m/s.

d) 8.56 m/s.

e) 10.27 m/s.

9) A cylinder with a radius of 0.38 m and a length of 3.6 m is held so that the top circular face is 4.2 m below the water. The mass of the block is 829.0 kg. The mass density of water is 1000kg/m^3. What is the force exerted by the water at the top surface?

a) 1.48E4 N

b) 1.87E4 N

c) 2.35E4 N

d) 2.96E4 N

e) 3.73E4 N

10)

In the figure shown, θ₁ is 17 degrees , and θ₃ is 33 degrees . The mass has a 'weight' of 33 N. What is the tension, T₁?

a) 27.32 N.

b) 31.42 N.

c) 36.13 N.

d) 41.55 N.

e) 47.78 N.

11) A car is headed due north and decreasing its speed. It is also turning right because it is also traveling in a perfect circle. The acceleration vector points

a) northwest

b) northeast

c) south

d) southeast

e) north

12) A sled of mass 5.9 kg is at rest on a rough surface. A string pulls with a tension of 43.6N at an angle of 38 degress above the horizontal. What is the magnitude of the friction?

a) 19.64 N.

b) 22.59 N.

c) 25.98 N.

d) 29.88 N.

e) 34.36 N.

13)

A massless bar of length, S = 9.1m is attached to a wall by a frictionless hinge (shown as a circle). The bar his held horizontal by a string that makes and angle θ = 26.7 degrees above the horizontal. An object of mass, M = 6.2kg is suspended at a length, L = 5.6m from the wall. What is the tension, T, in the string?

a) 3.31E+01 N

b) 4.17E+01 N

c) 5.25E+01 N

d) 6.61E+01 N

e) 8.32E+01 N

14)

A 1241 heat cycle uses 1.6 moles of an ideal gas. The pressures and volumes are: P₁= 1.9 kPa, P₂= 3.6 kPa. The volumes are V₁= 1.6m³ and V₄= 3.3m³. How much work is done in in one cycle?

a) 4.57 x 10¹ J

b) 1.45 x 10² J

c) 4.57 x 10² J

d) 1.45 x 10³ J

e) 4.57 x 10³ J

15) Mr. Smith is driving at a speed of 7 m/s, when he slows down to a speed of 5 m/s, when he hits a wall at this speed, after travelling for 4 seconds. How far did he travel?

a) 27.0 meters

b) 24.0 meters

c) 26.0 meters

d) 25.0 meters

e) 23.0 meters

16) A car of mass 863 kg is driving on an icy road at a speed of 25 m/s, when it collides with a stationary truck. After the collision they stick and move at a speed of 5.7 m/s. What was the mass of the truck?

a) 2435 kg

b) 2922 kg

c) 3507 kg

d) 4208 kg

e) 5049 kg

1) A particle accelerates uniformly at 16 m/s/s. How long does it take for the velocity to increase from 981 m/s to 1816 m/s?

a) 30.2 s

b) 36.24 s

c) 43.49 s

d) 52.19 s

e) 62.63 s

2) Mr. Smith starts at rest and accelerates to a speed of 2 m/s, in 6 seconds. He then travels at this speed for an additional 3 seconds. Then he decelerates uniformly, taking 4 seconds to come to rest. How far did he travel?

a) 17.0 meters

b) 13.0 meters

c) 15.0 meters

d) 16.0 meters

e) 14.0 meters

3) At time, t=0, two particles are on the x axis. Particle A is (initially) at the origin and moves at a constant speed of 7.03 m/s at an angle of θ above the x-axis. Particle B is initially situated at x= 2.12 m, and moves at a constant speed of 2 m/s in the +y direction. At what time do they meet?

a) 0.15 s.

b) 0.18 s.

c) 0.22 s.

d) 0.26 s.

e) 0.31 s.

4) A car is headed due north and increasing its speed. It is also turning right because it is also traveling in a perfect circle. The velocity vector points

a) south

b) northwest

c) northeast

d) southwest

e) north

5) A 2.3 kg mass is sliding along a surface that has a kinetic coefficient of friction equal to 0.41 . In addition to the surface friction, there is also an air drag equal to 16 N. What is the magnitude (absolute value) of the acceleration?

a) 7.2 m/s².

b) 8.3 m/s².

c) 9.5 m/s².

d) 11 m/s².

e) 12.6 m/s².

6) A sled of mass 5.4 kg is at rest on a perfectly smooth surface. A string pulls with a tension of 41.2N at an angle of 58 degress above the horizontal. How long will it take to reach a speed of 10.5 m/s?

a) 2.6 s

b) 2.99 s

c) 3.43 s

d) 3.95 s

e) 4.54 s

7) In the figure "3 tensions" shown above θ₁ is 16 degrees, and θ₃ is 30 degrees. The tension T₃ is 45 N. What is the weight?

a) 25.5 N.

b) 29.3 N.

c) 33.7 N.

d) 38.7 N.

e) 44.5 N.

8) You are riding a bicycle on a flat road. Assume no friction or air drag, and that you are coasting. Your speed is 4.9m/s, when you encounter a hill of height 1.14m. What is your speed at the top of the hill?

a) 1.218 m/s

b) 1.291 m/s

c) 1.368 m/s

d) 1.450 m/s

e) 1.537 m/s

9) A car of mass 860 kg is driving on an icy road at a speed of 17 m/s, when it collides with a stationary truck. After the collision they stick and move at a speed of 5.9 m/s. What was the mass of the truck?

a) 1124 kg

b) 1348 kg

c) 1618 kg

d) 1942 kg

e) 2330 kg

10)

A massless bar of length, S = 8.6m is attached to a wall by a frictionless hinge (shown as a circle). The bar his held horizontal by a string that makes and angle θ = 37.6 degrees above the horizontal. An object of mass, M = 7.4kg is suspended at a length, L = 6.2m from the wall. What is the tension, T, in the string?

a) 3.41E+01 N

b) 4.29E+01 N

c) 5.41E+01 N

d) 6.81E+01 N

e) 8.57E+01 N

11) A lead filled bicycle wheel of radius 0.38 m and mass 2.8 kg is rotating at a frequency of 1.7 revolutions per second. What is the total kinetic energy if the wheel is rotating about a stationary axis?

a) 1.07 x 10¹ J

b) 1.3 x 10¹ J

c) 1.57 x 10¹ J

d) 1.9 x 10¹ J

e) 2.31 x 10¹ J

12) A cylinder with a radius of 0.24 m and a length of 3.8 m is held so that the top circular face is 3.5 m below the water. The mass of the block is 853.0 kg. The mass density of water is 1000kg/m^3. What is the buoyant force?

a) 5.56E3 N

b) 6.74E3 N

c) 8.16E3 N

d) 9.89E3 N

e) 1.20E4 N

13) A 9.2 cm diameter pipe can fill a 1.6 m^3 volume in 8.0 minutes. Before exiting the pipe, the diameter is reduced to 4.0 cm (with no loss of flow rate). What is the pressure difference (in Pascals) between the two regions of the pipe?

a) 1.91E3

b) 2.31E3

c) 2.80E3

d) 3.39E3

e) 4.11E3

14) What is the rms speed of a molecule with an atomic mass of 19 if the temperature is 65 degrees Fahrenheit?

a) 5.11 x 10² m/s

b) 6.19 x 10² m/s

c) 7.49 x 10² m/s

d) 9.08 x 10² m/s

e) 1.1 x 10³ m/s

15) A window is square, with a length of each side equal to 0.93 meters. The glass has a thickness of 15 mm. To decrease the heat loss, you reduce the size of the window by decreasing the length of each side by a factor of 1.55. You also increase the thickness of the glass by a factor of 2.54. If the inside and outside temperatures are unchanged, by what factor have you decreased the heat flow?. By what factor have you decreased the heat flow (assuming the same inside and outside temperatures).

a) 4.16 x 10⁰ unit

b) 5.04 x 10⁰ unit

c) 6.1 x 10⁰ unit

d) 7.39 x 10⁰ unit

e) 8.96 x 10⁰ unit

16)

A 1241 heat cycle uses 1.2 moles of an ideal gas. The pressures and volumes are: P₁= 1.1 kPa, P₂= 3.5 kPa. The volumes are V₁= 1.2m³ and V₄= 2.5m³. How much work is involved between 1 and 4?

a) 1.43 x 10¹ J

b) 4.52 x 10¹ J

c) 1.43 x 10² J

d) 4.52 x 10² J

e) 1.43 x 10³ J

1) A car of mass 806 kg is driving on an icy road at a speed of 24 m/s, when it collides with a stationary truck. After the collision they stick and move at a speed of 5.5 m/s. What was the mass of the truck?

a) 1883 kg

b) 2259 kg

c) 2711 kg

d) 3253 kg

e) 3904 kg

2) In the figure "3 tensions" shown above θ₁ is 18 degrees, and θ₃ is 35 degrees. The tension T₃ is 48 N. What is the weight?

a) 40.3 N.

b) 46.4 N.

c) 53.3 N.

d) 61.3 N.

e) 70.5 N.

3)

A 1241 heat cycle uses 1.3 moles of an ideal gas. The pressures and volumes are: P₁= 3.1 kPa, P₂= 4.3 kPa. The volumes are V₁= 1.1m³ and V₄= 2.8m³. How much work is involved between 1 and 4?

a) 1.67 x 10³ J

b) 5.27 x 10³ J

c) 1.67 x 10⁴ J

d) 5.27 x 10⁴ J

e) 1.67 x 10⁵ J

4) A lead filled bicycle wheel of radius 0.37 m and mass 2.1 kg is rotating at a frequency of 1.4 revolutions per second. What is the total kinetic energy if the wheel is rotating about a stationary axis?

a) 5.16 x 10⁰ J

b) 6.25 x 10⁰ J

c) 7.58 x 10⁰ J

d) 9.18 x 10⁰ J

e) 1.11 x 10¹ J

5) What is the rms speed of a molecule with an atomic mass of 7 if the temperature is 107 degrees Fahrenheit?

a) 7.22 x 10² m/s

b) 8.74 x 10² m/s

c) 1.06 x 10³ m/s

d) 1.28 x 10³ m/s

e) 1.55 x 10³ m/s

6)

A massless bar of length, S = 8.4m is attached to a wall by a frictionless hinge (shown as a circle). The bar his held horizontal by a string that makes and angle θ = 25.4 degrees above the horizontal. An object of mass, M = 7.6kg is suspended at a length, L = 5.2m from the wall. What is the tension, T, in the string?

a) 1.07E+02 N

b) 1.35E+02 N

c) 1.70E+02 N

d) 2.14E+02 N

e) 2.70E+02 N

7) Mr. Smith starts at rest and accelerates to a speed of 2 m/s, in 6 seconds. He then travels at this speed for an additional 3 seconds. Then he decelerates uniformly, taking 4 seconds to come to rest. How far did he travel?

a) 16.0 meters

b) 14.0 meters

c) 17.0 meters

d) 13.0 meters

e) 15.0 meters

8) You are riding a bicycle on a flat road. Assume no friction or air drag, and that you are coasting. Your speed is 4.9m/s, when you encounter a hill of height 1.14m. What is your speed at the top of the hill?

a) 1.291 m/s

b) 1.368 m/s

c) 1.450 m/s

d) 1.537 m/s

e) 1.630 m/s

9) A 3.2 kg mass is sliding along a surface that has a kinetic coefficient of friction equal to 0.29 . In addition to the surface friction, there is also an air drag equal to 21 N. What is the magnitude (absolute value) of the acceleration?

a) 8.2 m/s².

b) 9.4 m/s².

c) 10.8 m/s².

d) 12.4 m/s².

e) 14.3 m/s².

10) A car is headed due north and increasing its speed. It is also turning right because it is also traveling in a perfect circle. The velocity vector points

a) northeast

b) north

c) south

d) southwest

e) northwest

11) A sled of mass 5.2 kg is at rest on a perfectly smooth surface. A string pulls with a tension of 46N at an angle of 32 degress above the horizontal. How long will it take to reach a speed of 9.1 m/s?

a) 1.05 s

b) 1.21 s

c) 1.39 s

d) 1.6 s

e) 1.84 s

12) A window is square, with a length of each side equal to 0.81 meters. The glass has a thickness of 13 mm. To decrease the heat loss, you reduce the size of the window by decreasing the length of each side by a factor of 1.24. You also increase the thickness of the glass by a factor of 2.15. If the inside and outside temperatures are unchanged, by what factor have you decreased the heat flow?. By what factor have you decreased the heat flow (assuming the same inside and outside temperatures).

a) 1.53 x 10⁰ unit

b) 1.86 x 10⁰ unit

c) 2.25 x 10⁰ unit

d) 2.73 x 10⁰ unit

e) 3.31 x 10⁰ unit

13) At time, t=0, two particles are on the x axis. Particle A is (initially) at the origin and moves at a constant speed of 5.86 m/s at an angle of θ above the x-axis. Particle B is initially situated at x= 2.46 m, and moves at a constant speed of 2.23 m/s in the +y direction. At what time do they meet?

a) 0.45 s.

b) 0.54 s.

c) 0.65 s.

d) 0.78 s.

e) 0.94 s.

14) A cylinder with a radius of 0.28 m and a length of 2.9 m is held so that the top circular face is 4.6 m below the water. The mass of the block is 880.0 kg. The mass density of water is 1000kg/m^3. What is the buoyant force?

a) 7.00E3 N

b) 8.48E3 N

c) 1.03E4 N

d) 1.24E4 N

e) 1.51E4 N

15) A 6.7 cm diameter pipe can fill a 2.2 m^3 volume in 8.0 minutes. Before exiting the pipe, the diameter is reduced to 2.3 cm (with no loss of flow rate). What is the pressure difference (in Pascals) between the two regions of the pipe?

a) 6.00E4

b) 7.27E4

c) 8.81E4

d) 1.07E5

e) 1.29E5

16) A particle accelerates uniformly at 17.25 m/s/s. How long does it take for the velocity to increase from 761 m/s to 1698 m/s?

a) 45.27 s

b) 54.32 s

c) 65.18 s

d) 78.22 s

e) 93.86 s

1) A sled of mass 5.5 kg is at rest on a perfectly smooth surface. A string pulls with a tension of 40.3N at an angle of 43 degress above the horizontal. How long will it take to reach a speed of 9 m/s?

a) 1.27 s

b) 1.46 s

c) 1.68 s

d) 1.93 s

e) 2.22 s

2) At time, t=0, two particles are on the x axis. Particle A is (initially) at the origin and moves at a constant speed of 7.03 m/s at an angle of θ above the x-axis. Particle B is initially situated at x= 2.12 m, and moves at a constant speed of 2 m/s in the +y direction. At what time do they meet?

a) 0.15 s.

b) 0.18 s.

c) 0.22 s.

d) 0.26 s.

e) 0.31 s.

3) What is the rms speed of a molecule with an atomic mass of 7 if the temperature is 107 degrees Fahrenheit?

a) 7.22 x 10² m/s

b) 8.74 x 10² m/s

c) 1.06 x 10³ m/s

d) 1.28 x 10³ m/s

e) 1.55 x 10³ m/s

4) A cylinder with a radius of 0.29 m and a length of 2.3 m is held so that the top circular face is 4.7 m below the water. The mass of the block is 968.0 kg. The mass density of water is 1000kg/m^3. What is the buoyant force?

a) 5.96E3 N

b) 7.21E3 N

c) 8.74E3 N

d) 1.06E4 N

e) 1.28E4 N

5) A 2.3 kg mass is sliding along a surface that has a kinetic coefficient of friction equal to 0.41 . In addition to the surface friction, there is also an air drag equal to 16 N. What is the magnitude (absolute value) of the acceleration?

a) 7.2 m/s².

b) 8.3 m/s².

c) 9.5 m/s².

d) 11 m/s².

e) 12.6 m/s².

6) A lead filled bicycle wheel of radius 0.33 m and mass 2.2 kg is rotating at a frequency of 1.3 revolutions per second. What is the total kinetic if the wheel is rotating about a stationary axis?

a) 6.6 x 10⁰ J

b) 7.99 x 10⁰ J

c) 9.68 x 10⁰ J

d) 1.17 x 10¹ J

e) 1.42 x 10¹ J

7) A window is square, with a length of each side equal to 0.81 meters. The glass has a thickness of 13 mm. To decrease the heat loss, you reduce the size of the window by decreasing the length of each side by a factor of 1.24. You also increase the thickness of the glass by a factor of 2.15. If the inside and outside temperatures are unchanged, by what factor have you decreased the heat flow?. By what factor have you decreased the heat flow (assuming the same inside and outside temperatures).

a) 1.53 x 10⁰ unit

b) 1.86 x 10⁰ unit

c) 2.25 x 10⁰ unit

d) 2.73 x 10⁰ unit

e) 3.31 x 10⁰ unit

8) Mr. Smith starts at rest and accelerates to a speed of 2 m/s, in 6 seconds. He then travels at this speed for an additional 3 seconds. Then he decelerates uniformly, taking 4 seconds to come to rest. How far did he travel?

a) 16.0 meters

b) 17.0 meters

c) 14.0 meters

d) 15.0 meters

e) 13.0 meters

9) In the figure "3 tensions" shown above θ₁ is 19 degrees, and θ₃ is 38 degrees. The tension T₃ is 21 N. What is the weight?

a) 18.6 N.

b) 21.4 N.

c) 24.6 N.

d) 28.3 N.

e) 32.6 N.

10)

A massless bar of length, S = 9.1m is attached to a wall by a frictionless hinge (shown as a circle). The bar his held horizontal by a string that makes and angle θ = 33.6 degrees above the horizontal. An object of mass, M = 9.6kg is suspended at a length, L = 4.6m from the wall. What is the tension, T, in the string?

a) 6.83E+01 N

b) 8.59E+01 N

c) 1.08E+02 N

d) 1.36E+02 N

e) 1.71E+02 N

11)

A 1241 heat cycle uses 2.4 moles of an ideal gas. The pressures and volumes are: P₁= 2.1 kPa, P₂= 3.2 kPa. The volumes are V₁= 1.1m³ and V₄= 2.2m³. How much work is involved between 1 and 4?

a) 2.31 x 10² J

b) 7.3 x 10² J

c) 2.31 x 10³ J

d) 7.3 x 10³ J

e) 2.31 x 10⁴ J

12) A particle accelerates uniformly at 16.75 m/s/s. How long does it take for the velocity to increase from 1210 m/s to 2087 m/s?

a) 52.36 s

b) 62.83 s

c) 75.4 s

d) 90.47 s

e) 108.57 s

13) A car is headed due north and increasing its speed. It is also turning right because it is also traveling in a perfect circle. The velocity vector points

a) southwest

b) south

c) northwest

d) northeast

e) north

14) A 9.7 cm diameter pipe can fill a 1.2 m^3 volume in 4.0 minutes. Before exiting the pipe, the diameter is reduced to 4.3 cm (with no loss of flow rate). What is the pressure difference (in Pascals) between the two regions of the pipe?

a) 5.70E3

b) 6.90E3

c) 8.36E3

d) 1.01E4

e) 1.23E4

15) You are riding a bicycle on a flat road. Assume no friction or air drag, and that you are coasting. Your speed is 4.9m/s, when you encounter a hill of height 1.14m. What is your speed at the top of the hill?

a) 1.291 m/s

b) 1.368 m/s

c) 1.450 m/s

d) 1.537 m/s

e) 1.630 m/s

16) A car of mass 884 kg is driving on an icy road at a speed of 20 m/s, when it collides with a stationary truck. After the collision they stick and move at a speed of 4.2 m/s. What was the mass of the truck?

a) 3326 kg

b) 3991 kg

c) 4789 kg

d) 5747 kg

e) 6896 kg

1) A car is accelerating uniformly at an acceleration of 4.05m/s/s. At x = 4m, the speed is 4.8m/s. How fast is it moving at x = 12.5 m?

a) 6.66 m/s.

b) 7.99 m/s.

c) 9.59 m/s.

d) 11.5 m/s.

e) 13.8 m/s.

2) Mr. Smith is driving at a speed of 7 m/s, when he slows down to a speed of 5 m/s, when he hits a wall at this speed, after travelling for 4 seconds. How far did he travel?

a) 24.0 meters

b) 27.0 meters

c) 26.0 meters

d) 25.0 meters

e) 23.0 meters

3) At time, t=0, two particles are on the x axis. Particle A is (initially) at the origin and moves at a constant speed of 5.94 m/s at an angle of θ above the x-axis. Particle B is initially situated at x= 2.92 m, and moves at a constant speed of 2.89 m/s in the +y direction. At what time do they meet?

a) 0.33 s.

b) 0.39 s.

c) 0.47 s.

d) 0.56 s.

e) 0.68 s.

4) A car is headed due north and increasing its speed. It is also turning left because it is also traveling in a perfect circle. The velocity vector points

a) northwest

b) southeast

c) north

d) northeast

e) northeast

5) A 2.3 kg mass is sliding along a surface that has a kinetic coefficient of friction equal to 0.41 . In addition to the surface friction, there is also an air drag equal to 16 N. What is the magnitude (absolute value) of the acceleration?

a) 7.2 m/s².

b) 8.3 m/s².

c) 9.5 m/s².

d) 11 m/s².

e) 12.6 m/s².

6) A sled of mass 5.2 kg is at rest on a perfectly smooth surface. A string pulls with a tension of 46N at an angle of 32 degress above the horizontal. How long will it take to reach a speed of 9.1 m/s?

a) 1.05 s

b) 1.21 s

c) 1.39 s

d) 1.6 s

e) 1.84 s

7)

In the figure shown, θ₁ is 16 degrees, and θ₃ is 30 degrees. The tension T₃ is 45 N. What is the tension, T₁?

a) 26.66 N.

b) 30.66 N.

c) 35.25 N.

d) 40.54 N.

e) 46.62 N.

8) You are riding a bicycle on a flat road. Assume no friction or air drag, and that you are coasting. Your speed is 4.9m/s, when you encounter a hill of height 1.14m. What is your speed at the top of the hill?

a) 1.149 m/s

b) 1.218 m/s

c) 1.291 m/s

d) 1.368 m/s

e) 1.450 m/s

9)

A 159 gm bullet strikes a ballistic pendulum of mass 2.11 kg (before the bullet struck). After impact, the pendulum rises by 65 cm. What was the speed of the bullet?

a) 39 m/s.

b) 42 m/s.

c) 44 m/s.

d) 48 m/s.

e) 51 m/s.

10)

In the figure shown, L₁ = 6.9m, L₂ = 4.4m and L₃ = 8.2m. What is F₂ if F₁ =0.96N and F₃ =0.1N?

a) 7.42E-01 N

b) 8.99E-01 N

c) 1.09E+00 N

d) 1.32E+00 N

e) 1.60E+00 N

11) A car with a tire radius of 0.34 m accelerates from 0 to 25 m/s in 9.2 seconds. What is the angular acceleration of the wheel?

a) 5.45 x 10⁰ m

b) 6.6 x 10⁰ m

c) 7.99 x 10⁰ m

d) 9.68 x 10⁰ m

e) 1.17 x 10¹ m

12) A cylinder with a radius of 0.25 m and a length of 3.5 m is held so that the top circular face is 3.3 m below the water. The mass of the block is 922.0 kg. The mass density of water is 1000kg/m^3. What is the pressure at the top face of the cylinder?

a) 3.23E4 Pa

b) 3.92E4 Pa

c) 4.75E4 Pa

d) 5.75E4 Pa

e) 6.97E4 Pa

13) A 6.3 cm diameter pipe can fill a 1.4 m^3 volume in 8.0 minutes. Before exiting the pipe, the diameter is reduced to 4.8 cm (with no loss of flow rate). If two fluid elements at the center of the pipe are separated by 32.0 mm when they are both in the wide pipe, and we neglect turbulence, what is the separation when both are in the narrow pipe?

a) 3.10E1 mm

b) 3.76E1 mm

c) 4.55E1 mm

d) 5.51E1 mm

e) 6.68E1 mm

14) What is the rms speed of a molecule with an atomic mass of 18 if the temperature is 12 degrees Fahrenheit?

a) 2.8 x 10² m/s

b) 3.39 x 10² m/s

c) 4.11 x 10² m/s

d) 4.97 x 10² m/s

e) 6.03 x 10² m/s

15) A window is square, with a length of each side equal to 0.81 meters. The glass has a thickness of 13 mm. To decrease the heat loss, you reduce the size of the window by decreasing the length of each side by a factor of 1.24. You also increase the thickness of the glass by a factor of 2.15. If the inside and outside temperatures are unchanged, by what factor have you decreased the heat flow?. By what factor have you decreased the heat flow (assuming the same inside and outside temperatures).

a) 1.53 x 10⁰ unit

b) 1.86 x 10⁰ unit

c) 2.25 x 10⁰ unit

d) 2.73 x 10⁰ unit

e) 3.31 x 10⁰ unit

16)

A 1241 heat cycle uses 1.2 moles of an ideal gas. The pressures and volumes are: P₁= 1.1 kPa, P₂= 3.5 kPa. The volumes are V₁= 1.2m³ and V₄= 2.5m³. How much work is involved between 1 and 4?

a) 1.43 x 10¹ J

b) 4.52 x 10¹ J

c) 1.43 x 10² J

d) 4.52 x 10² J

e) 1.43 x 10³ J

1) A sled of mass 5.5 kg is at rest on a perfectly smooth surface. A string pulls with a tension of 42.8N at an angle of 36 degress above the horizontal. How long will it take to reach a speed of 10.4 m/s?

a) 1.25 s

b) 1.44 s

c) 1.65 s

d) 1.9 s

e) 2.18 s

2) At time, t=0, two particles are on the x axis. Particle A is (initially) at the origin and moves at a constant speed of 6.76 m/s at an angle of θ above the x-axis. Particle B is initially situated at x= 2.65 m, and moves at a constant speed of 2.8 m/s in the +y direction. At what time do they meet?

a) 0.21 s.

b) 0.25 s.

c) 0.3 s.

d) 0.36 s.

e) 0.43 s.

3)

In the figure shown, θ₁ is 19 degrees, and θ₃ is 38 degrees. The tension T₃ is 21 N. What is the tension, T₁?

a) 10.01 N.

b) 11.51 N.

c) 13.23 N.

d) 15.22 N.

e) 17.5 N.

4)

A 1241 heat cycle uses 2.4 moles of an ideal gas. The pressures and volumes are: P₁= 2.1 kPa, P₂= 3.2 kPa. The volumes are V₁= 1.1m³ and V₄= 2.2m³. How much work is involved between 1 and 4?

a) 2.31 x 10² J

b) 7.3 x 10² J

c) 2.31 x 10³ J

d) 7.3 x 10³ J

e) 2.31 x 10⁴ J

5) A car with a tire radius of 0.31 m accelerates from 0 to 39 m/s in 9.3 seconds. What is the angular acceleration of the wheel?

a) 1.12 x 10¹ m

b) 1.35 x 10¹ m

c) 1.64 x 10¹ m

d) 1.99 x 10¹ m

e) 2.41 x 10¹ m

6) A car is headed due north and increasing its speed. It is also turning left because it is also traveling in a perfect circle. The velocity vector points

a) northeast

b) north

c) southeast

d) northwest

e) northeast

7)

In the figure shown, L₁ = 6.9m, L₂ = 4.4m and L₃ = 8.2m. What is F₂ if F₁ =0.96N and F₃ =0.1N?

a) 7.42E-01 N

b) 8.99E-01 N

c) 1.09E+00 N

d) 1.32E+00 N

e) 1.60E+00 N

8) A window is square, with a length of each side equal to 0.78 meters. The glass has a thickness of 11 mm. To decrease the heat loss, you reduce the size of the window by decreasing the length of each side by a factor of 1.31. You also increase the thickness of the glass by a factor of 2.97. If the inside and outside temperatures are unchanged, by what factor have you decreased the heat flow?. By what factor have you decreased the heat flow (assuming the same inside and outside temperatures).

a) 2.37 x 10⁰ unit

b) 2.87 x 10⁰ unit

c) 3.47 x 10⁰ unit

d) 4.21 x 10⁰ unit

e) 5.1 x 10⁰ unit

9) A 3.8 kg mass is sliding along a surface that has a kinetic coefficient of friction equal to 0.6 . In addition to the surface friction, there is also an air drag equal to 20 N. What is the magnitude (absolute value) of the acceleration?

a) 6.4 m/s².

b) 7.3 m/s².

c) 8.4 m/s².

d) 9.7 m/s².

e) 11.1 m/s².

10) What is the rms speed of a molecule with an atomic mass of 12 if the temperature is 93 degrees Fahrenheit?

a) 7.99 x 10² m/s

b) 9.68 x 10² m/s

c) 1.17 x 10³ m/s

d) 1.42 x 10³ m/s

e) 1.72 x 10³ m/s

11) A car is accelerating uniformly at an acceleration of 2.6m/s/s. At x = 5.5m, the speed is 3.2m/s. How fast is it moving at x = 13.25 m?

a) 7.11 m/s.

b) 8.53 m/s.

c) 10.24 m/s.

d) 12.28 m/s.

e) 14.74 m/s.

12) You are riding a bicycle on a flat road. Assume no friction or air drag, and that you are coasting. Your speed is 4.9m/s, when you encounter a hill of height 1.14m. What is your speed at the top of the hill?

a) 1.022 m/s

b) 1.084 m/s

c) 1.149 m/s

d) 1.218 m/s

e) 1.291 m/s

13)

A 169 gm bullet strikes a ballistic pendulum of mass 2.45 kg (before the bullet struck). After impact, the pendulum rises by 65 cm. What was the speed of the bullet?

a) 55 m/s.

b) 59 m/s.

c) 63 m/s.

d) 68 m/s.

e) 73 m/s.

14) A cylinder with a radius of 0.31 m and a length of 3.5 m is held so that the top circular face is 4.8 m below the water. The mass of the block is 933.0 kg. The mass density of water is 1000kg/m^3. What is the pressure at the top face of the cylinder?

a) 3.88E4 Pa

b) 4.70E4 Pa

c) 5.70E4 Pa

d) 6.90E4 Pa

e) 8.37E4 Pa

15) A 6.4 cm diameter pipe can fill a 1.8 m^3 volume in 8.0 minutes. Before exiting the pipe, the diameter is reduced to 3.7 cm (with no loss of flow rate). If two fluid elements at the center of the pipe are separated by 18.0 mm when they are both in the wide pipe, and we neglect turbulence, what is the separation when both are in the narrow pipe?

a) 4.45E1 mm

b) 5.39E1 mm

c) 6.52E1 mm

d) 7.90E1 mm

e) 9.58E1 mm

16) Mr. Smith is driving at a speed of 7 m/s, when he slows down to a speed of 5 m/s, when he hits a wall at this speed, after travelling for 4 seconds. How far did he travel?

a) 24.0 meters

b) 27.0 meters

c) 23.0 meters

d) 25.0 meters

e) 26.0 meters

1)

In the figure shown, L₁ = 6.9m, L₂ = 4m and L₃ = 8.4m. What is F₂ if F₁ =0.99N and F₃ =0.1N?

a) 1.50E+00 N

b) 1.81E+00 N

c) 2.20E+00 N

d) 2.66E+00 N

e) 3.23E+00 N

2) A cylinder with a radius of 0.31 m and a length of 3.5 m is held so that the top circular face is 4.8 m below the water. The mass of the block is 933.0 kg. The mass density of water is 1000kg/m^3. What is the pressure at the top face of the cylinder?

a) 3.88E4 Pa

b) 4.70E4 Pa

c) 5.70E4 Pa

d) 6.90E4 Pa

e) 8.37E4 Pa

3) At time, t=0, two particles are on the x axis. Particle A is (initially) at the origin and moves at a constant speed of 7.34 m/s at an angle of θ above the x-axis. Particle B is initially situated at x= 2.22 m, and moves at a constant speed of 2.91 m/s in the +y direction. At what time do they meet?

a) 0.23 s.

b) 0.27 s.

c) 0.33 s.

d) 0.4 s.

e) 0.47 s.

4) A car with a tire radius of 0.34 m accelerates from 0 to 25 m/s in 9.2 seconds. What is the angular acceleration of the wheel?

a) 5.45 x 10⁰ m

b) 6.6 x 10⁰ m

c) 7.99 x 10⁰ m

d) 9.68 x 10⁰ m

e) 1.17 x 10¹ m

5) A car is headed due north and increasing its speed. It is also turning left because it is also traveling in a perfect circle. The velocity vector points

a) northwest

b) north

c) northeast

d) southeast

e) northeast

6) A sled of mass 5.2 kg is at rest on a perfectly smooth surface. A string pulls with a tension of 46N at an angle of 32 degress above the horizontal. How long will it take to reach a speed of 9.1 m/s?

a) 1.05 s

b) 1.21 s

c) 1.39 s

d) 1.6 s

e) 1.84 s

7)

A 157 gm bullet strikes a ballistic pendulum of mass 2.22 kg (before the bullet struck). After impact, the pendulum rises by 65 cm. What was the speed of the bullet?

a) 47 m/s.

b) 51 m/s.

c) 54 m/s.

d) 58 m/s.

e) 62 m/s.

8)

A 1241 heat cycle uses 2.2 moles of an ideal gas. The pressures and volumes are: P₁= 2.2 kPa, P₂= 3.7 kPa. The volumes are V₁= 1.8m³ and V₄= 4.4m³. How much work is involved between 1 and 4?

a) 1.81 x 10² J

b) 5.72 x 10² J

c) 1.81 x 10³ J

d) 5.72 x 10³ J

e) 1.81 x 10⁴ J

9) What is the rms speed of a molecule with an atomic mass of 14 if the temperature is 22 degrees Fahrenheit?

a) 6.9 x 10² m/s

b) 8.37 x 10² m/s

c) 1.01 x 10³ m/s

d) 1.23 x 10³ m/s

e) 1.49 x 10³ m/s

10) Mr. Smith is driving at a speed of 7 m/s, when he slows down to a speed of 5 m/s, when he hits a wall at this speed, after travelling for 4 seconds. How far did he travel?

a) 25.0 meters

b) 23.0 meters

c) 27.0 meters

d) 24.0 meters

e) 26.0 meters

11) A 3 kg mass is sliding along a surface that has a kinetic coefficient of friction equal to 0.27 . In addition to the surface friction, there is also an air drag equal to 7 N. What is the magnitude (absolute value) of the acceleration?

a) 3.8 m/s².

b) 4.3 m/s².

c) 5 m/s².

d) 5.7 m/s².

e) 6.6 m/s².

12)

In the figure shown, θ₁ is 17 degrees, and θ₃ is 30 degrees. The tension T₃ is 46 N. What is the tension, T₁?

a) 36.22 N.

b) 41.66 N.

c) 47.91 N.

d) 55.09 N.

e) 63.36 N.

13) A window is square, with a length of each side equal to 0.93 meters. The glass has a thickness of 15 mm. To decrease the heat loss, you reduce the size of the window by decreasing the length of each side by a factor of 1.55. You also increase the thickness of the glass by a factor of 2.54. If the inside and outside temperatures are unchanged, by what factor have you decreased the heat flow?. By what factor have you decreased the heat flow (assuming the same inside and outside temperatures).

a) 4.16 x 10⁰ unit

b) 5.04 x 10⁰ unit

c) 6.1 x 10⁰ unit

d) 7.39 x 10⁰ unit

e) 8.96 x 10⁰ unit

14) You are riding a bicycle on a flat road. Assume no friction or air drag, and that you are coasting. Your speed is 4.9m/s, when you encounter a hill of height 1.14m. What is your speed at the top of the hill?

a) 1.218 m/s

b) 1.291 m/s

c) 1.368 m/s

d) 1.450 m/s

e) 1.537 m/s

15) A car is accelerating uniformly at an acceleration of 3.6m/s/s. At x = 7.5m, the speed is 4.7m/s. How fast is it moving at x = 11.5 m?

a) 4.95 m/s.

b) 5.94 m/s.

c) 7.13 m/s.

d) 8.56 m/s.

e) 10.27 m/s.

16) A 9.2 cm diameter pipe can fill a 1.6 m^3 volume in 8.0 minutes. Before exiting the pipe, the diameter is reduced to 4.0 cm (with no loss of flow rate). If two fluid elements at the center of the pipe are separated by 34.0 mm when they are both in the wide pipe, and we neglect turbulence, what is the separation when both are in the narrow pipe?

a) 1.23E2 mm

b) 1.48E2 mm

c) 1.80E2 mm

d) 2.18E2 mm

e) 2.64E2 mm

1) A particle accelerates uniformly at 17.25 m/s/s. How long does it take for the velocity to increase from 761 m/s to 1698 m/s?

a) 45.27 s

b) 54.32 s

c) 65.18 s

d) 78.22 s

e) 93.86 s

2) Mr. Smith is driving at a speed of 5 m/s, when he slows down to a speed of 4 m/s, when he hits a wall at this speed, after travelling for 2 seconds. How far did he travel?

a) 12.0 meters

b) 10.0 meters

c) 8.0 meters

d) 11.0 meters

e) 9.0 meters

3) A ball is kicked horizontally from a height of 2.2 m, at a speed of 9.8m/s. How far does it travel before landing?

a) 6.57 m.

b) 7.88 m.

c) 9.46 m.

d) 11.35 m.

e) 13.62 m.

4) If you toss a coin into the air, the acceleration on the way up is

a) up

b) down

c) zero

5) A 3.8 kg mass is sliding along a surface that has a kinetic coefficient of friction equal to 0.6 . In addition to the surface friction, there is also an air drag equal to 20 N. What is the magnitude (absolute value) of the acceleration?

a) 6.4 m/s².

b) 7.3 m/s².

c) 8.4 m/s².

d) 9.7 m/s².

e) 11.1 m/s².

6) A sled of mass 5.2 kg is at rest on a perfectly smooth surface. A string pulls with a tension of 41.3N at an angle of 55 degress above the horizontal. How long will it take to reach a speed of 9.8 m/s?

a) 1.87 s

b) 2.15 s

c) 2.47 s

d) 2.85 s

e) 3.27 s

7) In the figure "3 tensions" shown above θ₁ is 20 degrees, and θ₃ is 29 degrees. The tension T₃ is 25 N. What is the weight?

a) 20.1 N.

b) 23.1 N.

c) 26.6 N.

d) 30.5 N.

e) 35.1 N.

8) The cart has a mass of 36.30kg. It is moving at a speed of 2.10m/s, when it is at a height of 3.33m. If the spring constant was 677N/m, what was the initial compression?

a) 1.69 m

b) 1.81 m

c) 1.93 m

d) 2.07 m

e) 2.21 m

9)

A 164 gm bullet strikes a ballistic pendulum of mass 2.48 kg (before the bullet struck). After impact, the pendulum rises by 65 cm. What was the speed of the bullet?

a) 54 m/s.

b) 58 m/s.

c) 62 m/s.

d) 66 m/s.

e) 70 m/s.

10)

A massless bar of length, S = 9.1m is attached to a wall by a frictionless hinge (shown as a circle). The bar his held horizontal by a string that makes and angle θ = 24.6 degrees above the horizontal. An object of mass, M = 3.5kg is suspended at a length, L = 5.4m from the wall. What is the x (horizontal) component of the force exerted by the wall on the horizontal bar?

a) 3.03E+01 N

b) 3.67E+01 N

c) 4.45E+01 N

d) 5.39E+01 N

e) 6.53E+01 N

11) A car with a tire radius of 0.21 m accelerates from 0 to 26 m/s in 9.1 seconds. What is the angular acceleration of the wheel?

a) 7.65 x 10⁰ m

b) 9.27 x 10⁰ m

c) 1.12 x 10¹ m

d) 1.36 x 10¹ m

e) 1.65 x 10¹ m

12) A cylinder with a radius of 0.25 m and a length of 3.5 m is held so that the top circular face is 3.3 m below the water. The mass of the block is 922.0 kg. The mass density of water is 1000kg/m^3. What is the pressure at the top face of the cylinder?

a) 3.23E4 Pa

b) 3.92E4 Pa

c) 4.75E4 Pa

d) 5.75E4 Pa

e) 6.97E4 Pa

13) A 7.9 cm diameter pipe can fill a 1.5 m^3 volume in 7.0 minutes. Before exiting the pipe, the diameter is reduced to 2.7 cm (with no loss of flow rate). What is the pressure difference (in Pascals) between the two regions of the pipe?

a) 1.08E4

b) 1.31E4

c) 1.58E4

d) 1.92E4

e) 2.32E4

14) If a molecule with atomic mass equal to 8 amu has a speed of 331 m/s, what is the speed at an atom in the same atmosphere of a molecule with an atomic mass of 27 ?

a) 8.36 x 10¹ m/s

b) 1.01 x 10² m/s

c) 1.23 x 10² m/s

d) 1.49 x 10² m/s

e) 1.8 x 10² m/s

15) A window is square, with a length of each side equal to 0.73 meters. The glass has a thickness of 14 mm. To decrease the heat loss, you reduce the size of the window by decreasing the length of each side by a factor of 1.45. You also increase the thickness of the glass by a factor of 2.4. If the inside and outside temperatures are unchanged, by what factor have you decreased the heat flow?. By what factor have you decreased the heat flow (assuming the same inside and outside temperatures).

a) 5.05 x 10⁰ unit

b) 6.11 x 10⁰ unit

c) 7.41 x 10⁰ unit

d) 8.97 x 10⁰ unit

e) 1.09 x 10¹ unit

16)

A 1241 heat cycle uses 2.9 moles of an ideal gas. The pressures and volumes are: P₁= 1.3 kPa, P₂= 3.4 kPa. The volumes are V₁= 2.5m³ and V₄= 4.3m³. How much work is involved between 2 and 4?

a) 1.34 x 10² J

b) 4.23 x 10² J

c) 1.34 x 10³ J

d) 4.23 x 10³ J

e) 1.34 x 10⁴ J

1) The cart has a mass of 37.20kg. It is moving at a speed of 2.40m/s, when it is at a height of 3.15m. If the spring constant was 596N/m, what was the initial compression?

a) 1.79 m

b) 1.92 m

c) 2.05 m

d) 2.20 m

e) 2.35 m

2) If a molecule with atomic mass equal to 8 amu has a speed of 475 m/s, what is the speed at an atom in the same atmosphere of a molecule with an atomic mass of 28 ?

a) 1.73 x 10² m/s

b) 2.1 x 10² m/s

c) 2.54 x 10² m/s

d) 3.08 x 10² m/s

e) 3.73 x 10² m/s

3) Mr. Smith is driving at a speed of 5 m/s, when he slows down to a speed of 4 m/s, when he hits a wall at this speed, after travelling for 2 seconds. How far did he travel?

a) 8.0 meters

b) 10.0 meters

c) 11.0 meters

d) 12.0 meters

e) 9.0 meters

4) A 6.4 cm diameter pipe can fill a 1.8 m^3 volume in 8.0 minutes. Before exiting the pipe, the diameter is reduced to 3.7 cm (with no loss of flow rate). What is the pressure difference (in Pascals) between the two regions of the pipe?

a) 3.04E3

b) 3.68E3

c) 4.46E3

d) 5.40E3

e) 6.55E3

5) A 3 kg mass is sliding along a surface that has a kinetic coefficient of friction equal to 0.27 . In addition to the surface friction, there is also an air drag equal to 7 N. What is the magnitude (absolute value) of the acceleration?

a) 3.8 m/s².

b) 4.3 m/s².

c) 5 m/s².

d) 5.7 m/s².

e) 6.6 m/s².

6)

A 1241 heat cycle uses 2.9 moles of an ideal gas. The pressures and volumes are: P₁= 1.7 kPa, P₂= 3.1 kPa. The volumes are V₁= 2.8m³ and V₄= 4.3m³. How much work is involved between 2 and 4?

a) 3.6 x 10³ J

b) 1.14 x 10⁴ J

c) 3.6 x 10⁴ J

d) 1.14 x 10⁵ J

e) 3.6 x 10⁵ J

7) A particle accelerates uniformly at 11.5 m/s/s. How long does it take for the velocity to increase from 1164 m/s to 2020 m/s?

a) 35.9 s

b) 43.08 s

c) 51.69 s

d) 62.03 s

e) 74.43 s

8)

A massless bar of length, S = 9.1m is attached to a wall by a frictionless hinge (shown as a circle). The bar his held horizontal by a string that makes and angle θ = 24.6 degrees above the horizontal. An object of mass, M = 3.5kg is suspended at a length, L = 5.4m from the wall. What is the x (horizontal) component of the force exerted by the wall on the horizontal bar?

a) 3.03E+01 N

b) 3.67E+01 N

c) 4.45E+01 N

d) 5.39E+01 N

e) 6.53E+01 N

9)

A 191 gm bullet strikes a ballistic pendulum of mass 2.02 kg (before the bullet struck). After impact, the pendulum rises by 65 cm. What was the speed of the bullet?

a) 34 m/s.

b) 36 m/s.

c) 39 m/s.

d) 41 m/s.

e) 44 m/s.

10) In the figure "3 tensions" shown above θ₁ is 18 degrees, and θ₃ is 35 degrees. The tension T₃ is 48 N. What is the weight?

a) 40.3 N.

b) 46.4 N.

c) 53.3 N.

d) 61.3 N.

e) 70.5 N.

11) A window is square, with a length of each side equal to 0.73 meters. The glass has a thickness of 16 mm. To decrease the heat loss, you reduce the size of the window by decreasing the length of each side by a factor of 1.27. You also increase the thickness of the glass by a factor of 2. If the inside and outside temperatures are unchanged, by what factor have you decreased the heat flow?. By what factor have you decreased the heat flow (assuming the same inside and outside temperatures).

a) 1.5 x 10⁰ unit

b) 1.81 x 10⁰ unit

c) 2.2 x 10⁰ unit

d) 2.66 x 10⁰ unit

e) 3.23 x 10⁰ unit

12) If you toss a coin into the air, the acceleration on the way up is

a) down

b) up

c) zero

13) A car with a tire radius of 0.21 m accelerates from 0 to 26 m/s in 11.1 seconds. What is the angular acceleration of the wheel?

a) 9.21 x 10⁰ m

b) 1.12 x 10¹ m

c) 1.35 x 10¹ m

d) 1.64 x 10¹ m

e) 1.98 x 10¹ m

14) A sled of mass 5.7 kg is at rest on a perfectly smooth surface. A string pulls with a tension of 41.7N at an angle of 55 degress above the horizontal. How long will it take to reach a speed of 10.5 m/s?

a) 1.89 s

b) 2.18 s

c) 2.5 s

d) 2.88 s

e) 3.31 s

15) A cylinder with a radius of 0.38 m and a length of 3.6 m is held so that the top circular face is 4.2 m below the water. The mass of the block is 829.0 kg. The mass density of water is 1000kg/m^3. What is the pressure at the top face of the cylinder?

a) 3.40E4 Pa

b) 4.12E4 Pa

c) 4.99E4 Pa

d) 6.04E4 Pa

e) 7.32E4 Pa

16) A ball is kicked horizontally from a height of 2 m, at a speed of 6.2m/s. How far does it travel before landing?

a) 2.75 m.

b) 3.3 m.

c) 3.96 m.

d) 4.75 m.

e) 5.7 m.

1) In the figure "3 tensions" shown above θ₁ is 19 degrees, and θ₃ is 38 degrees. The tension T₃ is 21 N. What is the weight?

a) 18.6 N.

b) 21.4 N.

c) 24.6 N.

d) 28.3 N.

e) 32.6 N.

2) A cylinder with a radius of 0.24 m and a length of 3.8 m is held so that the top circular face is 3.5 m below the water. The mass of the block is 853.0 kg. The mass density of water is 1000kg/m^3. What is the pressure at the top face of the cylinder?

a) 2.83E4 Pa

b) 3.43E4 Pa

c) 4.16E4 Pa

d) 5.03E4 Pa

e) 6.10E4 Pa

3) A particle accelerates uniformly at 12.5 m/s/s. How long does it take for the velocity to increase from 968 m/s to 1883 m/s?

a) 42.36 s

b) 50.83 s

c) 61 s

d) 73.2 s

e) 87.84 s

4) A sled of mass 5.7 kg is at rest on a perfectly smooth surface. A string pulls with a tension of 41.3N at an angle of 40 degress above the horizontal. How long will it take to reach a speed of 10.3 m/s?

a) 1.4 s

b) 1.61 s

c) 1.86 s

d) 2.13 s

e) 2.45 s

5) If you toss a coin into the air, the acceleration on the way up is

a) zero

b) down

c) up

6)

A 164 gm bullet strikes a ballistic pendulum of mass 2.48 kg (before the bullet struck). After impact, the pendulum rises by 65 cm. What was the speed of the bullet?

a) 54 m/s.

b) 58 m/s.

c) 62 m/s.

d) 66 m/s.

e) 70 m/s.

7) Mr. Smith is driving at a speed of 5 m/s, when he slows down to a speed of 4 m/s, when he hits a wall at this speed, after travelling for 2 seconds. How far did he travel?

a) 9.0 meters

b) 10.0 meters

c) 8.0 meters

d) 12.0 meters

e) 11.0 meters

8) A 2.3 kg mass is sliding along a surface that has a kinetic coefficient of friction equal to 0.41 . In addition to the surface friction, there is also an air drag equal to 16 N. What is the magnitude (absolute value) of the acceleration?

a) 7.2 m/s².

b) 8.3 m/s².

c) 9.5 m/s².

d) 11 m/s².

e) 12.6 m/s².

9) A window is square, with a length of each side equal to 0.93 meters. The glass has a thickness of 15 mm. To decrease the heat loss, you reduce the size of the window by decreasing the length of each side by a factor of 1.55. You also increase the thickness of the glass by a factor of 2.54. If the inside and outside temperatures are unchanged, by what factor have you decreased the heat flow?. By what factor have you decreased the heat flow (assuming the same inside and outside temperatures).

a) 4.16 x 10⁰ unit

b) 5.04 x 10⁰ unit

c) 6.1 x 10⁰ unit

d) 7.39 x 10⁰ unit

e) 8.96 x 10⁰ unit

10)

A massless bar of length, S = 8.1m is attached to a wall by a frictionless hinge (shown as a circle). The bar his held horizontal by a string that makes and angle θ = 32 degrees above the horizontal. An object of mass, M = 7.6kg is suspended at a length, L = 5.1m from the wall. What is the x (horizontal) component of the force exerted by the wall on the horizontal bar?

a) 7.50E+01 N

b) 9.09E+01 N

c) 1.10E+02 N

d) 1.33E+02 N

e) 1.62E+02 N

11)

A 1241 heat cycle uses 2.9 moles of an ideal gas. The pressures and volumes are: P₁= 1.3 kPa, P₂= 3.4 kPa. The volumes are V₁= 2.5m³ and V₄= 4.3m³. How much work is involved between 2 and 4?

a) 1.34 x 10² J

b) 4.23 x 10² J

c) 1.34 x 10³ J

d) 4.23 x 10³ J

e) 1.34 x 10⁴ J

12) If a molecule with atomic mass equal to 3 amu has a speed of 405 m/s, what is the speed at an atom in the same atmosphere of a molecule with an atomic mass of 24 ?

a) 8.05 x 10¹ m/s

b) 9.76 x 10¹ m/s

c) 1.18 x 10² m/s

d) 1.43 x 10² m/s

e) 1.73 x 10² m/s

13) The cart has a mass of 36.50kg. It is moving at a speed of 2.10m/s, when it is at a height of 3.46m. If the spring constant was 594N/m, what was the initial compression?

a) 1.97 m

b) 2.11 m

c) 2.25 m

d) 2.41 m

e) 2.58 m

14) A ball is kicked horizontally from a height of 2.9 m, at a speed of 7.4m/s. How far does it travel before landing?

a) 4.74 m.

b) 5.69 m.

c) 6.83 m.

d) 8.2 m.

e) 9.84 m.

15) A car with a tire radius of 0.21 m accelerates from 0 to 29 m/s in 11 seconds. What is the angular acceleration of the wheel?

a) 1.26 x 10¹ m

b) 1.52 x 10¹ m

c) 1.84 x 10¹ m

d) 2.23 x 10¹ m

e) 2.7 x 10¹ m

16) A 9.7 cm diameter pipe can fill a 1.2 m^3 volume in 4.0 minutes. Before exiting the pipe, the diameter is reduced to 4.3 cm (with no loss of flow rate). What is the pressure difference (in Pascals) between the two regions of the pipe?

a) 5.70E3

b) 6.90E3

c) 8.36E3

d) 1.01E4

e) 1.23E4

1) A car is accelerating uniformly at an acceleration of 3.95m/s/s. At x = 5.5m, the speed is 3.85m/s. How fast is it moving at x = 11.25 m?

a) 5.39 m/s.

b) 6.47 m/s.

c) 7.76 m/s.

d) 9.31 m/s.

e) 11.18 m/s.

2) Mr. Smith starts from rest and accelerates to 2 m/s in 3 seconds. How far did he travel?

a) 4.0 meters

b) 6.0 meters

c) 3.0 meters

d) 7.0 meters

e) 5.0 meters

3) At time, t=0, two particles are on the x axis. Particle A is (initially) at the origin and moves at a constant speed of 6.1 m/s at an angle of θ above the x-axis. Particle B is initially situated at x= 2.79 m, and moves at a constant speed of 2.87 m/s in the +y direction. At what time do they meet?

a) 0.43 s.

b) 0.52 s.

c) 0.62 s.

d) 0.75 s.

e) 0.9 s.

4) A car is headed due north and increasing its speed. It is also turning right because it is also traveling in a perfect circle. The velocity vector points

a) northeast

b) southwest

c) northwest

d) north

e) south

5) A mass with weight (mg) equal to 44 newtons is suspended symmetrically from two strings. Each string makes the (same) angle of 60 degrees with respect to the horizontal. What is the tension in each string?

a) 14.5 N.

b) 16.7 N.

c) 19.2 N.

d) 22.1 N.

e) 25.4 N.

6) A sled of mass 5.4 kg is at rest on a perfectly smooth surface. A string pulls with a tension of 41.2N at an angle of 58 degress above the horizontal. How long will it take to reach a speed of 10.5 m/s?

a) 2.6 s

b) 2.99 s

c) 3.43 s

d) 3.95 s

e) 4.54 s

7)

In the figure shown, θ is 37 degrees, and the mass is 2.5 kg. What is T₁?

a) 32.5 N.

b) 39 N.

c) 46.8 N.

d) 56.2 N.

e) 67.4 N.

8) The spring constant is 630N/m, and the initial compression is 0.25m. What is the mass if the cart reaches a height of 1.26m, before coming to rest?

a) 1.312 kg

b) 1.377 kg

c) 1.446 kg

d) 1.518 kg

e) 1.594 kg

9) On object of mass 2.3 kg that is moving at a velocity of 16m/s collides with a stationary object of mass 9.6 kg. What is the final velocity if they stick? (Assume no external friction.)

a) 1.49m/s.

b) 1.79m/s.

c) 2.15m/s.

d) 2.58m/s.

e) 3.09m/s.

10)

A massless bar of length, S = 9.8m is attached to a wall by a frictionless hinge (shown as a circle). The bar his held horizontal by a string that makes and angle θ = 38.4 degrees above the horizontal. An object of mass, M = 7kg is suspended at a length, L = 4.2m from the wall. What is the x (horizontal) component of the force exerted by the wall on the horizontal bar?

a) 3.06E+01 N

b) 3.71E+01 N

c) 4.49E+01 N

d) 5.44E+01 N

e) 6.60E+01 N

11) A car with a tire radius of 0.21 m accelerates from 0 to 26 m/s in 11.1 seconds. What is the angular acceleration of the wheel?

a) 9.21 x 10⁰ m

b) 1.12 x 10¹ m

c) 1.35 x 10¹ m

d) 1.64 x 10¹ m

e) 1.98 x 10¹ m

12) A cylinder with a radius of 0.31 m and a length of 3.5 m is held so that the top circular face is 4.8 m below the water. The mass of the block is 933.0 kg. The mass density of water is 1000kg/m^3. What is the pressure at the top face of the cylinder?

a) 3.88E4 Pa

b) 4.70E4 Pa

c) 5.70E4 Pa

d) 6.90E4 Pa

e) 8.37E4 Pa

13) A 9.2 cm diameter pipe can fill a 1.6 m^3 volume in 8.0 minutes. Before exiting the pipe, the diameter is reduced to 4.0 cm (with no loss of flow rate). What is the pressure difference (in Pascals) between the two regions of the pipe?

a) 1.91E3

b) 2.31E3

c) 2.80E3

d) 3.39E3

e) 4.11E3

14) If a molecule with atomic mass equal to 7 amu has a speed of 399 m/s, what is the speed at an atom in the same atmosphere of a molecule with an atomic mass of 31 ?

a) 8.8 x 10¹ m/s

b) 1.07 x 10² m/s

c) 1.29 x 10² m/s

d) 1.56 x 10² m/s

e) 1.9 x 10² m/s

15) The specific heat of water and aluminum are 4186 and 900, respectively, where the units are J/kg/Celsius. An aluminum container of mass 0.82 kg is filled with 0.11 kg of water. What fraction of the heat went into the aluminum?

a) 3.8 x 10^-1

b) 4.4 x 10^-1

c) 5.2 x 10^-1

d) 6.2 x 10^-1

e) 7.3 x 10^-1

16)

A 1241 heat cycle uses 2.5 moles of an ideal gas. The pressures and volumes are: P₁= 3 kPa, P₂= 5.4 kPa. The volumes are V₁= 2.6m³ and V₄= 5m³. How much work is involved between 2 and 4?

a) 1.01 x 10² J

b) 3.19 x 10² J

c) 1.01 x 10³ J

d) 3.19 x 10³ J

e) 1.01 x 10⁴ J

1) A cylinder with a radius of 0.33 m and a length of 2.9 m is held so that the top circular face is 4.1 m below the water. The mass of the block is 912.0 kg. The mass density of water is 1000kg/m^3. What is the pressure at the top face of the cylinder?

a) 2.26E4 Pa

b) 2.74E4 Pa

c) 3.32E4 Pa

d) 4.02E4 Pa

e) 4.87E4 Pa

2) At time, t=0, two particles are on the x axis. Particle A is (initially) at the origin and moves at a constant speed of 6.54 m/s at an angle of θ above the x-axis. Particle B is initially situated at x= 2.91 m, and moves at a constant speed of 2.42 m/s in the +y direction. At what time do they meet?

a) 0.48 s.

b) 0.57 s.

c) 0.69 s.

d) 0.83 s.

e) 0.99 s.

3) A 6.3 cm diameter pipe can fill a 1.4 m^3 volume in 8.0 minutes. Before exiting the pipe, the diameter is reduced to 4.8 cm (with no loss of flow rate). What is the pressure difference (in Pascals) between the two regions of the pipe?

a) 4.84E2

b) 5.87E2

c) 7.11E2

d) 8.61E2

e) 1.04E3

4) On object of mass 2.3 kg that is moving at a velocity of 22m/s collides with a stationary object of mass 19.8 kg. What is the final velocity if they stick? (Assume no external friction.)

a) 1.32m/s.

b) 1.59m/s.

c) 1.91m/s.

d) 2.29m/s.

e) 2.75m/s.

5) A car with a tire radius of 0.21 m accelerates from 0 to 26 m/s in 9.1 seconds. What is the angular acceleration of the wheel?

a) 7.65 x 10⁰ m

b) 9.27 x 10⁰ m

c) 1.12 x 10¹ m

d) 1.36 x 10¹ m

e) 1.65 x 10¹ m

6)

In the figure shown, θ is 32 degrees, and the mass is 2.8 kg. What is T₁?

a) 21.2 N.

b) 25.4 N.

c) 30.5 N.

d) 36.6 N.

e) 43.9 N.

7)

A 1241 heat cycle uses 2.9 moles of an ideal gas. The pressures and volumes are: P₁= 1.3 kPa, P₂= 3.4 kPa. The volumes are V₁= 2.5m³ and V₄= 4.3m³. How much work is involved between 2 and 4?

a) 1.34 x 10² J

b) 4.23 x 10² J

c) 1.34 x 10³ J

d) 4.23 x 10³ J

e) 1.34 x 10⁴ J

8) The specific heat of water and aluminum are 4186 and 900, respectively, where the units are J/kg/Celsius. An aluminum container of mass 0.99 kg is filled with 0.26 kg of water. What fraction of the heat went into the aluminum?

a) 2.7 x 10^-1

b) 3.2 x 10^-1

c) 3.8 x 10^-1

d) 4.5 x 10^-1

e) 5.3 x 10^-1

9) Mr. Smith starts from rest and accelerates to 2 m/s in 3 seconds. How far did he travel?

a) 3.0 meters

b) 7.0 meters

c) 4.0 meters

d) 5.0 meters

e) 6.0 meters

10) A mass with weight (mg) equal to 37 newtons is suspended symmetrically from two strings. Each string makes the (same) angle of 65 degrees with respect to the horizontal. What is the tension in each string?

a) 15.4 N.

b) 17.7 N.

c) 20.4 N.

d) 23.5 N.

e) 27 N.

11)

A massless bar of length, S = 7.5m is attached to a wall by a frictionless hinge (shown as a circle). The bar his held horizontal by a string that makes and angle θ = 25.6 degrees above the horizontal. An object of mass, M = 3.5kg is suspended at a length, L = 5.1m from the wall. What is the x (horizontal) component of the force exerted by the wall on the horizontal bar?

a) 3.32E+01 N

b) 4.02E+01 N

c) 4.87E+01 N

d) 5.90E+01 N

e) 7.15E+01 N

12) A car is accelerating uniformly at an acceleration of 3.6m/s/s. At x = 7.5m, the speed is 4.7m/s. How fast is it moving at x = 11.5 m?

a) 4.95 m/s.

b) 5.94 m/s.

c) 7.13 m/s.

d) 8.56 m/s.

e) 10.27 m/s.

13) The spring constant is 608N/m, and the initial compression is 0.20m. What is the mass if the cart reaches a height of 1.68m, before coming to rest?

a) 0.608 kg

b) 0.638 kg

c) 0.670 kg

d) 0.703 kg

e) 0.739 kg

14) A car is headed due north and increasing its speed. It is also turning right because it is also traveling in a perfect circle. The velocity vector points

a) north

b) northwest

c) south

d) southwest

e) northeast

15) If a molecule with atomic mass equal to 2 amu has a speed of 245 m/s, what is the speed at an atom in the same atmosphere of a molecule with an atomic mass of 31 ?

a) 4.24 x 10¹ m/s

b) 5.14 x 10¹ m/s

c) 6.22 x 10¹ m/s

d) 7.54 x 10¹ m/s

e) 9.13 x 10¹ m/s

16) A sled of mass 5.5 kg is at rest on a perfectly smooth surface. A string pulls with a tension of 42.8N at an angle of 36 degress above the horizontal. How long will it take to reach a speed of 10.4 m/s?

a) 1.25 s

b) 1.44 s

c) 1.65 s

d) 1.9 s

e) 2.18 s

1) The specific heat of water and aluminum are 4186 and 900, respectively, where the units are J/kg/Celsius. An aluminum container of mass 0.99 kg is filled with 0.26 kg of water. What fraction of the heat went into the aluminum?

a) 2.7 x 10^-1

b) 3.2 x 10^-1

c) 3.8 x 10^-1

d) 4.5 x 10^-1

e) 5.3 x 10^-1

2) A sled of mass 5.1 kg is at rest on a perfectly smooth surface. A string pulls with a tension of 47.8N at an angle of 36 degress above the horizontal. How long will it take to reach a speed of 9 m/s?

a) 0.68 s

b) 0.78 s

c) 0.9 s

d) 1.03 s

e) 1.19 s

3)

A 1241 heat cycle uses 3 moles of an ideal gas. The pressures and volumes are: P₁= 1.3 kPa, P₂= 3.7 kPa. The volumes are V₁= 1.1m³ and V₄= 2.2m³. How much work is involved between 2 and 4?

a) 8.7 x 10² J

b) 2.75 x 10³ J

c) 8.7 x 10³ J

d) 2.75 x 10⁴ J

e) 8.7 x 10⁴ J

4) On object of mass 2.3 kg that is moving at a velocity of 16m/s collides with a stationary object of mass 9.6 kg. What is the final velocity if they stick? (Assume no external friction.)

a) 1.49m/s.

b) 1.79m/s.

c) 2.15m/s.

d) 2.58m/s.

e) 3.09m/s.

5) A car is headed due north and increasing its speed. It is also turning right because it is also traveling in a perfect circle. The velocity vector points

a) north

b) northwest

c) south

d) southwest

e) northeast

6) A mass with weight (mg) equal to 33 newtons is suspended symmetrically from two strings. Each string makes the (same) angle of 72 degrees with respect to the horizontal. What is the tension in each string?

a) 9.9 N.

b) 11.4 N.

c) 13.1 N.

d) 15.1 N.

e) 17.3 N.

7)

A massless bar of length, S = 8.1m is attached to a wall by a frictionless hinge (shown as a circle). The bar his held horizontal by a string that makes and angle θ = 37.9 degrees above the horizontal. An object of mass, M = 6kg is suspended at a length, L = 4.5m from the wall. What is the x (horizontal) component of the force exerted by the wall on the horizontal bar?

a) 4.20E+01 N

b) 5.08E+01 N

c) 6.16E+01 N

d) 7.46E+01 N

e) 9.04E+01 N

8) A car with a tire radius of 0.34 m accelerates from 0 to 25 m/s in 9.2 seconds. What is the angular acceleration of the wheel?

a) 5.45 x 10⁰ m

b) 6.6 x 10⁰ m

c) 7.99 x 10⁰ m

d) 9.68 x 10⁰ m

e) 1.17 x 10¹ m

9) The spring constant is 608N/m, and the initial compression is 0.20m. What is the mass if the cart reaches a height of 1.68m, before coming to rest?

a) 0.608 kg

b) 0.638 kg

c) 0.670 kg

d) 0.703 kg

e) 0.739 kg

10) Mr. Smith starts from rest and accelerates to 2 m/s in 3 seconds. How far did he travel?

a) 5.0 meters

b) 7.0 meters

c) 6.0 meters

d) 3.0 meters

e) 4.0 meters

11) A cylinder with a radius of 0.38 m and a length of 2.2 m is held so that the top circular face is 3.8 m below the water. The mass of the block is 903.0 kg. The mass density of water is 1000kg/m^3. What is the pressure at the top face of the cylinder?

a) 3.72E4 Pa

b) 4.51E4 Pa

c) 5.47E4 Pa

d) 6.62E4 Pa

e) 8.02E4 Pa

12) A car is accelerating uniformly at an acceleration of 3.3m/s/s. At x = 5.75m, the speed is 4.95m/s. How fast is it moving at x = 13.75 m?

a) 5.09 m/s.

b) 6.11 m/s.

c) 7.33 m/s.

d) 8.79 m/s.

e) 10.55 m/s.

13) A 9.2 cm diameter pipe can fill a 1.6 m^3 volume in 8.0 minutes. Before exiting the pipe, the diameter is reduced to 4.0 cm (with no loss of flow rate). What is the pressure difference (in Pascals) between the two regions of the pipe?

a) 1.91E3

b) 2.31E3

c) 2.80E3

d) 3.39E3

e) 4.11E3

14) If a molecule with atomic mass equal to 7 amu has a speed of 399 m/s, what is the speed at an atom in the same atmosphere of a molecule with an atomic mass of 31 ?

a) 8.8 x 10¹ m/s

b) 1.07 x 10² m/s

c) 1.29 x 10² m/s

d) 1.56 x 10² m/s

e) 1.9 x 10² m/s

15) At time, t=0, two particles are on the x axis. Particle A is (initially) at the origin and moves at a constant speed of 5.43 m/s at an angle of θ above the x-axis. Particle B is initially situated at x= 2.49 m, and moves at a constant speed of 2.75 m/s in the +y direction. At what time do they meet?

a) 0.26 s.

b) 0.31 s.

c) 0.37 s.

d) 0.44 s.

e) 0.53 s.

16)

In the figure shown, θ is 37 degrees, and the mass is 2.5 kg. What is T₁?

a) 32.5 N.

b) 39 N.

c) 46.8 N.

d) 56.2 N.

e) 67.4 N.

1) A train accelerates uniformly from 10 m/s to 18.75 m/s, while travelling a distance of 263 m. What is the 'average' acceleration?

a) 0.28m/s/s.

b) 0.33m/s/s.

c) 0.4m/s/s.

d) 0.48m/s/s.

e) 0.57m/s/s.

2) Mr. Smith starts at rest and accelerates to a speed of 2 m/s, in 2 seconds. He then travels at this speed for an additional 1 seconds. Then he decelerates uniformly, taking 2 seconds to come to rest. How far did he travel?

a) 5.0 meters

b) 8.0 meters

c) 6.0 meters

d) 9.0 meters

e) 7.0 meters

3) A particle is initially at the origin and moving in the x direction at a speed of 3.9 m/s. It has an constant acceleration of 2.2 m/s² in the y direction, as well as an acceleration of 0.8 in the x direction. What angle does the velocity make with the x axis at time t = 2.9 s?

a) 26.14 degrees.

b) 30.07 degrees.

c) 34.58 degrees.

d) 39.76 degrees.

e) 45.73 degrees.

4) A car is traveling in a perfect circle at constant speed. If the car is headed north while turning west, the acceleration is

a) west

b) zero

c) south

d) east

e) north

5) A mass with weight (mg) equal to 44 newtons is suspended symmetrically from two strings. Each string makes the (same) angle of 60 degrees with respect to the horizontal. What is the tension in each string?

a) 14.5 N.

b) 16.7 N.

c) 19.2 N.

d) 22.1 N.

e) 25.4 N.

6) A sled of mass 5.8 kg is at rest on a rough surface. A string pulls with a tension of 42.3N at an angle of 40 degress above the horizontal. What is the magnitude of the friction?

a) 21.31 N.

b) 24.5 N.

c) 28.18 N.

d) 32.4 N.

e) 37.26 N.

7)

In the figure shown, θ₁ is 17 degrees , and θ₃ is 33 degrees . The mass has a 'weight' of 33 N. What is the tension, T₁?

a) 27.32 N.

b) 31.42 N.

c) 36.13 N.

d) 41.55 N.

e) 47.78 N.

8) The cart has a mass of 36.40kg. It is moving at a speed of 3.90m/s, when it is at a height of 2.52m. If the spring constant was 612N/m, what was the initial compression?

a) 1.83 m

b) 1.96 m

c) 2.10 m

d) 2.24 m

e) 2.40 m

9)

A 191 gm bullet strikes a ballistic pendulum of mass 2.02 kg (before the bullet struck). After impact, the pendulum rises by 65 cm. What was the speed of the bullet?

a) 34 m/s.

b) 36 m/s.

c) 39 m/s.

d) 41 m/s.

e) 44 m/s.

10)

In the figure shown, L₁ = 6.1m, L₂ = 3.2m and L₃ = 7.2m. What is F₂ if F₁ =0.77N and F₃ =0N?

a) 8.25E-01 N

b) 1.00E+00 N

c) 1.21E+00 N

d) 1.47E+00 N

e) 1.78E+00 N

11)

The moment of inertia of a solid disk of mass, M, and radius, R, is ½ MR². Two identical disks, each with mass 5.2 kg are attached. The larger disk has a diameter of 0.92 m, and the smaller disk has a diameter of 0.47 m. If a force of 53 N is applied at the rim of the smaller disk, what is the angular acceleration?

a) 1.48 x 10¹ s^-2

b) 1.8 x 10¹ s^-2

c) 2.18 x 10¹ s^-2

d) 2.64 x 10¹ s^-2

e) 3.19 x 10¹ s^-2

12) A cylinder with a radius of 0.31 m and a length of 3.5 m is held so that the top circular face is 4.8 m below the water. The mass of the block is 933.0 kg. The mass density of water is 1000kg/m^3. What is the buoyant force?

a) 5.82E3 N

b) 7.06E3 N

c) 8.55E3 N

d) 1.04E4 N

e) 1.25E4 N

13) A large cylinder is filled with water so that the bottom is 6.4 m below the waterline. At the bottom is a small hole with a diameter of 9.7E-4 m. How fast is the water flowing at the hole? (Neglect viscous effects, turbulence, and also assume that the hole is so small that no significant motion occurs at the top of the cylinder.)

a) 9.24E0 m/s

b) 1.12E1 m/s

c) 1.36E1 m/s

d) 1.64E1 m/s

e) 1.99E1 m/s

14) What is the root-mean-square of 36, 6, and -23?

a) 1.763 x 10¹

b) 1.978 x 10¹

c) 2.22 x 10¹

d) 2.491 x 10¹

e) 2.795 x 10¹

15) The specific heat of water and aluminum are 4186 and 900, respectively, where the units are J/kg/Celsius. An aluminum container of mass 0.66 kg is filled with 0.11 kg of water. How much heat does it take to raise both from 57.1 C to 78 C?

a) 1.59 x 10⁴ J

b) 1.87 x 10⁴ J

c) 2.2 x 10⁴ J

d) 2.6 x 10⁴ J

e) 3.06 x 10⁴ J

16)

A 1241 heat cycle uses 2 moles of an ideal gas. The pressures and volumes are: P₁= 2.9 kPa, P₂= 4 kPa. The volumes are V₁= 2m³ and V₄= 3.2m³. How much work is done in in one cycle?

a) 6.6 x 10⁰ J

b) 2.09 x 10¹ J

c) 6.6 x 10¹ J

d) 2.09 x 10² J

e) 6.6 x 10² J

1)

In the figure shown, L₁ = 6.1m, L₂ = 4m and L₃ = 7.5m. What is F₂ if F₁ =0.74N and F₃ =0N?

a) 6.35E-01 N

b) 7.69E-01 N

c) 9.31E-01 N

d) 1.13E+00 N

e) 1.37E+00 N

2) A large cylinder is filled with water so that the bottom is 7.0 m below the waterline. At the bottom is a small hole with a diameter of 7.8E-4 m. How fast is the water flowing at the hole? (Neglect viscous effects, turbulence, and also assume that the hole is so small that no significant motion occurs at the top of the cylinder.)

a) 7.98E0 m/s

b) 9.67E0 m/s

c) 1.17E1 m/s

d) 1.42E1 m/s

e) 1.72E1 m/s

3) A mass with weight (mg) equal to 42 newtons is suspended symmetrically from two strings. Each string makes the (same) angle of 59 degrees with respect to the horizontal. What is the tension in each string?

a) 21.3 N.

b) 24.5 N.

c) 28.2 N.

d) 32.4 N.

e) 37.3 N.

4) A sled of mass 5.9 kg is at rest on a rough surface. A string pulls with a tension of 43.7N at an angle of 41 degress above the horizontal. What is the magnitude of the friction?

a) 24.94 N.

b) 28.68 N.

c) 32.98 N.

d) 37.93 N.

e) 43.62 N.

5)

The moment of inertia of a solid disk of mass, M, and radius, R, is ½ MR². Two identical disks, each with mass 5.2 kg are attached. The larger disk has a diameter of 0.92 m, and the smaller disk has a diameter of 0.47 m. If a force of 53 N is applied at the rim of the smaller disk, what is the angular acceleration?

a) 1.48 x 10¹ s^-2

b) 1.8 x 10¹ s^-2

c) 2.18 x 10¹ s^-2

d) 2.64 x 10¹ s^-2

e) 3.19 x 10¹ s^-2

6) The specific heat of water and aluminum are 4186 and 900, respectively, where the units are J/kg/Celsius. An aluminum container of mass 0.66 kg is filled with 0.11 kg of water. How much heat does it take to raise both from 57.1 C to 78 C?

a) 1.59 x 10⁴ J

b) 1.87 x 10⁴ J

c) 2.2 x 10⁴ J

d) 2.6 x 10⁴ J

e) 3.06 x 10⁴ J

7) A particle is initially at the origin and moving in the x direction at a speed of 3.8 m/s. It has an constant acceleration of 2.1 m/s² in the y direction, as well as an acceleration of 0.6 in the x direction. What angle does the velocity make with the x axis at time t = 2.9 s?

a) 31.37 degrees.

b) 36.07 degrees.

c) 41.48 degrees.

d) 47.71 degrees.

e) 54.86 degrees.

8) A car is traveling in a perfect circle at constant speed. If the car is headed north while turning west, the acceleration is

a) zero

b) east

c) south

d) west

e) north

9)

A 1241 heat cycle uses 3.1 moles of an ideal gas. The pressures and volumes are: P₁= 2.5 kPa, P₂= 4.5 kPa. The volumes are V₁= 1.4m³ and V₄= 2.9m³. How much work is done in in one cycle?

a) 4.74 x 10² J

b) 1.5 x 10³ J

c) 4.74 x 10³ J

d) 1.5 x 10⁴ J

e) 4.74 x 10⁴ J

10) A cylinder with a radius of 0.33 m and a length of 2.9 m is held so that the top circular face is 4.1 m below the water. The mass of the block is 912.0 kg. The mass density of water is 1000kg/m^3. What is the buoyant force?

a) 9.72E3 N

b) 1.18E4 N

c) 1.43E4 N

d) 1.73E4 N

e) 2.09E4 N

11)

In the figure shown, θ₁ is 20 degrees , and θ₃ is 37 degrees . The mass has a weight of 41 N. What is the tension, T₁?

a) 29.52 N.

b) 33.95 N.

c) 39.04 N.

d) 44.9 N.

e) 51.63 N.

12) A train accelerates uniformly from 17 m/s to 35.25 m/s, while travelling a distance of 151 m. What is the 'average' acceleration?

a) 1.83m/s/s.

b) 2.19m/s/s.

c) 2.63m/s/s.

d) 3.16m/s/s.

e) 3.79m/s/s.

13) Mr. Smith starts at rest and accelerates to a speed of 2 m/s, in 2 seconds. He then travels at this speed for an additional 1 seconds. Then he decelerates uniformly, taking 2 seconds to come to rest. How far did he travel?

a) 5.0 meters

b) 8.0 meters

c) 7.0 meters

d) 9.0 meters

e) 6.0 meters

14)

A 159 gm bullet strikes a ballistic pendulum of mass 2.27 kg (before the bullet struck). After impact, the pendulum rises by 65 cm. What was the speed of the bullet?

a) 55 m/s.

b) 58 m/s.

c) 62 m/s.

d) 67 m/s.

e) 71 m/s.

15) The cart has a mass of 36.10kg. It is moving at a speed of 3.70m/s, when it is at a height of 3.05m. If the spring constant was 665N/m, what was the initial compression?

a) 2.00 m

b) 2.14 m

c) 2.29 m

d) 2.45 m

e) 2.62 m

16) What is the root-mean-square of 45, 23, and -43?

a) 3.414 x 10¹

b) 3.831 x 10¹

c) 4.298 x 10¹

d) 4.823 x 10¹

e) 5.411 x 10¹

1) Mr. Smith starts at rest and accelerates to a speed of 2 m/s, in 2 seconds. He then travels at this speed for an additional 1 seconds. Then he decelerates uniformly, taking 2 seconds to come to rest. How far did he travel?

a) 5.0 meters

b) 7.0 meters

c) 6.0 meters

d) 9.0 meters

e) 8.0 meters

2) The cart has a mass of 36.40kg. It is moving at a speed of 3.90m/s, when it is at a height of 2.52m. If the spring constant was 612N/m, what was the initial compression?

a) 1.83 m

b) 1.96 m

c) 2.10 m

d) 2.24 m

e) 2.40 m

3) A train accelerates uniformly from 9.75 m/s to 26.875 m/s, while travelling a distance of 371 m. What is the 'average' acceleration?

a) 0.85m/s/s.

b) 1.01m/s/s.

c) 1.22m/s/s.

d) 1.46m/s/s.

e) 1.75m/s/s.

4) A mass with weight (mg) equal to 33 newtons is suspended symmetrically from two strings. Each string makes the (same) angle of 72 degrees with respect to the horizontal. What is the tension in each string?

a) 9.9 N.

b) 11.4 N.

c) 13.1 N.

d) 15.1 N.

e) 17.3 N.

5) A car is traveling in a perfect circle at constant speed. If the car is headed north while turning west, the acceleration is

a) north

b) east

c) zero

d) west

e) south

6) What is the root-mean-square of 5, 7, and 0?

a) 4.426 x 10⁰

b) 4.967 x 10⁰

c) 5.573 x 10⁰

d) 6.253 x 10⁰

e) 7.015 x 10⁰

7) A large cylinder is filled with water so that the bottom is 7.8 m below the waterline. At the bottom is a small hole with a diameter of 5.4E-4 m. How fast is the water flowing at the hole? (Neglect viscous effects, turbulence, and also assume that the hole is so small that no significant motion occurs at the top of the cylinder.)

a) 8.42E0 m/s

b) 1.02E1 m/s

c) 1.24E1 m/s

d) 1.50E1 m/s

e) 1.81E1 m/s

8) A cylinder with a radius of 0.29 m and a length of 2.3 m is held so that the top circular face is 4.7 m below the water. The mass of the block is 968.0 kg. The mass density of water is 1000kg/m^3. What is the buoyant force?

a) 5.96E3 N

b) 7.21E3 N

c) 8.74E3 N

d) 1.06E4 N

e) 1.28E4 N

9) A sled of mass 5.5 kg is at rest on a rough surface. A string pulls with a tension of 46.8N at an angle of 40 degress above the horizontal. What is the magnitude of the friction?

a) 27.11 N.

b) 31.17 N.

c) 35.85 N.

d) 41.23 N.

e) 47.41 N.

10)

A 1241 heat cycle uses 2.9 moles of an ideal gas. The pressures and volumes are: P₁= 2.3 kPa, P₂= 4.8 kPa. The volumes are V₁= 2.1m³ and V₄= 3.5m³. How much work is done in in one cycle?

a) 1.75 x 10¹ J

b) 5.53 x 10¹ J

c) 1.75 x 10² J

d) 5.53 x 10² J

e) 1.75 x 10³ J

11)

In the figure shown, θ₁ is 16 degrees , and θ₃ is 35 degrees . The mass has a 'weight' of 28 N. What is the tension, T₁?

a) 19.41 N.

b) 22.32 N.

c) 25.66 N.

d) 29.51 N.

e) 33.94 N.

12)

The moment of inertia of a solid disk of mass, M, and radius, R, is ½ MR². Two identical disks, each with mass 8.1 kg are attached. The larger disk has a diameter of 0.99 m, and the smaller disk has a diameter of 0.63 m. If a force of 87 N is applied at the rim of the smaller disk, what is the angular acceleration?

a) 9.12 x 10⁰ s^-2

b) 1.11 x 10¹ s^-2

c) 1.34 x 10¹ s^-2

d) 1.62 x 10¹ s^-2

e) 1.97 x 10¹ s^-2

13) A particle is initially at the origin and moving in the x direction at a speed of 4.1 m/s. It has an constant acceleration of 2.3 m/s² in the y direction, as well as an acceleration of 0.5 in the x direction. What angle does the velocity make with the x axis at time t = 2.7 s?

a) 32.04 degrees.

b) 36.85 degrees.

c) 42.37 degrees.

d) 48.73 degrees.

e) 56.04 degrees.

14) The specific heat of water and aluminum are 4186 and 900, respectively, where the units are J/kg/Celsius. An aluminum container of mass 0.66 kg is filled with 0.11 kg of water. How much heat does it take to raise both from 57.1 C to 78 C?

a) 1.59 x 10⁴ J

b) 1.87 x 10⁴ J

c) 2.2 x 10⁴ J

d) 2.6 x 10⁴ J

e) 3.06 x 10⁴ J

15)

In the figure shown, L₁ = 5.5m, L₂ = 3.7m and L₃ = 8.6m. What is F₂ if F₁ =0.51N and F₃ =0N?

a) 4.26E-01 N

b) 5.16E-01 N

c) 6.26E-01 N

d) 7.58E-01 N

e) 9.18E-01 N

16)

A 191 gm bullet strikes a ballistic pendulum of mass 2.02 kg (before the bullet struck). After impact, the pendulum rises by 65 cm. What was the speed of the bullet?

a) 34 m/s.

b) 36 m/s.

c) 39 m/s.

d) 41 m/s.

e) 44 m/s.

1) A car is accelerating uniformly at an acceleration of 3.6m/s/s. At x = 7.5m, the speed is 4.7m/s. How fast is it moving at x = 11.5 m?

a) 4.95 m/s.

b) 5.94 m/s.

c) 7.13 m/s.

d) 8.56 m/s.

e) 10.27 m/s.

2) Mr. Smith starts from rest and accelerates to 4 m/s in 3 seconds. How far did he travel?

a) 5.0 meters

b) 6.0 meters

c) 3.0 meters

d) 7.0 meters

e) 4.0 meters

3) At time, t=0, two particles are on the x axis. Particle A is (initially) at the origin and moves at a constant speed of 5.86 m/s at an angle of θ above the x-axis. Particle B is initially situated at x= 2.46 m, and moves at a constant speed of 2.23 m/s in the +y direction. At what time do they meet?

a) 0.45 s.

b) 0.54 s.

c) 0.65 s.

d) 0.78 s.

e) 0.94 s.

4) When a table cloth is quickly pulled out from under dishes, they hardly move. This is because

a) the cloth is more slippery when it is pulled quickly

b) the cloth is accelerating for such a brief time that there is little motion

c) objects don't begin to accelerate until after the force has been applied

5) A 2.3 kg mass is sliding along a surface that has a kinetic coefficient of friction equal to 0.41 . In addition to the surface friction, there is also an air drag equal to 16 N. What is the magnitude (absolute value) of the acceleration?

a) 7.2 m/s².

b) 8.3 m/s².

c) 9.5 m/s².

d) 11 m/s².

e) 12.6 m/s².

6) A sled of mass 2.5 kg is on perfectly smooth surface. A string pulls with a tension of 18.1N. At what angle above the horizontal must the string pull in order to achieve an accelerations of 2 m/s²?

a) 74 degrees

b) 85.1 degrees

c) 97.8 degrees

d) 112.5 degrees

e) 129.4 degrees

7)

In the figure shown, θ is 33 degrees, and the mass is 2.7 kg. What is T₂?

a) 36.74 N.

b) 42.25 N.

c) 48.58 N.

d) 55.87 N.

e) 64.25 N.

8) The spring constant is 615N/m, and the initial compression is 0.12m. What is the mass if the cart reaches a height of 2.74m, before coming to rest?

a) 0.157 kg

b) 0.165 kg

c) 0.173 kg

d) 0.182 kg

e) 0.191 kg

9) A car of mass 654 kg is driving on an icy road at a speed of 15 m/s, when it collides with a stationary truck. After the collision they stick and move at a speed of 5.7 m/s. What was the mass of the truck?

a) 741 kg

b) 889 kg

c) 1067 kg

d) 1280 kg

e) 1537 kg

10)

A massless bar of length, S = 7.4m is attached to a wall by a frictionless hinge (shown as a circle). The bar his held horizontal by a string that makes and angle θ = 33.5 degrees above the horizontal. An object of mass, M = 5kg is suspended at a length, L = 5.4m from the wall. What is the x (horizontal) component of the force exerted by the wall on the horizontal bar?

a) 3.04E+01 N

b) 3.68E+01 N

c) 4.46E+01 N

d) 5.40E+01 N

e) 6.54E+01 N

11) A lead filled bicycle wheel of radius 0.33 m and mass 2.2 kg is rotating at a frequency of 1.3 revolutions per second. What is the moment of inertia?

a) 2.4 x 10^-1 kg m²/s²

b) 2.9 x 10^-1 kg m²/s²

c) 3.52 x 10^-1 kg m²/s²

d) 4.26 x 10^-1 kg m²/s²

e) 5.16 x 10^-1 kg m²/s²

12) A cylinder with a radius of 0.28 m and a length of 2.9 m is held so that the top circular face is 4.6 m below the water. The mass of the block is 880.0 kg. The mass density of water is 1000kg/m^3. What is the force exerted by the water at the top surface?

a) 1.11E4 N

b) 1.40E4 N

c) 1.76E4 N

d) 2.22E4 N

e) 2.79E4 N

13) A large cylinder is filled with water so that the bottom is 6.8 m below the waterline. At the bottom is a small hole with a diameter of 7.4E-4 m. How fast is the water flowing at the hole? (Neglect viscous effects, turbulence, and also assume that the hole is so small that no significant motion occurs at the top of the cylinder.)

a) 9.53E0 m/s

b) 1.15E1 m/s

c) 1.40E1 m/s

d) 1.69E1 m/s

e) 2.05E1 m/s

14) What is the root-mean-square of 45, 23, and -43?

a) 3.414 x 10¹

b) 3.831 x 10¹

c) 4.298 x 10¹

d) 4.823 x 10¹

e) 5.411 x 10¹

15) A window is square, with a length of each side equal to 0.73 meters. The glass has a thickness of 16 mm. To decrease the heat loss, you reduce the size of the window by decreasing the length of each side by a factor of 1.27. You also increase the thickness of the glass by a factor of 2. If the inside and outside temperatures are unchanged, by what factor have you decreased the heat flow?. By what factor have you decreased the heat flow (assuming the same inside and outside temperatures).

a) 1.5 x 10⁰ unit

b) 1.81 x 10⁰ unit

c) 2.2 x 10⁰ unit

d) 2.66 x 10⁰ unit

e) 3.23 x 10⁰ unit

16)

A 1241 heat cycle uses 2.9 moles of an ideal gas. The pressures and volumes are: P₁= 1.7 kPa, P₂= 3.1 kPa. The volumes are V₁= 2.8m³ and V₄= 4.3m³. How much work is involved between 2 and 4?

a) 3.6 x 10³ J

b) 1.14 x 10⁴ J

c) 3.6 x 10⁴ J

d) 1.14 x 10⁵ J

e) 3.6 x 10⁵ J

1) The spring constant is 621N/m, and the initial compression is 0.14m. What is the mass if the cart reaches a height of 3.01m, before coming to rest?

a) 0.187 kg

b) 0.196 kg

c) 0.206 kg

d) 0.217 kg

e) 0.227 kg

2) Mr. Smith starts from rest and accelerates to 4 m/s in 3 seconds. How far did he travel?

a) 5.0 meters

b) 7.0 meters

c) 4.0 meters

d) 6.0 meters

e) 3.0 meters

3) A car of mass 856 kg is driving on an icy road at a speed of 19 m/s, when it collides with a stationary truck. After the collision they stick and move at a speed of 4.7 m/s. What was the mass of the truck?

a) 1507 kg

b) 1809 kg

c) 2170 kg

d) 2604 kg

e) 3125 kg

4) What is the root-mean-square of 36, 6, and -23?

a) 1.763 x 10¹

b) 1.978 x 10¹

c) 2.22 x 10¹

d) 2.491 x 10¹

e) 2.795 x 10¹

5) When a table cloth is quickly pulled out from under dishes, they hardly move. This is because

a) the cloth is accelerating for such a brief time that there is little motion

b) objects don't begin to accelerate until after the force has been applied

c) the cloth is more slippery when it is pulled quickly

6) A cylinder with a radius of 0.24 m and a length of 3.8 m is held so that the top circular face is 3.5 m below the water. The mass of the block is 853.0 kg. The mass density of water is 1000kg/m^3. What is the force exerted by the water at the top surface?

a) 3.11E3 N

b) 3.92E3 N

c) 4.93E3 N

d) 6.21E3 N

e) 7.81E3 N

7) At time, t=0, two particles are on the x axis. Particle A is (initially) at the origin and moves at a constant speed of 6.1 m/s at an angle of θ above the x-axis. Particle B is initially situated at x= 2.79 m, and moves at a constant speed of 2.87 m/s in the +y direction. At what time do they meet?

a) 0.43 s.

b) 0.52 s.

c) 0.62 s.

d) 0.75 s.

e) 0.9 s.

8) A 3.1 kg mass is sliding along a surface that has a kinetic coefficient of friction equal to 0.43 . In addition to the surface friction, there is also an air drag equal to 12 N. What is the magnitude (absolute value) of the acceleration?

a) 4.6 m/s².

b) 5.3 m/s².

c) 6.1 m/s².

d) 7 m/s².

e) 8.1 m/s².

9)

A massless bar of length, S = 7.6m is attached to a wall by a frictionless hinge (shown as a circle). The bar his held horizontal by a string that makes and angle θ = 24.8 degrees above the horizontal. An object of mass, M = 8.9kg is suspended at a length, L = 5.5m from the wall. What is the x (horizontal) component of the force exerted by the wall on the horizontal bar?

a) 9.31E+01 N

b) 1.13E+02 N

c) 1.37E+02 N

d) 1.65E+02 N

e) 2.01E+02 N

10) A car is accelerating uniformly at an acceleration of 4.05m/s/s. At x = 4m, the speed is 4.8m/s. How fast is it moving at x = 12.5 m?

a) 6.66 m/s.

b) 7.99 m/s.

c) 9.59 m/s.

d) 11.5 m/s.

e) 13.8 m/s.

11) A window is square, with a length of each side equal to 0.73 meters. The glass has a thickness of 14 mm. To decrease the heat loss, you reduce the size of the window by decreasing the length of each side by a factor of 1.45. You also increase the thickness of the glass by a factor of 2.4. If the inside and outside temperatures are unchanged, by what factor have you decreased the heat flow?. By what factor have you decreased the heat flow (assuming the same inside and outside temperatures).

a) 5.05 x 10⁰ unit

b) 6.11 x 10⁰ unit

c) 7.41 x 10⁰ unit

d) 8.97 x 10⁰ unit

e) 1.09 x 10¹ unit

12) A lead filled bicycle wheel of radius 0.43 m and mass 2.2 kg is rotating at a frequency of 1.1 revolutions per second. What is the moment of inertia?

a) 1.89 x 10^-1 kg m²/s²

b) 2.29 x 10^-1 kg m²/s²

c) 2.77 x 10^-1 kg m²/s²

d) 3.36 x 10^-1 kg m²/s²

e) 4.07 x 10^-1 kg m²/s²

13) A large cylinder is filled with water so that the bottom is 7.0 m below the waterline. At the bottom is a small hole with a diameter of 7.8E-4 m. How fast is the water flowing at the hole? (Neglect viscous effects, turbulence, and also assume that the hole is so small that no significant motion occurs at the top of the cylinder.)

a) 7.98E0 m/s

b) 9.67E0 m/s

c) 1.17E1 m/s

d) 1.42E1 m/s

e) 1.72E1 m/s

14) A sled of mass 2.6 kg is on perfectly smooth surface. A string pulls with a tension of 19.2N. At what angle above the horizontal must the string pull in order to achieve an accelerations of 2.4 m/s²?

a) 53.7 degrees

b) 61.8 degrees

c) 71 degrees

d) 81.7 degrees

e) 93.9 degrees

15)

A 1241 heat cycle uses 2.5 moles of an ideal gas. The pressures and volumes are: P₁= 2 kPa, P₂= 3.2 kPa. The volumes are V₁= 1.1m³ and V₄= 3.1m³. How much work is involved between 2 and 4?

a) 1.64 x 10³ J

b) 5.2 x 10³ J

c) 1.64 x 10⁴ J

d) 5.2 x 10⁴ J

e) 1.64 x 10⁵ J

16)

In the figure shown, θ is 33 degrees, and the mass is 3.7 kg. What is T₂?

a) 66.58 N.

b) 76.56 N.

c) 88.05 N.

d) 101.25 N.

e) 116.44 N.

1) Mr. Smith starts from rest and accelerates to 4 m/s in 3 seconds. How far did he travel?

a) 4.0 meters

b) 5.0 meters

c) 6.0 meters

d) 7.0 meters

e) 3.0 meters

2)

A massless bar of length, S = 9.2m is attached to a wall by a frictionless hinge (shown as a circle). The bar his held horizontal by a string that makes and angle θ = 35.1 degrees above the horizontal. An object of mass, M = 3.5kg is suspended at a length, L = 6.2m from the wall. What is the x (horizontal) component of the force exerted by the wall on the horizontal bar?

a) 2.71E+01 N

b) 3.29E+01 N

c) 3.98E+01 N

d) 4.83E+01 N

e) 5.85E+01 N

3) A car of mass 654 kg is driving on an icy road at a speed of 15 m/s, when it collides with a stationary truck. After the collision they stick and move at a speed of 5.7 m/s. What was the mass of the truck?

a) 741 kg

b) 889 kg

c) 1067 kg

d) 1280 kg

e) 1537 kg

4) A sled of mass 2 kg is on perfectly smooth surface. A string pulls with a tension of 17.4N. At what angle above the horizontal must the string pull in order to achieve an accelerations of 2.9 m/s²?

a) 53.3 degrees

b) 61.3 degrees

c) 70.5 degrees

d) 81.1 degrees

e) 93.3 degrees

5) When a table cloth is quickly pulled out from under dishes, they hardly move. This is because

a) the cloth is accelerating for such a brief time that there is little motion

b) the cloth is more slippery when it is pulled quickly

c) objects don't begin to accelerate until after the force has been applied

6) A 3.8 kg mass is sliding along a surface that has a kinetic coefficient of friction equal to 0.6 . In addition to the surface friction, there is also an air drag equal to 20 N. What is the magnitude (absolute value) of the acceleration?

a) 6.4 m/s².

b) 7.3 m/s².

c) 8.4 m/s².

d) 9.7 m/s².

e) 11.1 m/s².

7)

In the figure shown, θ is 33 degrees, and the mass is 2.8 kg. What is T₂?

a) 50.38 N.

b) 57.94 N.

c) 66.63 N.

d) 76.62 N.

e) 88.12 N.

8) The spring constant is 608N/m, and the initial compression is 0.20m. What is the mass if the cart reaches a height of 1.68m, before coming to rest?

a) 0.608 kg

b) 0.638 kg

c) 0.670 kg

d) 0.703 kg

e) 0.739 kg

9)

A 1241 heat cycle uses 2.9 moles of an ideal gas. The pressures and volumes are: P₁= 1.7 kPa, P₂= 3.1 kPa. The volumes are V₁= 2.8m³ and V₄= 4.3m³. How much work is involved between 2 and 4?

a) 3.6 x 10³ J

b) 1.14 x 10⁴ J

c) 3.6 x 10⁴ J

d) 1.14 x 10⁵ J

e) 3.6 x 10⁵ J

10) What is the root-mean-square of 5, 7, and 0?

a) 4.426 x 10⁰

b) 4.967 x 10⁰

c) 5.573 x 10⁰

d) 6.253 x 10⁰

e) 7.015 x 10⁰

11) At time, t=0, two particles are on the x axis. Particle A is (initially) at the origin and moves at a constant speed of 6.54 m/s at an angle of θ above the x-axis. Particle B is initially situated at x= 2.91 m, and moves at a constant speed of 2.42 m/s in the +y direction. At what time do they meet?

a) 0.48 s.

b) 0.57 s.

c) 0.69 s.

d) 0.83 s.

e) 0.99 s.

12) A cylinder with a radius of 0.24 m and a length of 3.8 m is held so that the top circular face is 3.5 m below the water. The mass of the block is 853.0 kg. The mass density of water is 1000kg/m^3. What is the force exerted by the water at the top surface?

a) 3.11E3 N

b) 3.92E3 N

c) 4.93E3 N

d) 6.21E3 N

e) 7.81E3 N

13) A car is accelerating uniformly at an acceleration of 3.6m/s/s. At x = 7.5m, the speed is 4.7m/s. How fast is it moving at x = 11.5 m?

a) 4.95 m/s.

b) 5.94 m/s.

c) 7.13 m/s.

d) 8.56 m/s.

e) 10.27 m/s.

14) A lead filled bicycle wheel of radius 0.43 m and mass 2.2 kg is rotating at a frequency of 1.1 revolutions per second. What is the moment of inertia?

a) 1.89 x 10^-1 kg m²/s²

b) 2.29 x 10^-1 kg m²/s²

c) 2.77 x 10^-1 kg m²/s²

d) 3.36 x 10^-1 kg m²/s²

e) 4.07 x 10^-1 kg m²/s²

15) A window is square, with a length of each side equal to 0.78 meters. The glass has a thickness of 11 mm. To decrease the heat loss, you reduce the size of the window by decreasing the length of each side by a factor of 1.31. You also increase the thickness of the glass by a factor of 2.97. If the inside and outside temperatures are unchanged, by what factor have you decreased the heat flow?. By what factor have you decreased the heat flow (assuming the same inside and outside temperatures).

a) 2.37 x 10⁰ unit

b) 2.87 x 10⁰ unit

c) 3.47 x 10⁰ unit

d) 4.21 x 10⁰ unit

e) 5.1 x 10⁰ unit

16) A large cylinder is filled with water so that the bottom is 7.8 m below the waterline. At the bottom is a small hole with a diameter of 5.4E-4 m. How fast is the water flowing at the hole? (Neglect viscous effects, turbulence, and also assume that the hole is so small that no significant motion occurs at the top of the cylinder.)

a) 8.42E0 m/s

b) 1.02E1 m/s

c) 1.24E1 m/s

d) 1.50E1 m/s

e) 1.81E1 m/s

1) A particle accelerates uniformly at 16 m/s/s. How long does it take for the velocity to increase from 981 m/s to 1816 m/s?

a) 30.2 s

b) 36.24 s

c) 43.49 s

d) 52.19 s

e) 62.63 s

2) Mr. Smith is driving at a speed of 5 m/s, when he slows down to a speed of 4 m/s, when he hits a wall at this speed, after travelling for 2 seconds. How far did he travel?

a) 8.0 meters

b) 10.0 meters

c) 11.0 meters

d) 9.0 meters

e) 12.0 meters

3) A particle is initially at the origin and moving in the x direction at a speed of 4.3 m/s. It has an constant acceleration of 1.8 m/s² in the y direction, as well as an acceleration of 0.3 in the x direction. What angle does the velocity make with the x axis at time t = 2.5 s?

a) 36.26 degrees.

b) 41.7 degrees.

c) 47.96 degrees.

d) 55.15 degrees.

e) 63.43 degrees.

4) If you toss a coin into the air, the acceleration on the way down is

a) up

b) down

c) zero

5) A 2.4 kg mass is sliding along a surface that has a kinetic coefficient of friction equal to 0.68 . In addition to the surface friction, there is also an air drag equal to 6 N. What is the magnitude (absolute value) of the acceleration?

a) 9.2 m/s².

b) 10.5 m/s².

c) 12.1 m/s².

d) 13.9 m/s².

e) 16 m/s².

6) A sled of mass 5.5 kg is at rest on a perfectly smooth surface. A string pulls with a tension of 42.8N at an angle of 36 degress above the horizontal. How long will it take to reach a speed of 10.4 m/s?

a) 1.25 s

b) 1.44 s

c) 1.65 s

d) 1.9 s

e) 2.18 s

7)

In the figure shown, θ is 33 degrees, and the mass is 2.7 kg. What is T₁?

a) 40.7 N.

b) 48.9 N.

c) 58.7 N.

d) 70.4 N.

e) 84.5 N.

8) You are riding a bicycle on a flat road. Assume no friction or air drag, and that you are coasting. Your speed is 4.9m/s, when you encounter a hill of height 1.14m. What is your speed at the top of the hill?

a) 1.022 m/s

b) 1.084 m/s

c) 1.149 m/s

d) 1.218 m/s

e) 1.291 m/s

9)

A 195 gm bullet strikes a ballistic pendulum of mass 2.13 kg (before the bullet struck). After impact, the pendulum rises by 65 cm. What was the speed of the bullet?

a) 32 m/s.

b) 35 m/s.

c) 37 m/s.

d) 40 m/s.

e) 43 m/s.

10)

A massless bar of length, S = 9.8m is attached to a wall by a frictionless hinge (shown as a circle). The bar his held horizontal by a string that makes and angle θ = 25.2 degrees above the horizontal. An object of mass, M = 4.7kg is suspended at a length, L = 4.4m from the wall. What is the tension, T, in the string?

a) 1.93E+01 N

b) 2.43E+01 N

c) 3.06E+01 N

d) 3.86E+01 N

e) 4.86E+01 N

11) A car with a tire radius of 0.35 m accelerates from 0 to 32 m/s in 8.8 seconds. What is the angular acceleration of the wheel?

a) 5.84 x 10⁰ m

b) 7.08 x 10⁰ m

c) 8.58 x 10⁰ m

d) 1.04 x 10¹ m

e) 1.26 x 10¹ m

12) A cylinder with a radius of 0.28 m and a length of 2.6 m is held so that the top circular face is 4.1 m below the water. The mass of the block is 831.0 kg. The mass density of water is 1000kg/m^3. What is the buoyant force?

a) 5.18E3 N

b) 6.28E3 N

c) 7.60E3 N

d) 9.21E3 N

e) 1.12E4 N

13) A 7.0 cm diameter pipe can fill a 2.1 m^3 volume in 8.0 minutes. Before exiting the pipe, the diameter is reduced to 1.7 cm (with no loss of flow rate). If two fluid elements at the center of the pipe are separated by 29.0 mm when they are both in the wide pipe, and we neglect turbulence, what is the separation when both are in the narrow pipe?

a) 4.06E2 mm

b) 4.92E2 mm

c) 5.96E2 mm

d) 7.22E2 mm

e) 8.74E2 mm

14) If a molecule with atomic mass equal to 6 amu has a speed of 217 m/s, what is the speed at an atom in the same atmosphere of a molecule with an atomic mass of 30 ?

a) 5.46 x 10¹ m/s

b) 6.61 x 10¹ m/s

c) 8.01 x 10¹ m/s

d) 9.7 x 10¹ m/s

e) 1.18 x 10² m/s

15) The specific heat of water and aluminum are 4186 and 900, respectively, where the units are J/kg/Celsius. An aluminum container of mass 0.66 kg is filled with 0.11 kg of water. How much heat does it take to raise both from 57.1 C to 78 C?

a) 1.59 x 10⁴ J

b) 1.87 x 10⁴ J

c) 2.2 x 10⁴ J

d) 2.6 x 10⁴ J

e) 3.06 x 10⁴ J

16)

A 1241 heat cycle uses 1.4 moles of an ideal gas. The pressures and volumes are: P₁= 1.4 kPa, P₂= 4.1 kPa. The volumes are V₁= 2.1m³ and V₄= 4.7m³. What is the temperature at step 4?

a) 1.79 x 10² K

b) 5.65 x 10² K

c) 1.79 x 10³ K

d) 5.65 x 10³ K

e) 1.79 x 10⁴ K

1) Mr. Smith is driving at a speed of 5 m/s, when he slows down to a speed of 4 m/s, when he hits a wall at this speed, after travelling for 2 seconds. How far did he travel?

a) 10.0 meters

b) 12.0 meters

c) 11.0 meters

d) 8.0 meters

e) 9.0 meters

2)

A 167 gm bullet strikes a ballistic pendulum of mass 2.28 kg (before the bullet struck). After impact, the pendulum rises by 65 cm. What was the speed of the bullet?

a) 43 m/s.

b) 46 m/s.

c) 49 m/s.

d) 52 m/s.

e) 56 m/s.

3) If you toss a coin into the air, the acceleration on the way down is

a) zero

b) up

c) down

4)

A 1241 heat cycle uses 1.6 moles of an ideal gas. The pressures and volumes are: P₁= 1.5 kPa, P₂= 3 kPa. The volumes are V₁= 2.4m³ and V₄= 4.5m³. What is the temperature at step 4?

a) 1.6 x 10¹ K

b) 5.07 x 10¹ K

c) 1.6 x 10² K

d) 5.07 x 10² K

e) 1.6 x 10³ K

5) A particle accelerates uniformly at 12.5 m/s/s. How long does it take for the velocity to increase from 968 m/s to 1883 m/s?

a) 42.36 s

b) 50.83 s

c) 61 s

d) 73.2 s

e) 87.84 s

6) A sled of mass 5.1 kg is at rest on a perfectly smooth surface. A string pulls with a tension of 47.8N at an angle of 36 degress above the horizontal. How long will it take to reach a speed of 9 m/s?

a) 0.68 s

b) 0.78 s

c) 0.9 s

d) 1.03 s

e) 1.19 s

7) A 3.1 kg mass is sliding along a surface that has a kinetic coefficient of friction equal to 0.43 . In addition to the surface friction, there is also an air drag equal to 12 N. What is the magnitude (absolute value) of the acceleration?

a) 4.6 m/s².

b) 5.3 m/s².

c) 6.1 m/s².

d) 7 m/s².

e) 8.1 m/s².

8) You are riding a bicycle on a flat road. Assume no friction or air drag, and that you are coasting. Your speed is 4.9m/s, when you encounter a hill of height 1.14m. What is your speed at the top of the hill?

a) 1.218 m/s

b) 1.291 m/s

c) 1.368 m/s

d) 1.450 m/s

e) 1.537 m/s

9) The specific heat of water and aluminum are 4186 and 900, respectively, where the units are J/kg/Celsius. An aluminum container of mass 0.66 kg is filled with 0.11 kg of water. How much heat does it take to raise both from 57.1 C to 78 C?

a) 1.59 x 10⁴ J

b) 1.87 x 10⁴ J

c) 2.2 x 10⁴ J

d) 2.6 x 10⁴ J

e) 3.06 x 10⁴ J

10) If a molecule with atomic mass equal to 9 amu has a speed of 445 m/s, what is the speed at an atom in the same atmosphere of a molecule with an atomic mass of 25 ?

a) 1.82 x 10² m/s

b) 2.2 x 10² m/s

c) 2.67 x 10² m/s

d) 3.23 x 10² m/s

e) 3.92 x 10² m/s

11) A car with a tire radius of 0.31 m accelerates from 0 to 39 m/s in 9.3 seconds. What is the angular acceleration of the wheel?

a) 1.12 x 10¹ m

b) 1.35 x 10¹ m

c) 1.64 x 10¹ m

d) 1.99 x 10¹ m

e) 2.41 x 10¹ m

12) A particle is initially at the origin and moving in the x direction at a speed of 4.1 m/s. It has an constant acceleration of 1.9 m/s² in the y direction, as well as an acceleration of 0.9 in the x direction. What angle does the velocity make with the x axis at time t = 2.4 s?

a) 27.27 degrees.

b) 31.37 degrees.

c) 36.07 degrees.

d) 41.48 degrees.

e) 47.7 degrees.

13) A 6.3 cm diameter pipe can fill a 1.4 m^3 volume in 8.0 minutes. Before exiting the pipe, the diameter is reduced to 4.8 cm (with no loss of flow rate). If two fluid elements at the center of the pipe are separated by 32.0 mm when they are both in the wide pipe, and we neglect turbulence, what is the separation when both are in the narrow pipe?

a) 3.10E1 mm

b) 3.76E1 mm

c) 4.55E1 mm

d) 5.51E1 mm

e) 6.68E1 mm

14) A cylinder with a radius of 0.33 m and a length of 2.9 m is held so that the top circular face is 4.1 m below the water. The mass of the block is 912.0 kg. The mass density of water is 1000kg/m^3. What is the buoyant force?

a) 9.72E3 N

b) 1.18E4 N

c) 1.43E4 N

d) 1.73E4 N

e) 2.09E4 N

15)

In the figure shown, θ is 36 degrees, and the mass is 3.1 kg. What is T₁?

a) 34.8 N.

b) 41.8 N.

c) 50.2 N.

d) 60.2 N.

e) 72.3 N.

16)

A massless bar of length, S = 8.7m is attached to a wall by a frictionless hinge (shown as a circle). The bar his held horizontal by a string that makes and angle θ = 26.5 degrees above the horizontal. An object of mass, M = 7.6kg is suspended at a length, L = 4.7m from the wall. What is the tension, T, in the string?

a) 3.59E+01 N

b) 4.52E+01 N

c) 5.69E+01 N

d) 7.16E+01 N

e) 9.02E+01 N

1) The specific heat of water and aluminum are 4186 and 900, respectively, where the units are J/kg/Celsius. An aluminum container of mass 0.82 kg is filled with 0.11 kg of water. How much heat does it take to raise both from 20.2 C to 96.9 C?

a) 6.62 x 10⁴ J

b) 7.8 x 10⁴ J

c) 9.19 x 10⁴ J

d) 1.08 x 10⁵ J

e) 1.28 x 10⁵ J

2) You are riding a bicycle on a flat road. Assume no friction or air drag, and that you are coasting. Your speed is 4.9m/s, when you encounter a hill of height 1.14m. What is your speed at the top of the hill?

a) 1.022 m/s

b) 1.084 m/s

c) 1.149 m/s

d) 1.218 m/s

e) 1.291 m/s

3) Mr. Smith is driving at a speed of 5 m/s, when he slows down to a speed of 4 m/s, when he hits a wall at this speed, after travelling for 2 seconds. How far did he travel?

a) 11.0 meters

b) 9.0 meters

c) 8.0 meters

d) 10.0 meters

e) 12.0 meters

4) If a molecule with atomic mass equal to 7 amu has a speed of 253 m/s, what is the speed at an atom in the same atmosphere of a molecule with an atomic mass of 26 ?

a) 1.31 x 10² m/s

b) 1.59 x 10² m/s

c) 1.93 x 10² m/s

d) 2.33 x 10² m/s

e) 2.83 x 10² m/s

5) A sled of mass 5.2 kg is at rest on a perfectly smooth surface. A string pulls with a tension of 46N at an angle of 32 degress above the horizontal. How long will it take to reach a speed of 9.1 m/s?

a) 1.05 s

b) 1.21 s

c) 1.39 s

d) 1.6 s

e) 1.84 s

6)

In the figure shown, θ is 28 degrees, and the mass is 2.9 kg. What is T₁?

a) 30.9 N.

b) 37.1 N.

c) 44.5 N.

d) 53.5 N.

e) 64.1 N.

7) A 3.2 kg mass is sliding along a surface that has a kinetic coefficient of friction equal to 0.29 . In addition to the surface friction, there is also an air drag equal to 21 N. What is the magnitude (absolute value) of the acceleration?

a) 8.2 m/s².

b) 9.4 m/s².

c) 10.8 m/s².

d) 12.4 m/s².

e) 14.3 m/s².

8) A car with a tire radius of 0.28 m accelerates from 0 to 22 m/s in 10 seconds. What is the angular acceleration of the wheel?

a) 5.35 x 10⁰ m

b) 6.49 x 10⁰ m

c) 7.86 x 10⁰ m

d) 9.52 x 10⁰ m

e) 1.15 x 10¹ m

9) A 7.0 cm diameter pipe can fill a 2.1 m^3 volume in 8.0 minutes. Before exiting the pipe, the diameter is reduced to 1.7 cm (with no loss of flow rate). If two fluid elements at the center of the pipe are separated by 29.0 mm when they are both in the wide pipe, and we neglect turbulence, what is the separation when both are in the narrow pipe?

a) 4.06E2 mm

b) 4.92E2 mm

c) 5.96E2 mm

d) 7.22E2 mm

e) 8.74E2 mm

10)

A 191 gm bullet strikes a ballistic pendulum of mass 2.02 kg (before the bullet struck). After impact, the pendulum rises by 65 cm. What was the speed of the bullet?

a) 34 m/s.

b) 36 m/s.

c) 39 m/s.

d) 41 m/s.

e) 44 m/s.

11) A cylinder with a radius of 0.25 m and a length of 3.5 m is held so that the top circular face is 3.3 m below the water. The mass of the block is 922.0 kg. The mass density of water is 1000kg/m^3. What is the buoyant force?

a) 5.56E3 N

b) 6.73E3 N

c) 8.16E3 N

d) 9.89E3 N

e) 1.20E4 N

12) A particle is initially at the origin and moving in the x direction at a speed of 4.1 m/s. It has an constant acceleration of 1.9 m/s² in the y direction, as well as an acceleration of 0.9 in the x direction. What angle does the velocity make with the x axis at time t = 2.4 s?

a) 27.27 degrees.

b) 31.37 degrees.

c) 36.07 degrees.

d) 41.48 degrees.

e) 47.7 degrees.

13)

A massless bar of length, S = 9.7m is attached to a wall by a frictionless hinge (shown as a circle). The bar his held horizontal by a string that makes and angle θ = 29.5 degrees above the horizontal. An object of mass, M = 4.7kg is suspended at a length, L = 6m from the wall. What is the tension, T, in the string?

a) 3.65E+01 N

b) 4.60E+01 N

c) 5.79E+01 N

d) 7.28E+01 N

e) 9.17E+01 N

14) A particle accelerates uniformly at 13 m/s/s. How long does it take for the velocity to increase from 1024 m/s to 1888 m/s?

a) 46.15 s

b) 55.38 s

c) 66.46 s

d) 79.75 s

e) 95.7 s

15) If you toss a coin into the air, the acceleration on the way down is

a) up

b) zero

c) down

16)

A 1241 heat cycle uses 1.3 moles of an ideal gas. The pressures and volumes are: P₁= 1.6 kPa, P₂= 4.3 kPa. The volumes are V₁= 2.9m³ and V₄= 5.8m³. What is the temperature at step 4?

a) 8.59 x 10⁰ K

b) 2.71 x 10¹ K

c) 8.59 x 10¹ K

d) 2.71 x 10² K

e) 8.59 x 10² K

1) What is the acceleration if a car travelling at 7.85 m/s makes a skid mark that is 6.25 m long before coming to rest? (Assume uniform acceleration.)

a) 3.42m/s².

b) 4.11m/s².

c) 4.93m/s².

d) 5.92m/s².

e) 7.1m/s².

2) Mr. Smith starts from rest and accelerates to 3 m/s in 2 seconds. How far did he travel?

a) 1.0 meters

b) 3.0 meters

c) 5.0 meters

d) 4.0 meters

e) 2.0 meters

3) A particle is initially at the origin and moving in the x direction at a speed of 3.8 m/s. It has an constant acceleration of 2.1 m/s² in the y direction, as well as an acceleration of 0.6 in the x direction. What angle does the velocity make with the x axis at time t = 2.9 s?

a) 31.37 degrees.

b) 36.07 degrees.

c) 41.48 degrees.

d) 47.71 degrees.

e) 54.86 degrees.

4) A car is traveling in a perfect circle at constant speed. If the car is headed north while turning west, the acceleration is

a) north

b) west

c) south

d) zero

e) east

5) A 2.2 kg mass is sliding along a surface that has a kinetic coefficient of friction equal to 0.59 . In addition to the surface friction, there is also an air drag equal to 14 N. What is the magnitude (absolute value) of the acceleration?

a) 6.9 m/s².

b) 8 m/s².

c) 9.2 m/s².

d) 10.6 m/s².

e) 12.1 m/s².

6) A sled of mass 2.6 kg is on perfectly smooth surface. A string pulls with a tension of 19.2N. At what angle above the horizontal must the string pull in order to achieve an accelerations of 2.4 m/s²?

a) 53.7 degrees

b) 61.8 degrees

c) 71 degrees

d) 81.7 degrees

e) 93.9 degrees

7)

In the figure shown, θ₁ is 20 degrees , and θ₃ is 37 degrees . The mass has a weight of 41 N. What is the tension, T₁?

a) 29.52 N.

b) 33.95 N.

c) 39.04 N.

d) 44.9 N.

e) 51.63 N.

8) You are riding a bicycle on a flat road. Assume no friction or air drag, and that you are coasting. Your speed is 4.9m/s, when you encounter a hill of height 1.14m. What is your speed at the top of the hill?

a) 1.218 m/s

b) 1.291 m/s

c) 1.368 m/s

d) 1.450 m/s

e) 1.537 m/s

9)

A 159 gm bullet strikes a ballistic pendulum of mass 2.11 kg (before the bullet struck). After impact, the pendulum rises by 65 cm. What was the speed of the bullet?

a) 39 m/s.

b) 42 m/s.

c) 44 m/s.

d) 48 m/s.

e) 51 m/s.

10)

A massless bar of length, S = 8m is attached to a wall by a frictionless hinge (shown as a circle). The bar his held horizontal by a string that makes and angle θ = 29 degrees above the horizontal. An object of mass, M = 8.1kg is suspended at a length, L = 4.4m from the wall. What is the tension, T, in the string?

a) 3.59E+01 N

b) 4.51E+01 N

c) 5.68E+01 N

d) 7.15E+01 N

e) 9.01E+01 N

11) A car with a tire radius of 0.34 m accelerates from 0 to 25 m/s in 9.2 seconds. What is the angular acceleration of the wheel?

a) 5.45 x 10⁰ m

b) 6.6 x 10⁰ m

c) 7.99 x 10⁰ m

d) 9.68 x 10⁰ m

e) 1.17 x 10¹ m

12) A cylinder with a radius of 0.29 m and a length of 2.8 m is held so that the top circular face is 4.6 m below the water. The mass of the block is 952.0 kg. The mass density of water is 1000kg/m^3. What is the pressure at the top face of the cylinder?

a) 3.07E4 Pa

b) 3.72E4 Pa

c) 4.51E4 Pa

d) 5.46E4 Pa

e) 6.62E4 Pa

13) A 9.2 cm diameter pipe can fill a 1.6 m^3 volume in 8.0 minutes. Before exiting the pipe, the diameter is reduced to 4.0 cm (with no loss of flow rate). What is the pressure difference (in Pascals) between the two regions of the pipe?

a) 1.91E3

b) 2.31E3

c) 2.80E3

d) 3.39E3

e) 4.11E3

14) If a molecule with atomic mass equal to 8 amu has a speed of 331 m/s, what is the speed at an atom in the same atmosphere of a molecule with an atomic mass of 27 ?

a) 8.36 x 10¹ m/s

b) 1.01 x 10² m/s

c) 1.23 x 10² m/s

d) 1.49 x 10² m/s

e) 1.8 x 10² m/s

15) A window is square, with a length of each side equal to 0.78 meters. The glass has a thickness of 11 mm. To decrease the heat loss, you reduce the size of the window by decreasing the length of each side by a factor of 1.31. You also increase the thickness of the glass by a factor of 2.97. If the inside and outside temperatures are unchanged, by what factor have you decreased the heat flow?. By what factor have you decreased the heat flow (assuming the same inside and outside temperatures).

a) 2.37 x 10⁰ unit

b) 2.87 x 10⁰ unit

c) 3.47 x 10⁰ unit

d) 4.21 x 10⁰ unit

e) 5.1 x 10⁰ unit

16)

A 1241 heat cycle uses 2.4 moles of an ideal gas. The pressures and volumes are: P₁= 2.1 kPa, P₂= 3.2 kPa. The volumes are V₁= 1.1m³ and V₄= 2.2m³. How much work is involved between 1 and 4?

a) 2.31 x 10² J

b) 7.3 x 10² J

c) 2.31 x 10³ J

d) 7.3 x 10³ J

e) 2.31 x 10⁴ J

1) A car with a tire radius of 0.37 m accelerates from 0 to 28 m/s in 11.9 seconds. What is the angular acceleration of the wheel?

a) 6.36 x 10⁰ m

b) 7.7 x 10⁰ m

c) 9.33 x 10⁰ m

d) 1.13 x 10¹ m

e) 1.37 x 10¹ m

2) A particle is initially at the origin and moving in the x direction at a speed of 3.9 m/s. It has an constant acceleration of 1.9 m/s² in the y direction, as well as an acceleration of 0.5 in the x direction. What angle does the velocity make with the x axis at time t = 2.5 s?

a) 37.12 degrees.

b) 42.69 degrees.

c) 49.09 degrees.

d) 56.45 degrees.

e) 64.92 degrees.

3) A cylinder with a radius of 0.28 m and a length of 2.6 m is held so that the top circular face is 4.1 m below the water. The mass of the block is 831.0 kg. The mass density of water is 1000kg/m^3. What is the pressure at the top face of the cylinder?

a) 2.74E4 Pa

b) 3.32E4 Pa

c) 4.02E4 Pa

d) 4.87E4 Pa

e) 5.90E4 Pa

4)

In the figure shown, θ₁ is 17 degrees , and θ₃ is 29 degrees . The mass has a weight of 29 N. What is the tension, T₁?

a) 20.16 N.

b) 23.18 N.

c) 26.66 N.

d) 30.66 N.

e) 35.26 N.

5) A sled of mass 2 kg is on perfectly smooth surface. A string pulls with a tension of 17.4N. At what angle above the horizontal must the string pull in order to achieve an accelerations of 2.9 m/s²?

a) 53.3 degrees

b) 61.3 degrees

c) 70.5 degrees

d) 81.1 degrees

e) 93.3 degrees

6) A 2.4 kg mass is sliding along a surface that has a kinetic coefficient of friction equal to 0.68 . In addition to the surface friction, there is also an air drag equal to 6 N. What is the magnitude (absolute value) of the acceleration?

a) 9.2 m/s².

b) 10.5 m/s².

c) 12.1 m/s².

d) 13.9 m/s².

e) 16 m/s².

7)

A massless bar of length, S = 8.4m is attached to a wall by a frictionless hinge (shown as a circle). The bar his held horizontal by a string that makes and angle θ = 25.4 degrees above the horizontal. An object of mass, M = 7.6kg is suspended at a length, L = 5.2m from the wall. What is the tension, T, in the string?

a) 1.07E+02 N

b) 1.35E+02 N

c) 1.70E+02 N

d) 2.14E+02 N

e) 2.70E+02 N

8) If a molecule with atomic mass equal to 7 amu has a speed of 399 m/s, what is the speed at an atom in the same atmosphere of a molecule with an atomic mass of 31 ?

a) 8.8 x 10¹ m/s

b) 1.07 x 10² m/s

c) 1.29 x 10² m/s

d) 1.56 x 10² m/s

e) 1.9 x 10² m/s

9)

A 1241 heat cycle uses 2.4 moles of an ideal gas. The pressures and volumes are: P₁= 2.1 kPa, P₂= 3.2 kPa. The volumes are V₁= 1.1m³ and V₄= 2.2m³. How much work is involved between 1 and 4?

a) 2.31 x 10² J

b) 7.3 x 10² J

c) 2.31 x 10³ J

d) 7.3 x 10³ J

e) 2.31 x 10⁴ J

10) Mr. Smith starts from rest and accelerates to 3 m/s in 2 seconds. How far did he travel?

a) 4.0 meters

b) 5.0 meters

c) 2.0 meters

d) 1.0 meters

e) 3.0 meters

11) What is the acceleration if a car travelling at 7.85 m/s makes a skid mark that is 6.25 m long before coming to rest? (Assume uniform acceleration.)

a) 3.42m/s².

b) 4.11m/s².

c) 4.93m/s².

d) 5.92m/s².

e) 7.1m/s².

12) You are riding a bicycle on a flat road. Assume no friction or air drag, and that you are coasting. Your speed is 4.9m/s, when you encounter a hill of height 1.14m. What is your speed at the top of the hill?

a) 1.149 m/s

b) 1.218 m/s

c) 1.291 m/s

d) 1.368 m/s

e) 1.450 m/s

13) A 9.2 cm diameter pipe can fill a 1.6 m^3 volume in 8.0 minutes. Before exiting the pipe, the diameter is reduced to 4.0 cm (with no loss of flow rate). What is the pressure difference (in Pascals) between the two regions of the pipe?

a) 1.91E3

b) 2.31E3

c) 2.80E3

d) 3.39E3

e) 4.11E3

14)

A 159 gm bullet strikes a ballistic pendulum of mass 2.11 kg (before the bullet struck). After impact, the pendulum rises by 65 cm. What was the speed of the bullet?

a) 39 m/s.

b) 42 m/s.

c) 44 m/s.

d) 48 m/s.

e) 51 m/s.

15) A car is traveling in a perfect circle at constant speed. If the car is headed north while turning west, the acceleration is

a) south

b) east

c) north

d) west

e) zero

16) A window is square, with a length of each side equal to 0.79 meters. The glass has a thickness of 15 mm. To decrease the heat loss, you reduce the size of the window by decreasing the length of each side by a factor of 1.33. You also increase the thickness of the glass by a factor of 2.17. If the inside and outside temperatures are unchanged, by what factor have you decreased the heat flow?. By what factor have you decreased the heat flow (assuming the same inside and outside temperatures).

a) 2.16 x 10⁰ unit

b) 2.62 x 10⁰ unit

c) 3.17 x 10⁰ unit

d) 3.84 x 10⁰ unit

e) 4.65 x 10⁰ unit

1) A window is square, with a length of each side equal to 0.93 meters. The glass has a thickness of 15 mm. To decrease the heat loss, you reduce the size of the window by decreasing the length of each side by a factor of 1.55. You also increase the thickness of the glass by a factor of 2.54. If the inside and outside temperatures are unchanged, by what factor have you decreased the heat flow?. By what factor have you decreased the heat flow (assuming the same inside and outside temperatures).

a) 4.16 x 10⁰ unit

b) 5.04 x 10⁰ unit

c) 6.1 x 10⁰ unit

d) 7.39 x 10⁰ unit

e) 8.96 x 10⁰ unit

2) A car is traveling in a perfect circle at constant speed. If the car is headed north while turning west, the acceleration is

a) zero

b) north

c) east

d) south

e) west

3)

A 191 gm bullet strikes a ballistic pendulum of mass 2.02 kg (before the bullet struck). After impact, the pendulum rises by 65 cm. What was the speed of the bullet?

a) 34 m/s.

b) 36 m/s.

c) 39 m/s.

d) 41 m/s.

e) 44 m/s.

4) A sled of mass 2.2 kg is on perfectly smooth surface. A string pulls with a tension of 17.2N. At what angle above the horizontal must the string pull in order to achieve an accelerations of 3.5 m/s²?

a) 36.3 degrees

b) 41.7 degrees

c) 47.9 degrees

d) 55.1 degrees

e) 63.4 degrees

5)

In the figure shown, θ₁ is 17 degrees , and θ₃ is 33 degrees . The mass has a 'weight' of 33 N. What is the tension, T₁?

a) 27.32 N.

b) 31.42 N.

c) 36.13 N.

d) 41.55 N.

e) 47.78 N.

6) A 7.0 cm diameter pipe can fill a 2.1 m^3 volume in 8.0 minutes. Before exiting the pipe, the diameter is reduced to 1.7 cm (with no loss of flow rate). What is the pressure difference (in Pascals) between the two regions of the pipe?

a) 1.26E5

b) 1.53E5

c) 1.85E5

d) 2.24E5

e) 2.72E5

7) Mr. Smith starts from rest and accelerates to 3 m/s in 2 seconds. How far did he travel?

a) 1.0 meters

b) 5.0 meters

c) 2.0 meters

d) 4.0 meters

e) 3.0 meters

8) You are riding a bicycle on a flat road. Assume no friction or air drag, and that you are coasting. Your speed is 4.9m/s, when you encounter a hill of height 1.14m. What is your speed at the top of the hill?

a) 1.291 m/s

b) 1.368 m/s

c) 1.450 m/s

d) 1.537 m/s

e) 1.630 m/s

9)

A 1241 heat cycle uses 2.2 moles of an ideal gas. The pressures and volumes are: P₁= 2.2 kPa, P₂= 3.7 kPa. The volumes are V₁= 1.8m³ and V₄= 4.4m³. How much work is involved between 1 and 4?

a) 1.81 x 10² J

b) 5.72 x 10² J

c) 1.81 x 10³ J

d) 5.72 x 10³ J

e) 1.81 x 10⁴ J

10) A car with a tire radius of 0.21 m accelerates from 0 to 26 m/s in 9.1 seconds. What is the angular acceleration of the wheel?

a) 7.65 x 10⁰ m

b) 9.27 x 10⁰ m

c) 1.12 x 10¹ m

d) 1.36 x 10¹ m

e) 1.65 x 10¹ m

11) If a molecule with atomic mass equal to 9 amu has a speed of 445 m/s, what is the speed at an atom in the same atmosphere of a molecule with an atomic mass of 25 ?

a) 1.82 x 10² m/s

b) 2.2 x 10² m/s

c) 2.67 x 10² m/s

d) 3.23 x 10² m/s

e) 3.92 x 10² m/s

12) What is the acceleration if a car travelling at 7.7 m/s makes a skid mark that is 7 m long before coming to rest? (Assume uniform acceleration.)

a) 4.24m/s².

b) 5.08m/s².

c) 6.1m/s².

d) 7.32m/s².

e) 8.78m/s².

13) A particle is initially at the origin and moving in the x direction at a speed of 3.9 m/s. It has an constant acceleration of 1.9 m/s² in the y direction, as well as an acceleration of 0.5 in the x direction. What angle does the velocity make with the x axis at time t = 2.5 s?

a) 37.12 degrees.

b) 42.69 degrees.

c) 49.09 degrees.

d) 56.45 degrees.

e) 64.92 degrees.

14) A cylinder with a radius of 0.29 m and a length of 2.8 m is held so that the top circular face is 4.6 m below the water. The mass of the block is 952.0 kg. The mass density of water is 1000kg/m^3. What is the pressure at the top face of the cylinder?

a) 3.07E4 Pa

b) 3.72E4 Pa

c) 4.51E4 Pa

d) 5.46E4 Pa

e) 6.62E4 Pa

15) A 3 kg mass is sliding along a surface that has a kinetic coefficient of friction equal to 0.27 . In addition to the surface friction, there is also an air drag equal to 7 N. What is the magnitude (absolute value) of the acceleration?

a) 3.8 m/s².

b) 4.3 m/s².

c) 5 m/s².

d) 5.7 m/s².

e) 6.6 m/s².

16)

A massless bar of length, S = 9.6m is attached to a wall by a frictionless hinge (shown as a circle). The bar his held horizontal by a string that makes and angle θ = 24.4 degrees above the horizontal. An object of mass, M = 6.9kg is suspended at a length, L = 4.5m from the wall. What is the tension, T, in the string?

a) 3.05E+01 N

b) 3.85E+01 N

c) 4.84E+01 N

d) 6.09E+01 N

e) 7.67E+01 N

1) A car is accelerating uniformly at an acceleration of 3.95m/s/s. At x = 5.5m, the speed is 3.85m/s. How fast is it moving at x = 11.25 m?

a) 5.39 m/s.

b) 6.47 m/s.

c) 7.76 m/s.

d) 9.31 m/s.

e) 11.18 m/s.

2) Mr. Smith starts at rest and accelerates to a speed of 2 m/s, in 2 seconds. He then travels at this speed for an additional 1 seconds. Then he decelerates uniformly, taking 2 seconds to come to rest. How far did he travel?

a) 7.0 meters

b) 5.0 meters

c) 8.0 meters

d) 6.0 meters

e) 9.0 meters

3) A ball is kicked horizontally from a height of 2 m, at a speed of 7.7m/s. How far does it travel before landing?

a) 2.85 m.

b) 3.42 m.

c) 4.1 m.

d) 4.92 m.

e) 5.9 m.

4) If you toss a coin into the air, the velocity on the way up is

a) up

b) zero

c) down

5) A 2.3 kg mass is sliding along a surface that has a kinetic coefficient of friction equal to 0.41 . In addition to the surface friction, there is also an air drag equal to 16 N. What is the magnitude (absolute value) of the acceleration?

a) 7.2 m/s².

b) 8.3 m/s².

c) 9.5 m/s².

d) 11 m/s².

e) 12.6 m/s².

6) A sled of mass 5.7 kg is at rest on a rough surface. A string pulls with a tension of 40.1N at an angle of 42 degress above the horizontal. What is the normal force?

a) 29.03 N.

b) 33.38 N.

c) 38.39 N.

d) 44.15 N.

e) 50.77 N.

7)

In the figure shown, θ₁ is 17 degrees, and θ₃ is 30 degrees. The tension T₃ is 46 N. What is the weight?

a) 20.1 N.

b) 23.1 N.

c) 26.6 N.

d) 30.6 N.

e) 35.2 N.

8) The cart has a mass of 46.40kg. It is moving at a speed of 3.80m/s, when it is at a height of 3.99m. If the spring constant was 500N/m, what was the initial compression?

a) 2.39 m

b) 2.56 m

c) 2.74 m

d) 2.93 m

e) 3.14 m

9)

A 159 gm bullet strikes a ballistic pendulum of mass 2.11 kg (before the bullet struck). After impact, the pendulum rises by 65 cm. What was the speed of the bullet?

a) 39 m/s.

b) 42 m/s.

c) 44 m/s.

d) 48 m/s.

e) 51 m/s.

10)

A massless bar of length, S = 9m is attached to a wall by a frictionless hinge (shown as a circle). The bar his held horizontal by a string that makes and angle θ = 26.6 degrees above the horizontal. An object of mass, M = 3.9kg is suspended at a length, L = 6.5m from the wall. What is the x (horizontal) component of the force exerted by the wall on the horizontal bar?

a) 3.10E+01 N

b) 3.76E+01 N

c) 4.55E+01 N

d) 5.51E+01 N

e) 6.68E+01 N

11) A lead filled bicycle wheel of radius 0.37 m and mass 2.3 kg is rotating at a frequency of 1.6 revolutions per second. What is the moment of inertia?

a) 3.15 x 10^-1 kg m²/s²

b) 3.81 x 10^-1 kg m²/s²

c) 4.62 x 10^-1 kg m²/s²

d) 5.6 x 10^-1 kg m²/s²

e) 6.78 x 10^-1 kg m²/s²

12) A cylinder with a radius of 0.38 m and a length of 3.6 m is held so that the top circular face is 4.2 m below the water. The mass of the block is 829.0 kg. The mass density of water is 1000kg/m^3. What is the buoyant force?

a) 1.09E4 N

b) 1.32E4 N

c) 1.60E4 N

d) 1.94E4 N

e) 2.35E4 N

13) A large cylinder is filled with water so that the bottom is 8.9 m below the waterline. At the bottom is a small hole with a diameter of 7.6E-4 m. How fast is the water flowing at the hole? (Neglect viscous effects, turbulence, and also assume that the hole is so small that no significant motion occurs at the top of the cylinder.)

a) 1.09E1 m/s

b) 1.32E1 m/s

c) 1.60E1 m/s

d) 1.94E1 m/s

e) 2.35E1 m/s

14) What is the root-mean-square of 11, 36, and 4?

a) 1.948 x 10¹

b) 2.186 x 10¹

c) 2.452 x 10¹

d) 2.751 x 10¹

e) 3.087 x 10¹

15) A window is square, with a length of each side equal to 0.78 meters. The glass has a thickness of 11 mm. To decrease the heat loss, you reduce the size of the window by decreasing the length of each side by a factor of 1.31. You also increase the thickness of the glass by a factor of 2.97. If the inside and outside temperatures are unchanged, by what factor have you decreased the heat flow?. By what factor have you decreased the heat flow (assuming the same inside and outside temperatures).

a) 2.37 x 10⁰ unit

b) 2.87 x 10⁰ unit

c) 3.47 x 10⁰ unit

d) 4.21 x 10⁰ unit

e) 5.1 x 10⁰ unit

16)

A 1241 heat cycle uses 1.3 moles of an ideal gas. The pressures and volumes are: P₁= 3.1 kPa, P₂= 4.3 kPa. The volumes are V₁= 1.1m³ and V₄= 2.8m³. How much work is involved between 1 and 4?

a) 1.67 x 10³ J

b) 5.27 x 10³ J

c) 1.67 x 10⁴ J

d) 5.27 x 10⁴ J

e) 1.67 x 10⁵ J

1) A cylinder with a radius of 0.25 m and a length of 3.5 m is held so that the top circular face is 3.3 m below the water. The mass of the block is 922.0 kg. The mass density of water is 1000kg/m^3. What is the buoyant force?

a) 5.56E3 N

b) 6.73E3 N

c) 8.16E3 N

d) 9.89E3 N

e) 1.20E4 N

2) A ball is kicked horizontally from a height of 2 m, at a speed of 6.2m/s. How far does it travel before landing?

a) 2.75 m.

b) 3.3 m.

c) 3.96 m.

d) 4.75 m.

e) 5.7 m.

3) If you toss a coin into the air, the velocity on the way up is

a) zero

b) up

c) down

4) A sled of mass 5.3 kg is at rest on a rough surface. A string pulls with a tension of 43N at an angle of 55 degress above the horizontal. What is the normal force?

a) 10.99 N.

b) 12.64 N.

c) 14.54 N.

d) 16.72 N.

e) 19.22 N.

5) Mr. Smith starts at rest and accelerates to a speed of 2 m/s, in 2 seconds. He then travels at this speed for an additional 1 seconds. Then he decelerates uniformly, taking 2 seconds to come to rest. How far did he travel?

a) 5.0 meters

b) 7.0 meters

c) 8.0 meters

d) 6.0 meters

e) 9.0 meters

6)

A massless bar of length, S = 8m is attached to a wall by a frictionless hinge (shown as a circle). The bar is held horizontal by a string that makes and angle θ = 35.4 degrees above the horizontal. An object of mass, M = 8.3kg is suspended at a length, L = 5m from the wall. What is the x (horizontal) component of the force exerted by the wall on the horizontal bar?

a) 7.15E+01 N

b) 8.67E+01 N

c) 1.05E+02 N

d) 1.27E+02 N

e) 1.54E+02 N

7) A window is square, with a length of each side equal to 0.73 meters. The glass has a thickness of 14 mm. To decrease the heat loss, you reduce the size of the window by decreasing the length of each side by a factor of 1.45. You also increase the thickness of the glass by a factor of 2.4. If the inside and outside temperatures are unchanged, by what factor have you decreased the heat flow?. By what factor have you decreased the heat flow (assuming the same inside and outside temperatures).

a) 5.05 x 10⁰ unit

b) 6.11 x 10⁰ unit

c) 7.41 x 10⁰ unit

d) 8.97 x 10⁰ unit

e) 1.09 x 10¹ unit

8) A lead filled bicycle wheel of radius 0.35 m and mass 2.7 kg is rotating at a frequency of 1.5 revolutions per second. What is the moment of inertia?

a) 2.25 x 10^-1 kg m²/s²

b) 2.73 x 10^-1 kg m²/s²

c) 3.31 x 10^-1 kg m²/s²

d) 4.01 x 10^-1 kg m²/s²

e) 4.85 x 10^-1 kg m²/s²

9) The cart has a mass of 36.40kg. It is moving at a speed of 3.90m/s, when it is at a height of 2.52m. If the spring constant was 612N/m, what was the initial compression?

a) 1.83 m

b) 1.96 m

c) 2.10 m

d) 2.24 m

e) 2.40 m

10) A 2.2 kg mass is sliding along a surface that has a kinetic coefficient of friction equal to 0.59 . In addition to the surface friction, there is also an air drag equal to 14 N. What is the magnitude (absolute value) of the acceleration?

a) 6.9 m/s².

b) 8 m/s².

c) 9.2 m/s².

d) 10.6 m/s².

e) 12.1 m/s².

11) What is the root-mean-square of -46, -13, and 17?

a) 2.074 x 10¹

b) 2.327 x 10¹

c) 2.611 x 10¹

d) 2.929 x 10¹

e) 3.287 x 10¹

12) A large cylinder is filled with water so that the bottom is 7.0 m below the waterline. At the bottom is a small hole with a diameter of 7.8E-4 m. How fast is the water flowing at the hole? (Neglect viscous effects, turbulence, and also assume that the hole is so small that no significant motion occurs at the top of the cylinder.)

a) 7.98E0 m/s

b) 9.67E0 m/s

c) 1.17E1 m/s

d) 1.42E1 m/s

e) 1.72E1 m/s

13)

In the figure shown, θ₁ is 17 degrees, and θ₃ is 30 degrees. The tension T₃ is 46 N. What is the weight?

a) 20.1 N.

b) 23.1 N.

c) 26.6 N.

d) 30.6 N.

e) 35.2 N.

14) A car is accelerating uniformly at an acceleration of 4.05m/s/s. At x = 4m, the speed is 4.8m/s. How fast is it moving at x = 12.5 m?

a) 6.66 m/s.

b) 7.99 m/s.

c) 9.59 m/s.

d) 11.5 m/s.

e) 13.8 m/s.

15)

A 1241 heat cycle uses 2.2 moles of an ideal gas. The pressures and volumes are: P₁= 2.2 kPa, P₂= 3.7 kPa. The volumes are V₁= 1.8m³ and V₄= 4.4m³. How much work is involved between 1 and 4?

a) 1.81 x 10² J

b) 5.72 x 10² J

c) 1.81 x 10³ J

d) 5.72 x 10³ J

e) 1.81 x 10⁴ J

16)

A 191 gm bullet strikes a ballistic pendulum of mass 2.19 kg (before the bullet struck). After impact, the pendulum rises by 65 cm. What was the speed of the bullet?

a) 34 m/s.

b) 36 m/s.

c) 39 m/s.

d) 42 m/s.

e) 44 m/s.

1) What is the root-mean-square of 6, -2, and -44?

a) 1.619 x 10¹

b) 1.817 x 10¹

c) 2.039 x 10¹

d) 2.287 x 10¹

e) 2.566 x 10¹

2) Mr. Smith starts at rest and accelerates to a speed of 2 m/s, in 2 seconds. He then travels at this speed for an additional 1 seconds. Then he decelerates uniformly, taking 2 seconds to come to rest. How far did he travel?

a) 6.0 meters

b) 9.0 meters

c) 5.0 meters

d) 7.0 meters

e) 8.0 meters

3) A ball is kicked horizontally from a height of 3 m, at a speed of 10m/s. How far does it travel before landing?

a) 6.52 m.

b) 7.82 m.

c) 9.39 m.

d) 11.27 m.

e) 13.52 m.

4) The cart has a mass of 31.20kg. It is moving at a speed of 2.50m/s, when it is at a height of 2.10m. If the spring constant was 649N/m, what was the initial compression?

a) 1.23 m

b) 1.32 m

c) 1.41 m

d) 1.51 m

e) 1.62 m

5) A lead filled bicycle wheel of radius 0.37 m and mass 2.1 kg is rotating at a frequency of 1.4 revolutions per second. What is the moment of inertia?

a) 2.87 x 10^-1 kg m²/s²

b) 3.48 x 10^-1 kg m²/s²

c) 4.22 x 10^-1 kg m²/s²

d) 5.11 x 10^-1 kg m²/s²

e) 6.19 x 10^-1 kg m²/s²

6)

A 159 gm bullet strikes a ballistic pendulum of mass 2.11 kg (before the bullet struck). After impact, the pendulum rises by 65 cm. What was the speed of the bullet?

a) 39 m/s.

b) 42 m/s.

c) 44 m/s.

d) 48 m/s.

e) 51 m/s.

7) A large cylinder is filled with water so that the bottom is 6.8 m below the waterline. At the bottom is a small hole with a diameter of 7.4E-4 m. How fast is the water flowing at the hole? (Neglect viscous effects, turbulence, and also assume that the hole is so small that no significant motion occurs at the top of the cylinder.)

a) 9.53E0 m/s

b) 1.15E1 m/s

c) 1.40E1 m/s

d) 1.69E1 m/s

e) 2.05E1 m/s

8) A cylinder with a radius of 0.28 m and a length of 2.9 m is held so that the top circular face is 4.6 m below the water. The mass of the block is 880.0 kg. The mass density of water is 1000kg/m^3. What is the buoyant force?

a) 7.00E3 N

b) 8.48E3 N

c) 1.03E4 N

d) 1.24E4 N

e) 1.51E4 N

9)

A massless bar of length, S = 9m is attached to a wall by a frictionless hinge (shown as a circle). The bar his held horizontal by a string that makes and angle θ = 26.6 degrees above the horizontal. An object of mass, M = 3.9kg is suspended at a length, L = 6.5m from the wall. What is the x (horizontal) component of the force exerted by the wall on the horizontal bar?

a) 3.10E+01 N

b) 3.76E+01 N

c) 4.55E+01 N

d) 5.51E+01 N

e) 6.68E+01 N

10) In the figure "3 tensions" shown above θ₁ is 19 degrees, and θ₃ is 38 degrees. The tension T₃ is 21 N. What is the weight?

a) 18.6 N.

b) 21.4 N.

c) 24.6 N.

d) 28.3 N.

e) 32.6 N.

11) A window is square, with a length of each side equal to 0.79 meters. The glass has a thickness of 15 mm. To decrease the heat loss, you reduce the size of the window by decreasing the length of each side by a factor of 1.33. You also increase the thickness of the glass by a factor of 2.17. If the inside and outside temperatures are unchanged, by what factor have you decreased the heat flow?. By what factor have you decreased the heat flow (assuming the same inside and outside temperatures).

a) 2.16 x 10⁰ unit

b) 2.62 x 10⁰ unit

c) 3.17 x 10⁰ unit

d) 3.84 x 10⁰ unit

e) 4.65 x 10⁰ unit

12) A 3.2 kg mass is sliding along a surface that has a kinetic coefficient of friction equal to 0.29 . In addition to the surface friction, there is also an air drag equal to 21 N. What is the magnitude (absolute value) of the acceleration?

a) 8.2 m/s².

b) 9.4 m/s².

c) 10.8 m/s².

d) 12.4 m/s².

e) 14.3 m/s².

13)

A 1241 heat cycle uses 2 moles of an ideal gas. The pressures and volumes are: P₁= 1.5 kPa, P₂= 2.7 kPa. The volumes are V₁= 1.9m³ and V₄= 3.3m³. How much work is involved between 1 and 4?

a) 6.64 x 10² J

b) 2.1 x 10³ J

c) 6.64 x 10³ J

d) 2.1 x 10⁴ J

e) 6.64 x 10⁴ J

14) A car is accelerating uniformly at an acceleration of 3.6m/s/s. At x = 7.5m, the speed is 4.7m/s. How fast is it moving at x = 11.5 m?

a) 4.95 m/s.

b) 5.94 m/s.

c) 7.13 m/s.

d) 8.56 m/s.

e) 10.27 m/s.

15) A sled of mass 5.7 kg is at rest on a rough surface. A string pulls with a tension of 43.9N at an angle of 50 degress above the horizontal. What is the normal force?

a) 16.81 N.

b) 19.33 N.

c) 22.23 N.

d) 25.57 N.

e) 29.4 N.

16) If you toss a coin into the air, the velocity on the way up is

a) down

b) zero

c) up

1) What is the acceleration if a car travelling at 10.95 m/s makes a skid mark that is 6.25 m long before coming to rest? (Assume uniform acceleration.)

a) 6.66m/s².

b) 7.99m/s².

c) 9.59m/s².

d) 11.51m/s².

e) 13.81m/s².

2) Mr. Smith starts at rest and accelerates to a speed of 4 m/s, in 2 seconds. He then travels at this speed for an additional 3 seconds. Then he decelerates uniformly, taking 2 seconds to come to rest. How far did he travel?

a) 19.0 meters

b) 22.0 meters

c) 20.0 meters

d) 21.0 meters

e) 23.0 meters

3) A particle is initially at the origin and moving in the x direction at a speed of 3.7 m/s. It has an constant acceleration of 1.5 m/s² in the y direction, as well as an acceleration of 0.6 in the x direction. What angle does the velocity make with the x axis at time t = 2.1 s?

a) 21.32 degrees.

b) 24.51 degrees.

c) 28.19 degrees.

d) 32.42 degrees.

e) 37.28 degrees.

4) A car is headed due north and increasing its speed. It is also turning right because it is also traveling in a perfect circle. The acceleration vector points

a) northwest

b) southwest

c) northeast

d) south

e) north

5) A mass with weight (mg) equal to 21 newtons is suspended symmetrically from two strings. Each string makes the (same) angle of 66 degrees with respect to the horizontal. What is the tension in each string?

a) 6.6 N.

b) 7.6 N.

c) 8.7 N.

d) 10 N.

e) 11.5 N.

6) A sled of mass 2.6 kg is on perfectly smooth surface. A string pulls with a tension of 16.4N. At what angle above the horizontal must the string pull in order to achieve an accelerations of 3.1 m/s²?

a) 34.6 degrees

b) 39.8 degrees

c) 45.8 degrees

d) 52.7 degrees

e) 60.6 degrees

7)

In the figure shown, θ₁ is 19 degrees, and θ₃ is 38 degrees. The tension T₃ is 21 N. What is the tension, T₁?

a) 10.01 N.

b) 11.51 N.

c) 13.23 N.

d) 15.22 N.

e) 17.5 N.

8) The spring constant is 620N/m, and the initial compression is 0.19m. What is the mass if the cart reaches a height of 1.45m, before coming to rest?

a) 0.750 kg

b) 0.788 kg

c) 0.827 kg

d) 0.868 kg

e) 0.912 kg

9) On object of mass 2.2 kg that is moving at a velocity of 28m/s collides with a stationary object of mass 18.48 kg. What is the final velocity if they stick? (Assume no external friction.)

a) 1.72m/s.

b) 2.07m/s.

c) 2.48m/s.

d) 2.98m/s.

e) 3.57m/s.

10)

In the figure shown, L₁ = 5.7m, L₂ = 4.5m and L₃ = 8.2m. What is F₁ if F₂ =8.6N and F₃ =6.7N?

a) 1.36E+01 N

b) 1.64E+01 N

c) 1.99E+01 N

d) 2.41E+01 N

e) 2.92E+01 N

11)

The moment of inertia of a solid disk of mass, M, and radius, R, is ½ MR². Two identical disks, each with mass 5.2 kg are attached. The larger disk has a diameter of 0.92 m, and the smaller disk has a diameter of 0.47 m. If a force of 53 N is applied at the rim of the smaller disk, what is the angular acceleration?

a) 1.48 x 10¹ s^-2

b) 1.8 x 10¹ s^-2

c) 2.18 x 10¹ s^-2

d) 2.64 x 10¹ s^-2

e) 3.19 x 10¹ s^-2

12) A cylinder with a radius of 0.25 m and a length of 3.5 m is held so that the top circular face is 3.3 m below the water. The mass of the block is 922.0 kg. The mass density of water is 1000kg/m^3. What is the pressure at the top face of the cylinder?

a) 3.23E4 Pa

b) 3.92E4 Pa

c) 4.75E4 Pa

d) 5.75E4 Pa

e) 6.97E4 Pa

13) A large cylinder is filled with water so that the bottom is 7.0 m below the waterline. At the bottom is a small hole with a diameter of 7.8E-4 m. How fast is the water flowing at the hole? (Neglect viscous effects, turbulence, and also assume that the hole is so small that no significant motion occurs at the top of the cylinder.)

a) 7.98E0 m/s

b) 9.67E0 m/s

c) 1.17E1 m/s

d) 1.42E1 m/s

e) 1.72E1 m/s

14) If a molecule with atomic mass equal to 8 amu has a speed of 331 m/s, what is the speed at an atom in the same atmosphere of a molecule with an atomic mass of 27 ?

a) 8.36 x 10¹ m/s

b) 1.01 x 10² m/s

c) 1.23 x 10² m/s

d) 1.49 x 10² m/s

e) 1.8 x 10² m/s

15) The specific heat of water and aluminum are 4186 and 900, respectively, where the units are J/kg/Celsius. An aluminum container of mass 0.61 kg is filled with 0.21 kg of water. How much heat does it take to raise both from 21.9 C to 98.6 C?

a) 7.88 x 10⁴ J

b) 9.29 x 10⁴ J

c) 1.1 x 10⁵ J

d) 1.29 x 10⁵ J

e) 1.52 x 10⁵ J

16)

A 1241 heat cycle uses 2.5 moles of an ideal gas. The pressures and volumes are: P₁= 2.2 kPa, P₂= 3.8 kPa. The volumes are V₁= 2.9m³ and V₄= 5.4m³. What is the temperature at step 4?

a) 5.71 x 10⁰ K

b) 1.81 x 10¹ K

c) 5.71 x 10¹ K

d) 1.81 x 10² K

e) 5.71 x 10² K

1) A car is headed due north and increasing its speed. It is also turning right because it is also traveling in a perfect circle. The acceleration vector points

a) northwest

b) south

c) southwest

d) northeast

e) north

2) A large cylinder is filled with water so that the bottom is 5.7 m below the waterline. At the bottom is a small hole with a diameter of 5.7E-4 m. How fast is the water flowing at the hole? (Neglect viscous effects, turbulence, and also assume that the hole is so small that no significant motion occurs at the top of the cylinder.)

a) 5.94E0 m/s

b) 7.20E0 m/s

c) 8.72E0 m/s

d) 1.06E1 m/s

e) 1.28E1 m/s

3)

In the figure shown, L₁ = 5.4m, L₂ = 3.3m and L₃ = 7.4m. What is F₁ if F₂ =7.5N and F₃ =5.4N?

a) 8.16E+00 N

b) 9.89E+00 N

c) 1.20E+01 N

d) 1.45E+01 N

e) 1.76E+01 N

4)

The moment of inertia of a solid disk of mass, M, and radius, R, is ½ MR². Two identical disks, each with mass 3.4 kg are attached. The larger disk has a diameter of 0.91 m, and the smaller disk has a diameter of 0.56 m. If a force of 35 N is applied at the rim of the smaller disk, what is the angular acceleration?

a) 9.37 x 10⁰ s^-2

b) 1.14 x 10¹ s^-2

c) 1.38 x 10¹ s^-2

d) 1.67 x 10¹ s^-2

e) 2.02 x 10¹ s^-2

5) What is the acceleration if a car travelling at 9.8 m/s makes a skid mark that is 7.25 m long before coming to rest? (Assume uniform acceleration.)

a) 3.83m/s/2.

b) 4.6m/s/2.

c) 5.52m/s/2.

d) 6.62m/s/2.

e) 7.95m/s/2.

6) A mass with weight (mg) equal to 37 newtons is suspended symmetrically from two strings. Each string makes the (same) angle of 65 degrees with respect to the horizontal. What is the tension in each string?

a) 15.4 N.

b) 17.7 N.

c) 20.4 N.

d) 23.5 N.

e) 27 N.

7) A sled of mass 2.6 kg is on perfectly smooth surface. A string pulls with a tension of 19.2N. At what angle above the horizontal must the string pull in order to achieve an accelerations of 2.4 m/s²?

a) 53.7 degrees

b) 61.8 degrees

c) 71 degrees

d) 81.7 degrees

e) 93.9 degrees

8)

A 1241 heat cycle uses 1.3 moles of an ideal gas. The pressures and volumes are: P₁= 1.6 kPa, P₂= 4.3 kPa. The volumes are V₁= 2.9m³ and V₄= 5.8m³. What is the temperature at step 4?

a) 8.59 x 10⁰ K

b) 2.71 x 10¹ K

c) 8.59 x 10¹ K

d) 2.71 x 10² K

e) 8.59 x 10² K

9) A particle is initially at the origin and moving in the x direction at a speed of 3.9 m/s. It has an constant acceleration of 1.9 m/s² in the y direction, as well as an acceleration of 0.5 in the x direction. What angle does the velocity make with the x axis at time t = 2.5 s?

a) 37.12 degrees.

b) 42.69 degrees.

c) 49.09 degrees.

d) 56.45 degrees.

e) 64.92 degrees.

10)

In the figure shown, θ₁ is 19 degrees, and θ₃ is 38 degrees. The tension T₃ is 21 N. What is the tension, T₁?

a) 10.01 N.

b) 11.51 N.

c) 13.23 N.

d) 15.22 N.

e) 17.5 N.

11) On object of mass 2.3 kg that is moving at a velocity of 22m/s collides with a stationary object of mass 19.36 kg. What is the final velocity if they stick? (Assume no external friction.)

a) 1.62m/s.

b) 1.95m/s.

c) 2.34m/s.

d) 2.8m/s.

e) 3.36m/s.

12) A cylinder with a radius of 0.38 m and a length of 3.6 m is held so that the top circular face is 4.2 m below the water. The mass of the block is 829.0 kg. The mass density of water is 1000kg/m^3. What is the pressure at the top face of the cylinder?

a) 3.40E4 Pa

b) 4.12E4 Pa

c) 4.99E4 Pa

d) 6.04E4 Pa

e) 7.32E4 Pa

13) Mr. Smith starts at rest and accelerates to a speed of 4 m/s, in 2 seconds. He then travels at this speed for an additional 3 seconds. Then he decelerates uniformly, taking 2 seconds to come to rest. How far did he travel?

a) 21.0 meters

b) 20.0 meters

c) 22.0 meters

d) 19.0 meters

e) 23.0 meters

14) If a molecule with atomic mass equal to 3 amu has a speed of 405 m/s, what is the speed at an atom in the same atmosphere of a molecule with an atomic mass of 24 ?

a) 8.05 x 10¹ m/s

b) 9.76 x 10¹ m/s

c) 1.18 x 10² m/s

d) 1.43 x 10² m/s

e) 1.73 x 10² m/s

15) The specific heat of water and aluminum are 4186 and 900, respectively, where the units are J/kg/Celsius. An aluminum container of mass 0.66 kg is filled with 0.11 kg of water. How much heat does it take to raise both from 57.1 C to 78 C?

a) 1.59 x 10⁴ J

b) 1.87 x 10⁴ J

c) 2.2 x 10⁴ J

d) 2.6 x 10⁴ J

e) 3.06 x 10⁴ J

16) The spring constant is 630N/m, and the initial compression is 0.25m. What is the mass if the cart reaches a height of 1.26m, before coming to rest?

a) 1.312 kg

b) 1.377 kg

c) 1.446 kg

d) 1.518 kg

e) 1.594 kg

1)

In the figure shown, θ₁ is 18 degrees, and θ₃ is 35 degrees. The tension T₃ is 48 N. What is the tension, T₁?

a) 31.26 N.

b) 35.95 N.

c) 41.34 N.

d) 47.54 N.

e) 54.68 N.

2) A sled of mass 2 kg is on perfectly smooth surface. A string pulls with a tension of 17.4N. At what angle above the horizontal must the string pull in order to achieve an accelerations of 2.9 m/s²?

a) 53.3 degrees

b) 61.3 degrees

c) 70.5 degrees

d) 81.1 degrees

e) 93.3 degrees

3) What is the acceleration if a car travelling at 9.8 m/s makes a skid mark that is 7.25 m long before coming to rest? (Assume uniform acceleration.)

a) 3.83m/s/2.

b) 4.6m/s/2.

c) 5.52m/s/2.

d) 6.62m/s/2.

e) 7.95m/s/2.

4) A cylinder with a radius of 0.38 m and a length of 2.3 m is held so that the top circular face is 4.5 m below the water. The mass of the block is 909.0 kg. The mass density of water is 1000kg/m^3. What is the pressure at the top face of the cylinder?

a) 2.48E4 Pa

b) 3.00E4 Pa

c) 3.64E4 Pa

d) 4.41E4 Pa

e) 5.34E4 Pa

5) On object of mass 2.3 kg that is moving at a velocity of 16m/s collides with a stationary object of mass 9.6 kg. What is the final velocity if they stick? (Assume no external friction.)

a) 1.49m/s.

b) 1.79m/s.

c) 2.15m/s.

d) 2.58m/s.

e) 3.09m/s.

6) The spring constant is 612N/m, and the initial compression is 0.15m. What is the mass if the cart reaches a height of 1.59m, before coming to rest?

a) 0.401 kg

b) 0.421 kg

c) 0.442 kg

d) 0.464 kg

e) 0.487 kg

7) If a molecule with atomic mass equal to 7 amu has a speed of 253 m/s, what is the speed at an atom in the same atmosphere of a molecule with an atomic mass of 26 ?

a) 1.31 x 10² m/s

b) 1.59 x 10² m/s

c) 1.93 x 10² m/s

d) 2.33 x 10² m/s

e) 2.83 x 10² m/s

8) A mass with weight (mg) equal to 21 newtons is suspended symmetrically from two strings. Each string makes the (same) angle of 66 degrees with respect to the horizontal. What is the tension in each string?

a) 6.6 N.

b) 7.6 N.

c) 8.7 N.

d) 10 N.

e) 11.5 N.

9) Mr. Smith starts at rest and accelerates to a speed of 4 m/s, in 2 seconds. He then travels at this speed for an additional 3 seconds. Then he decelerates uniformly, taking 2 seconds to come to rest. How far did he travel?

a) 21.0 meters

b) 23.0 meters

c) 22.0 meters

d) 20.0 meters

e) 19.0 meters

10)

In the figure shown, L₁ = 5.3m, L₂ = 4.3m and L₃ = 8m. What is F₁ if F₂ =7.6N and F₃ =5.9N?

a) 1.03E+01 N

b) 1.24E+01 N

c) 1.51E+01 N

d) 1.83E+01 N

e) 2.21E+01 N

11)

A 1241 heat cycle uses 1.5 moles of an ideal gas. The pressures and volumes are: P₁= 2.6 kPa, P₂= 5.7 kPa. The volumes are V₁= 2.7m³ and V₄= 5.5m³. What is the temperature at step 4?

a) 1.15 x 10³ K

b) 3.63 x 10³ K

c) 1.15 x 10⁴ K

d) 3.63 x 10⁴ K

e) 1.15 x 10⁵ K

12) A car is headed due north and increasing its speed. It is also turning right because it is also traveling in a perfect circle. The acceleration vector points

a) northwest

b) north

c) southwest

d) northeast

e) south

13) The specific heat of water and aluminum are 4186 and 900, respectively, where the units are J/kg/Celsius. An aluminum container of mass 0.82 kg is filled with 0.11 kg of water. How much heat does it take to raise both from 20.2 C to 96.9 C?

a) 6.62 x 10⁴ J

b) 7.8 x 10⁴ J

c) 9.19 x 10⁴ J

d) 1.08 x 10⁵ J

e) 1.28 x 10⁵ J

14) A particle is initially at the origin and moving in the x direction at a speed of 4.3 m/s. It has an constant acceleration of 1.8 m/s² in the y direction, as well as an acceleration of 0.3 in the x direction. What angle does the velocity make with the x axis at time t = 2.5 s?

a) 36.26 degrees.

b) 41.7 degrees.

c) 47.96 degrees.

d) 55.15 degrees.

e) 63.43 degrees.

15)

The moment of inertia of a solid disk of mass, M, and radius, R, is ½ MR². Two identical disks, each with mass 1.8 kg are attached. The larger disk has a diameter of 0.85 m, and the smaller disk has a diameter of 0.44 m. If a force of 14 N is applied at the rim of the smaller disk, what is the angular acceleration?

a) 8.4 x 10⁰ s^-2

b) 1.02 x 10¹ s^-2

c) 1.23 x 10¹ s^-2

d) 1.49 x 10¹ s^-2

e) 1.81 x 10¹ s^-2

16) A large cylinder is filled with water so that the bottom is 5.4 m below the waterline. At the bottom is a small hole with a diameter of 9.6E-4 m. How fast is the water flowing at the hole? (Neglect viscous effects, turbulence, and also assume that the hole is so small that no significant motion occurs at the top of the cylinder.)

a) 7.01E0 m/s

b) 8.49E0 m/s

c) 1.03E1 m/s

d) 1.25E1 m/s

e) 1.51E1 m/s

1) A train accelerates uniformly from 17 m/s to 35.25 m/s, while travelling a distance of 151 m. What is the 'average' acceleration?

a) 1.83m/s/s.

b) 2.19m/s/s.

c) 2.63m/s/s.

d) 3.16m/s/s.

e) 3.79m/s/s.

2) Mr. Smith starts from rest and accelerates to 4 m/s in 5 seconds. How far did he travel?

a) 8.0 meters

b) 10.0 meters

c) 7.0 meters

d) 9.0 meters

e) 11.0 meters

3) A particle is initially at the origin and moving in the x direction at a speed of 4.1 m/s. It has an constant acceleration of 1.9 m/s² in the y direction, as well as an acceleration of 0.9 in the x direction. What angle does the velocity make with the x axis at time t = 2.4 s?

a) 27.27 degrees.

b) 31.37 degrees.

c) 36.07 degrees.

d) 41.48 degrees.

e) 47.7 degrees.

4) A car is headed due north and increasing its speed. It is also turning left because it is also traveling in a perfect circle. The acceleration vector points

a) northeast

b) northwest

c) north

d) south

e) southwest

5) A mass with weight (mg) equal to 21 newtons is suspended symmetrically from two strings. Each string makes the (same) angle of 66 degrees with respect to the horizontal. What is the tension in each string?

a) 6.6 N.

b) 7.6 N.

c) 8.7 N.

d) 10 N.

e) 11.5 N.

6) A sled of mass 5.1 kg is at rest on a rough surface. A string pulls with a tension of 41.2N at an angle of 42 degress above the horizontal. What is the magnitude of the friction?

a) 23.15 N.

b) 26.62 N.

c) 30.62 N.

d) 35.21 N.

e) 40.49 N.

7) In the figure "3 tensions" shown above θ₁ is 16 degrees, and θ₃ is 30 degrees. The tension T₃ is 45 N. What is the weight?

a) 25.5 N.

b) 29.3 N.

c) 33.7 N.

d) 38.7 N.

e) 44.5 N.

8) The cart has a mass of 35.20kg. It is moving at a speed of 3.50m/s, when it is at a height of 2.34m. If the spring constant was 554N/m, what was the initial compression?

a) 1.92 m

b) 2.06 m

c) 2.20 m

d) 2.35 m

e) 2.52 m

9) A car of mass 636 kg is driving on an icy road at a speed of 22 m/s, when it collides with a stationary truck. After the collision they stick and move at a speed of 5.2 m/s. What was the mass of the truck?

a) 1427 kg

b) 1712 kg

c) 2055 kg

d) 2466 kg

e) 2959 kg

10)

In the figure shown, L₁ = 6.3m, L₂ = 4.3m and L₃ = 8.5m. What is F₁ if F₂ =8.4N and F₃ =5.2N?

a) 1.27E+01 N

b) 1.54E+01 N

c) 1.87E+01 N

d) 2.27E+01 N

e) 2.75E+01 N

11) A car with a tire radius of 0.21 m accelerates from 0 to 29 m/s in 11 seconds. What is the angular acceleration of the wheel?

a) 1.26 x 10¹ m

b) 1.52 x 10¹ m

c) 1.84 x 10¹ m

d) 2.23 x 10¹ m

e) 2.7 x 10¹ m

12) A cylinder with a radius of 0.31 m and a length of 3.5 m is held so that the top circular face is 4.8 m below the water. The mass of the block is 933.0 kg. The mass density of water is 1000kg/m^3. What is the force exerted by the fluid on the bottom of the cylinder?

a) 1.95E4 Pa

b) 2.46E4 Pa

c) 3.09E4 Pa

d) 3.89E4 Pa

e) 4.90E4 Pa

13) A 6.5 cm diameter pipe can fill a 1.8 m^3 volume in 4.0 minutes. Before exiting the pipe, the diameter is reduced to 2.3 cm (with no loss of flow rate). If two fluid elements at the center of the pipe are separated by 30.0 mm when they are both in the wide pipe, and we neglect turbulence, what is the separation when both are in the narrow pipe?

a) 1.63E2 mm

b) 1.98E2 mm

c) 2.40E2 mm

d) 2.90E2 mm

e) 3.52E2 mm

14) What is the root-mean-square of 6, -2, and -44?

a) 1.619 x 10¹

b) 1.817 x 10¹

c) 2.039 x 10¹

d) 2.287 x 10¹

e) 2.566 x 10¹

15) The specific heat of water and aluminum are 4186 and 900, respectively, where the units are J/kg/Celsius. An aluminum container of mass 0.95 kg is filled with 0.19 kg of water. How much heat does it take to raise both from 32.6 C to 75.6 C?

a) 3.68 x 10⁴ J

b) 4.33 x 10⁴ J

c) 5.11 x 10⁴ J

d) 6.02 x 10⁴ J

e) 7.1 x 10⁴ J

16)

A 1241 heat cycle uses 2.9 moles of an ideal gas. The pressures and volumes are: P₁= 1.3 kPa, P₂= 3.4 kPa. The volumes are V₁= 2.5m³ and V₄= 4.3m³. How much work is involved between 2 and 4?

a) 1.34 x 10² J

b) 4.23 x 10² J

c) 1.34 x 10³ J

d) 4.23 x 10³ J

e) 1.34 x 10⁴ J

1) The specific heat of water and aluminum are 4186 and 900, respectively, where the units are J/kg/Celsius. An aluminum container of mass 0.99 kg is filled with 0.26 kg of water. How much heat does it take to raise both from 54.4 C to 78.1 C?

a) 2.43 x 10⁴ J

b) 2.86 x 10⁴ J

c) 3.38 x 10⁴ J

d) 3.98 x 10⁴ J

e) 4.69 x 10⁴ J

2) A car is headed due north and increasing its speed. It is also turning left because it is also traveling in a perfect circle. The acceleration vector points

a) northeast

b) northwest

c) south

d) north

e) southwest

3) A mass with weight (mg) equal to 42 newtons is suspended symmetrically from two strings. Each string makes the (same) angle of 26 degrees with respect to the horizontal. What is the tension in each string?

a) 27.4 N.

b) 31.5 N.

c) 36.2 N.

d) 41.7 N.

e) 47.9 N.

4) In the figure "3 tensions" shown above θ₁ is 19 degrees, and θ₃ is 38 degrees. The tension T₃ is 21 N. What is the weight?

a) 18.6 N.

b) 21.4 N.

c) 24.6 N.

d) 28.3 N.

e) 32.6 N.

5) A particle is initially at the origin and moving in the x direction at a speed of 4.1 m/s. It has an constant acceleration of 2.3 m/s² in the y direction, as well as an acceleration of 0.5 in the x direction. What angle does the velocity make with the x axis at time t = 2.7 s?

a) 32.04 degrees.

b) 36.85 degrees.

c) 42.37 degrees.

d) 48.73 degrees.

e) 56.04 degrees.

6) A car of mass 856 kg is driving on an icy road at a speed of 19 m/s, when it collides with a stationary truck. After the collision they stick and move at a speed of 4.7 m/s. What was the mass of the truck?

a) 1507 kg

b) 1809 kg

c) 2170 kg

d) 2604 kg

e) 3125 kg

7) A cylinder with a radius of 0.31 m and a length of 3.5 m is held so that the top circular face is 4.8 m below the water. The mass of the block is 933.0 kg. The mass density of water is 1000kg/m^3. What is the force exerted by the fluid on the bottom of the cylinder?

a) 1.95E4 Pa

b) 2.46E4 Pa

c) 3.09E4 Pa

d) 3.89E4 Pa

e) 4.90E4 Pa

8) Mr. Smith starts from rest and accelerates to 4 m/s in 5 seconds. How far did he travel?

a) 11.0 meters

b) 7.0 meters

c) 9.0 meters

d) 10.0 meters

e) 8.0 meters

9) A sled of mass 5.1 kg is at rest on a rough surface. A string pulls with a tension of 48N at an angle of 48 degress above the horizontal. What is the magnitude of the friction?

a) 24.29 N.

b) 27.93 N.

c) 32.12 N.

d) 36.94 N.

e) 42.48 N.

10) A car with a tire radius of 0.24 m accelerates from 0 to 33 m/s in 8.5 seconds. What is the angular acceleration of the wheel?

a) 1.34 x 10¹ m

b) 1.62 x 10¹ m

c) 1.96 x 10¹ m

d) 2.37 x 10¹ m

e) 2.88 x 10¹ m

11)

A 1241 heat cycle uses 2.5 moles of an ideal gas. The pressures and volumes are: P₁= 3 kPa, P₂= 5.4 kPa. The volumes are V₁= 2.6m³ and V₄= 5m³. How much work is involved between 2 and 4?

a) 1.01 x 10² J

b) 3.19 x 10² J

c) 1.01 x 10³ J

d) 3.19 x 10³ J

e) 1.01 x 10⁴ J

12)

In the figure shown, L₁ = 6.5m, L₂ = 3.2m and L₃ = 8.8m. What is F₁ if F₂ =9.3N and F₃ =5.9N?

a) 8.56E+00 N

b) 1.04E+01 N

c) 1.26E+01 N

d) 1.52E+01 N

e) 1.84E+01 N

13) A 7.0 cm diameter pipe can fill a 2.1 m^3 volume in 8.0 minutes. Before exiting the pipe, the diameter is reduced to 1.7 cm (with no loss of flow rate). If two fluid elements at the center of the pipe are separated by 29.0 mm when they are both in the wide pipe, and we neglect turbulence, what is the separation when both are in the narrow pipe?

a) 4.06E2 mm

b) 4.92E2 mm

c) 5.96E2 mm

d) 7.22E2 mm

e) 8.74E2 mm

14) The cart has a mass of 36.10kg. It is moving at a speed of 3.70m/s, when it is at a height of 3.05m. If the spring constant was 665N/m, what was the initial compression?

a) 2.00 m

b) 2.14 m

c) 2.29 m

d) 2.45 m

e) 2.62 m

15) What is the root-mean-square of 6, -2, and -44?

a) 1.619 x 10¹

b) 1.817 x 10¹

c) 2.039 x 10¹

d) 2.287 x 10¹

e) 2.566 x 10¹

16) A train accelerates uniformly from 17 m/s to 29.75 m/s, while travelling a distance of 285 m. What is the 'average' acceleration?

a) 0.5m/s/s.

b) 0.61m/s/s.

c) 0.73m/s/s.

d) 0.87m/s/s.

e) 1.05m/s/s.

1) In the figure "3 tensions" shown above θ₁ is 18 degrees, and θ₃ is 35 degrees. The tension T₃ is 48 N. What is the weight?

a) 40.3 N.

b) 46.4 N.

c) 53.3 N.

d) 61.3 N.

e) 70.5 N.

2)

In the figure shown, L₁ = 6.4m, L₂ = 3.2m and L₃ = 8.3m. What is F₁ if F₂ =8.5N and F₃ =6.5N?

a) 5.89E+00 N

b) 7.13E+00 N

c) 8.64E+00 N

d) 1.05E+01 N

e) 1.27E+01 N

3) A car of mass 806 kg is driving on an icy road at a speed of 24 m/s, when it collides with a stationary truck. After the collision they stick and move at a speed of 5.5 m/s. What was the mass of the truck?

a) 1883 kg

b) 2259 kg

c) 2711 kg

d) 3253 kg

e) 3904 kg

4) Mr. Smith starts from rest and accelerates to 4 m/s in 5 seconds. How far did he travel?

a) 7.0 meters

b) 9.0 meters

c) 11.0 meters

d) 10.0 meters

e) 8.0 meters

5) A sled of mass 5.3 kg is at rest on a rough surface. A string pulls with a tension of 46.8N at an angle of 56 degress above the horizontal. What is the magnitude of the friction?

a) 17.21 N.

b) 19.79 N.

c) 22.76 N.

d) 26.17 N.

e) 30.1 N.

6) The specific heat of water and aluminum are 4186 and 900, respectively, where the units are J/kg/Celsius. An aluminum container of mass 0.61 kg is filled with 0.21 kg of water. How much heat does it take to raise both from 21.9 C to 98.6 C?

a) 7.88 x 10⁴ J

b) 9.29 x 10⁴ J

c) 1.1 x 10⁵ J

d) 1.29 x 10⁵ J

e) 1.52 x 10⁵ J

7)

A 1241 heat cycle uses 3 moles of an ideal gas. The pressures and volumes are: P₁= 1.3 kPa, P₂= 3.7 kPa. The volumes are V₁= 1.1m³ and V₄= 2.2m³. How much work is involved between 2 and 4?

a) 8.7 x 10² J

b) 2.75 x 10³ J

c) 8.7 x 10³ J

d) 2.75 x 10⁴ J

e) 8.7 x 10⁴ J

8) What is the root-mean-square of -46, -13, and 17?

a) 2.074 x 10¹

b) 2.327 x 10¹

c) 2.611 x 10¹

d) 2.929 x 10¹

e) 3.287 x 10¹

9) A cylinder with a radius of 0.38 m and a length of 3.6 m is held so that the top circular face is 4.2 m below the water. The mass of the block is 829.0 kg. The mass density of water is 1000kg/m^3. What is the force exerted by the fluid on the bottom of the cylinder?

a) 1.74E4 Pa

b) 2.19E4 Pa

c) 2.75E4 Pa

d) 3.47E4 Pa

e) 4.37E4 Pa

10) A 9.7 cm diameter pipe can fill a 1.2 m^3 volume in 4.0 minutes. Before exiting the pipe, the diameter is reduced to 4.3 cm (with no loss of flow rate). If two fluid elements at the center of the pipe are separated by 22.0 mm when they are both in the wide pipe, and we neglect turbulence, what is the separation when both are in the narrow pipe?

a) 6.30E1 mm

b) 7.63E1 mm

c) 9.24E1 mm

d) 1.12E2 mm

e) 1.36E2 mm

11) A mass with weight (mg) equal to 21 newtons is suspended symmetrically from two strings. Each string makes the (same) angle of 66 degrees with respect to the horizontal. What is the tension in each string?

a) 6.6 N.

b) 7.6 N.

c) 8.7 N.

d) 10 N.

e) 11.5 N.

12) A particle is initially at the origin and moving in the x direction at a speed of 3.7 m/s. It has an constant acceleration of 1.5 m/s² in the y direction, as well as an acceleration of 0.6 in the x direction. What angle does the velocity make with the x axis at time t = 2.1 s?

a) 21.32 degrees.

b) 24.51 degrees.

c) 28.19 degrees.

d) 32.42 degrees.

e) 37.28 degrees.

13) The cart has a mass of 42.40kg. It is moving at a speed of 2.10m/s, when it is at a height of 2.08m. If the spring constant was 522N/m, what was the initial compression?

a) 1.46 m

b) 1.56 m

c) 1.67 m

d) 1.79 m

e) 1.92 m

14) A train accelerates uniformly from 17 m/s to 29.75 m/s, while travelling a distance of 285 m. What is the 'average' acceleration?

a) 0.5m/s/s.

b) 0.61m/s/s.

c) 0.73m/s/s.

d) 0.87m/s/s.

e) 1.05m/s/s.

15) A car is headed due north and increasing its speed. It is also turning left because it is also traveling in a perfect circle. The acceleration vector points

a) northwest

b) north

c) south

d) southwest

e) northeast

16) A car with a tire radius of 0.31 m accelerates from 0 to 39 m/s in 9.3 seconds. What is the angular acceleration of the wheel?

a) 1.12 x 10¹ m

b) 1.35 x 10¹ m

c) 1.64 x 10¹ m

d) 1.99 x 10¹ m

e) 2.41 x 10¹ m

1) A particle accelerates uniformly at 16 m/s/s. How long does it take for the velocity to increase from 981 m/s to 1816 m/s?

a) 30.2 s

b) 36.24 s

c) 43.49 s

d) 52.19 s

e) 62.63 s

2) Mr. Smith starts at rest and accelerates to a speed of 2 m/s, in 6 seconds. He then travels at this speed for an additional 3 seconds. Then he decelerates uniformly, taking 4 seconds to come to rest. How far did he travel?

a) 19.0 meters

b) 18.0 meters

c) 20.0 meters

d) 16.0 meters

e) 17.0 meters

3) At time, t=0, two particles are on the x axis. Particle A is (initially) at the origin and moves at a constant speed of 5.72 m/s at an angle of θ above the x-axis. Particle B is initially situated at x= 2 m, and moves at a constant speed of 2.02 m/s in the +y direction. What is the value of θ (in radians)?

a) 0.21 radians.

b) 0.24 radians.

c) 0.27 radians.

d) 0.31 radians.

e) 0.36 radians.

4) A car is traveling in a perfect circle at constant speed. If the car is headed north while turning east, the acceleration is

a) north

b) south

c) east

d) west

e) zero

5) A mass with weight (mg) equal to 34 newtons is suspended symmetrically from two strings. Each string makes the (same) angle of 14 degrees with respect to the horizontal. What is the tension in each string?

a) 61.1 N.

b) 70.3 N.

c) 80.8 N.

d) 92.9 N.

e) 106.9 N.

6) A sled of mass 5.7 kg is at rest on a rough surface. A string pulls with a tension of 43.9N at an angle of 50 degress above the horizontal. What is the normal force?

a) 16.81 N.

b) 19.33 N.

c) 22.23 N.

d) 25.57 N.

e) 29.4 N.

7)

In the figure shown, θ₁ is 20 degrees, and θ₃ is 29 degrees. The tension T₃ is 25 N. What is the tension, T₁?

a) 13.3 N.

b) 15.3 N.

c) 17.59 N.

d) 20.23 N.

e) 23.27 N.

8) You are riding a bicycle on a flat road. Assume no friction or air drag, and that you are coasting. Your speed is 4.9m/s, when you encounter a hill of height 1.14m. What is your speed at the top of the hill?

a) 1.149 m/s

b) 1.218 m/s

c) 1.291 m/s

d) 1.368 m/s

e) 1.450 m/s

9) A car of mass 860 kg is driving on an icy road at a speed of 17 m/s, when it collides with a stationary truck. After the collision they stick and move at a speed of 5.9 m/s. What was the mass of the truck?

a) 1124 kg

b) 1348 kg

c) 1618 kg

d) 1942 kg

e) 2330 kg

10)

In the figure shown, L₁ = 6.1m, L₂ = 4m and L₃ = 7.5m. What is F₂ if F₁ =0.74N and F₃ =0N?

a) 6.35E-01 N

b) 7.69E-01 N

c) 9.31E-01 N

d) 1.13E+00 N

e) 1.37E+00 N

11)

The moment of inertia of a solid disk of mass, M, and radius, R, is ½ MR². Two identical disks, each with mass 1.8 kg are attached. The larger disk has a diameter of 0.86 m, and the smaller disk has a diameter of 0.38 m. If a force of 31 N is applied at the rim of the smaller disk, what is the angular acceleration?

a) 1.37 x 10¹ s^-2

b) 1.67 x 10¹ s^-2

c) 2.02 x 10¹ s^-2

d) 2.44 x 10¹ s^-2

e) 2.96 x 10¹ s^-2

12) A cylinder with a radius of 0.24 m and a length of 3.8 m is held so that the top circular face is 3.5 m below the water. The mass of the block is 853.0 kg. The mass density of water is 1000kg/m^3. What is the force exerted by the water at the top surface?

a) 3.11E3 N

b) 3.92E3 N

c) 4.93E3 N

d) 6.21E3 N

e) 7.81E3 N

13) A 6.4 cm diameter pipe can fill a 1.8 m^3 volume in 8.0 minutes. Before exiting the pipe, the diameter is reduced to 3.7 cm (with no loss of flow rate). What is the speed in the first (wider) pipe?

a) 7.94E-1 m/s

b) 9.62E-1 m/s

c) 1.17E0 m/s

d) 1.41E0 m/s

e) 1.71E0 m/s

14) If a molecule with atomic mass equal to 6 amu has a speed of 217 m/s, what is the speed at an atom in the same atmosphere of a molecule with an atomic mass of 30 ?

a) 5.46 x 10¹ m/s

b) 6.61 x 10¹ m/s

c) 8.01 x 10¹ m/s

d) 9.7 x 10¹ m/s

e) 1.18 x 10² m/s

15) {The specific heat of water and aluminum are 4186 and 900, respectively, where the units are J/kg/Celsius. An aluminum container of mass 0.68 kg is filled with 0.17 kg of water. What fraction of the heat went into the aluminum?

a) 2.8 x 10^-1

b) 3.3 x 10^-1

c) 3.9 x 10^-1

d) 4.6 x 10^-1

e) 5.5 x 10^-1

16)

A 1241 heat cycle uses 2 moles of an ideal gas. The pressures and volumes are: P₁= 2.9 kPa, P₂= 4 kPa. The volumes are V₁= 2m³ and V₄= 3.2m³. How much work is done in in one cycle?

a) 6.6 x 10⁰ J

b) 2.09 x 10¹ J

c) 6.6 x 10¹ J

d) 2.09 x 10² J

e) 6.6 x 10² J

1)

The moment of inertia of a solid disk of mass, M, and radius, R, is ½ MR². Two identical disks, each with mass 3.6 kg are attached. The larger disk has a diameter of 0.71 m, and the smaller disk has a diameter of 0.32 m. If a force of 13 N is applied at the rim of the smaller disk, what is the angular acceleration?

a) 5.19 x 10⁰ s^-2

b) 6.29 x 10⁰ s^-2

c) 7.62 x 10⁰ s^-2

d) 9.23 x 10⁰ s^-2

e) 1.12 x 10¹ s^-2

2) A cylinder with a radius of 0.31 m and a length of 3.5 m is held so that the top circular face is 4.8 m below the water. The mass of the block is 933.0 kg. The mass density of water is 1000kg/m^3. What is the force exerted by the water at the top surface?

a) 7.12E3 N

b) 8.96E3 N

c) 1.13E4 N

d) 1.42E4 N

e) 1.79E4 N

3) Mr. Smith starts at rest and accelerates to a speed of 2 m/s, in 6 seconds. He then travels at this speed for an additional 3 seconds. Then he decelerates uniformly, taking 4 seconds to come to rest. How far did he travel?

a) 16.0 meters

b) 20.0 meters

c) 17.0 meters

d) 19.0 meters

e) 18.0 meters

4) A car is traveling in a perfect circle at constant speed. If the car is headed north while turning east, the acceleration is

a) north

b) zero

c) west

d) south

e) east

5)

A 1241 heat cycle uses 2 moles of an ideal gas. The pressures and volumes are: P₁= 2.9 kPa, P₂= 4 kPa. The volumes are V₁= 2m³ and V₄= 3.2m³. How much work is done in in one cycle?

a) 6.6 x 10⁰ J

b) 2.09 x 10¹ J

c) 6.6 x 10¹ J

d) 2.09 x 10² J

e) 6.6 x 10² J

6) A 7.0 cm diameter pipe can fill a 2.1 m^3 volume in 8.0 minutes. Before exiting the pipe, the diameter is reduced to 1.7 cm (with no loss of flow rate). What is the speed in the first (wider) pipe?

a) 1.14E0 m/s

b) 1.38E0 m/s

c) 1.67E0 m/s

d) 2.02E0 m/s

e) 2.45E0 m/s

7) A mass with weight (mg) equal to 41 newtons is suspended symmetrically from two strings. Each string makes the (same) angle of 30 degrees with respect to the horizontal. What is the tension in each string?

a) 23.4 N.

b) 27 N.

c) 31 N.

d) 35.7 N.

e) 41 N.

8) At time, t=0, two particles are on the x axis. Particle A is (initially) at the origin and moves at a constant speed of 6.27 m/s at an angle of θ above the x-axis. Particle B is initially situated at x= 2.38 m, and moves at a constant speed of 2.94 m/s in the +y direction. What is the value of θ (in radians)?

a) 0.42 radians.

b) 0.49 radians.

c) 0.56 radians.

d) 0.65 radians.

e) 0.74 radians.

9) A car of mass 806 kg is driving on an icy road at a speed of 24 m/s, when it collides with a stationary truck. After the collision they stick and move at a speed of 5.5 m/s. What was the mass of the truck?

a) 1883 kg

b) 2259 kg

c) 2711 kg

d) 3253 kg

e) 3904 kg

10) You are riding a bicycle on a flat road. Assume no friction or air drag, and that you are coasting. Your speed is 4.9m/s, when you encounter a hill of height 1.14m. What is your speed at the top of the hill?

a) 1.022 m/s

b) 1.084 m/s

c) 1.149 m/s

d) 1.218 m/s

e) 1.291 m/s

11) A sled of mass 5.9 kg is at rest on a rough surface. A string pulls with a tension of 45.6N at an angle of 36 degress above the horizontal. What is the normal force?

a) 23.45 N.

b) 26.97 N.

c) 31.02 N.

d) 35.67 N.

e) 41.02 N.

12)

In the figure shown, θ₁ is 18 degrees, and θ₃ is 35 degrees. The tension T₃ is 48 N. What is the tension, T₁?

a) 31.26 N.

b) 35.95 N.

c) 41.34 N.

d) 47.54 N.

e) 54.68 N.

13) If a molecule with atomic mass equal to 9 amu has a speed of 445 m/s, what is the speed at an atom in the same atmosphere of a molecule with an atomic mass of 25 ?

a) 1.82 x 10² m/s

b) 2.2 x 10² m/s

c) 2.67 x 10² m/s

d) 3.23 x 10² m/s

e) 3.92 x 10² m/s

14) A particle accelerates uniformly at 13 m/s/s. How long does it take for the velocity to increase from 1024 m/s to 1888 m/s?

a) 46.15 s

b) 55.38 s

c) 66.46 s

d) 79.75 s

e) 95.7 s

15) The specific heat of water and aluminum are 4186 and 900, respectively, where the units are J/kg/Celsius. An aluminum container of mass 0.95 kg is filled with 0.19 kg of water. What fraction of the heat went into the aluminum?

a) 5.2 x 10^-1

b) 6.1 x 10^-1

c) 7.2 x 10^-1

d) 8.5 x 10^-1

e) 1 x 10⁰

16)

In the figure shown, L₁ = 6.8m, L₂ = 4.8m and L₃ = 7.9m. What is F₂ if F₁ =0.56N and F₃ =0N?

a) 6.55E-01 N

b) 7.93E-01 N

c) 9.61E-01 N

d) 1.16E+00 N

e) 1.41E+00 N

1) A car of mass 636 kg is driving on an icy road at a speed of 22 m/s, when it collides with a stationary truck. After the collision they stick and move at a speed of 5.2 m/s. What was the mass of the truck?

a) 1427 kg

b) 1712 kg

c) 2055 kg

d) 2466 kg

e) 2959 kg

2) A car is traveling in a perfect circle at constant speed. If the car is headed north while turning east, the acceleration is

a) north

b) south

c) zero

d) west

e) east

3) A mass with weight (mg) equal to 37 newtons is suspended symmetrically from two strings. Each string makes the (same) angle of 65 degrees with respect to the horizontal. What is the tension in each string?

a) 15.4 N.

b) 17.7 N.

c) 20.4 N.

d) 23.5 N.

e) 27 N.

4) At time, t=0, two particles are on the x axis. Particle A is (initially) at the origin and moves at a constant speed of 8.02 m/s at an angle of θ above the x-axis. Particle B is initially situated at x= 2.27 m, and moves at a constant speed of 2.5 m/s in the +y direction. What is the value of θ (in radians)?

a) 0.18 radians.

b) 0.21 radians.

c) 0.24 radians.

d) 0.28 radians.

e) 0.32 radians.

5) A particle accelerates uniformly at 12.5 m/s/s. How long does it take for the velocity to increase from 968 m/s to 1883 m/s?

a) 42.36 s

b) 50.83 s

c) 61 s

d) 73.2 s

e) 87.84 s

6) A cylinder with a radius of 0.28 m and a length of 2.9 m is held so that the top circular face is 4.6 m below the water. The mass of the block is 880.0 kg. The mass density of water is 1000kg/m^3. What is the force exerted by the water at the top surface?

a) 1.11E4 N

b) 1.40E4 N

c) 1.76E4 N

d) 2.22E4 N

e) 2.79E4 N

7)

The moment of inertia of a solid disk of mass, M, and radius, R, is ½ MR². Two identical disks, each with mass 8.1 kg are attached. The larger disk has a diameter of 0.99 m, and the smaller disk has a diameter of 0.63 m. If a force of 87 N is applied at the rim of the smaller disk, what is the angular acceleration?

a) 9.12 x 10⁰ s^-2

b) 1.11 x 10¹ s^-2

c) 1.34 x 10¹ s^-2

d) 1.62 x 10¹ s^-2

e) 1.97 x 10¹ s^-2

8) A sled of mass 5.7 kg is at rest on a rough surface. A string pulls with a tension of 43.9N at an angle of 50 degress above the horizontal. What is the normal force?

a) 16.81 N.

b) 19.33 N.

c) 22.23 N.

d) 25.57 N.

e) 29.4 N.

9) A 6.5 cm diameter pipe can fill a 1.8 m^3 volume in 4.0 minutes. Before exiting the pipe, the diameter is reduced to 2.3 cm (with no loss of flow rate). What is the speed in the first (wider) pipe?

a) 1.27E0 m/s

b) 1.54E0 m/s

c) 1.87E0 m/s

d) 2.26E0 m/s

e) 2.74E0 m/s

10)

In the figure shown, θ₁ is 18 degrees, and θ₃ is 35 degrees. The tension T₃ is 48 N. What is the tension, T₁?

a) 31.26 N.

b) 35.95 N.

c) 41.34 N.

d) 47.54 N.

e) 54.68 N.

11)

A 1241 heat cycle uses 2.1 moles of an ideal gas. The pressures and volumes are: P₁= 2.8 kPa, P₂= 5.6 kPa. The volumes are V₁= 2.1m³ and V₄= 4.8m³. How much work is done in in one cycle?

a) 3.78 x 10² J

b) 1.2 x 10³ J

c) 3.78 x 10³ J

d) 1.2 x 10⁴ J

e) 3.78 x 10⁴ J

12)

In the figure shown, L₁ = 6.8m, L₂ = 4.3m and L₃ = 8.2m. What is F₂ if F₁ =0.9N and F₃ =0.1N?

a) 5.72E-01 N

b) 6.93E-01 N

c) 8.40E-01 N

d) 1.02E+00 N

e) 1.23E+00 N

13) You are riding a bicycle on a flat road. Assume no friction or air drag, and that you are coasting. Your speed is 4.9m/s, when you encounter a hill of height 1.14m. What is your speed at the top of the hill?

a) 1.218 m/s

b) 1.291 m/s

c) 1.368 m/s

d) 1.450 m/s

e) 1.537 m/s

14) Mr. Smith starts at rest and accelerates to a speed of 2 m/s, in 6 seconds. He then travels at this speed for an additional 3 seconds. Then he decelerates uniformly, taking 4 seconds to come to rest. How far did he travel?

a) 17.0 meters

b) 18.0 meters

c) 16.0 meters

d) 20.0 meters

e) 19.0 meters

15) If a molecule with atomic mass equal to 8 amu has a speed of 475 m/s, what is the speed at an atom in the same atmosphere of a molecule with an atomic mass of 28 ?

a) 1.73 x 10² m/s

b) 2.1 x 10² m/s

c) 2.54 x 10² m/s

d) 3.08 x 10² m/s

e) 3.73 x 10² m/s

16) The specific heat of water and aluminum are 4186 and 900, respectively, where the units are J/kg/Celsius. An aluminum container of mass 0.66 kg is filled with 0.11 kg of water. What fraction of the heat went into the aluminum?

a) 3.4 x 10^-1

b) 4.1 x 10^-1

c) 4.8 x 10^-1

d) 5.6 x 10^-1

e) 6.6 x 10^-1

1) What is the acceleration if a car travelling at 10.95 m/s makes a skid mark that is 6.25 m long before coming to rest? (Assume uniform acceleration.)

a) 6.66m/s².

b) 7.99m/s².

c) 9.59m/s².

d) 11.51m/s².

e) 13.81m/s².

2) Mr. Smith starts at rest and accelerates to a speed of 2 m/s, in 6 seconds. He then travels at this speed for an additional 3 seconds. Then he decelerates uniformly, taking 4 seconds to come to rest. How far did he travel?

a) 13.0 meters

b) 17.0 meters

c) 16.0 meters

d) 15.0 meters

e) 14.0 meters

3) At time, t=0, two particles are on the x axis. Particle A is (initially) at the origin and moves at a constant speed of 5.11 m/s at an angle of θ above the x-axis. Particle B is initially situated at x= 2.69 m, and moves at a constant speed of 2.23 m/s in the +y direction. What is the value of θ (in radians)?

a) 0.26 radians.

b) 0.3 radians.

c) 0.34 radians.

d) 0.39 radians.

e) 0.45 radians.

4) A car is headed due north and increasing its speed. It is also turning right because it is also traveling in a perfect circle. The velocity vector points

a) south

b) southwest

c) northeast

d) northwest

e) north

5) A mass with weight (mg) of 27 newtons is suspended symmetrically from two strings. The angle between the two strings (i.e. where they are attached to the mass) is 70 degrees. What is the tension in the string?

a) 12.5 N.

b) 14.3 N.

c) 16.5 N.

d) 19 N.

e) 21.8 N.

6) A sled of mass 5.1 kg is at rest on a rough surface. A string pulls with a tension of 48N at an angle of 48 degress above the horizontal. What is the magnitude of the friction?

a) 24.29 N.

b) 27.93 N.

c) 32.12 N.

d) 36.94 N.

e) 42.48 N.

7)

In the figure shown, θ is 36 degrees, and the mass is 3.1 kg. What is T₁?

a) 34.8 N.

b) 41.8 N.

c) 50.2 N.

d) 60.2 N.

e) 72.3 N.

8) The spring constant is 608N/m, and the initial compression is 0.20m. What is the mass if the cart reaches a height of 1.68m, before coming to rest?

a) 0.608 kg

b) 0.638 kg

c) 0.670 kg

d) 0.703 kg

e) 0.739 kg

9)

A 191 gm bullet strikes a ballistic pendulum of mass 2.02 kg (before the bullet struck). After impact, the pendulum rises by 65 cm. What was the speed of the bullet?

a) 34 m/s.

b) 36 m/s.

c) 39 m/s.

d) 41 m/s.

e) 44 m/s.

10)

In the figure shown, L₁ = 5.2m, L₂ = 4.5m and L₃ = 8.6m. What is F₂ if F₁ =0.86N and F₃ =0.1N?

a) 3.73E-01 N

b) 4.51E-01 N

c) 5.47E-01 N

d) 6.63E-01 N

e) 8.03E-01 N

11) A lead filled bicycle wheel of radius 0.33 m and mass 2.2 kg is rotating at a frequency of 1.3 revolutions per second. What is the moment of inertia?

a) 2.4 x 10^-1 kg m²/s²

b) 2.9 x 10^-1 kg m²/s²

c) 3.52 x 10^-1 kg m²/s²

d) 4.26 x 10^-1 kg m²/s²

e) 5.16 x 10^-1 kg m²/s²

12) A cylinder with a radius of 0.33 m and a length of 2.9 m is held so that the top circular face is 4.1 m below the water. The mass of the block is 912.0 kg. The mass density of water is 1000kg/m^3. What is the pressure at the top face of the cylinder?

a) 2.26E4 Pa

b) 2.74E4 Pa

c) 3.32E4 Pa

d) 4.02E4 Pa

e) 4.87E4 Pa

13) A 6.7 cm diameter pipe can fill a 2.2 m^3 volume in 8.0 minutes. Before exiting the pipe, the diameter is reduced to 2.3 cm (with no loss of flow rate). What is the pressure difference (in Pascals) between the two regions of the pipe?

a) 6.00E4

b) 7.27E4

c) 8.81E4

d) 1.07E5

e) 1.29E5

14) What is the root-mean-square of 11, 36, and 4?

a) 1.948 x 10¹

b) 2.186 x 10¹

c) 2.452 x 10¹

d) 2.751 x 10¹

e) 3.087 x 10¹

15) The specific heat of water and aluminum are 4186 and 900, respectively, where the units are J/kg/Celsius. An aluminum container of mass 0.99 kg is filled with 0.26 kg of water. You are consulting for the flat earth society, a group of people who believe that the acceleration of gravity equals 9.8 m/s/s at all altitudes. Based on this assumption, from what height must the water and container be dropped to achieve the same change in temperature? (For comparison, Earth's radius is 6,371 kilometers)

a) 3.16 x 10⁰ km

b) 3.83 x 10⁰ km

c) 4.64 x 10⁰ km

d) 5.62 x 10⁰ km

e) 6.81 x 10⁰ km

16)

A 1241 heat cycle uses 1.6 moles of an ideal gas. The pressures and volumes are: P₁= 1.5 kPa, P₂= 3 kPa. The volumes are V₁= 2.4m³ and V₄= 4.5m³. What is the temperature at step 4?

a) 1.6 x 10¹ K

b) 5.07 x 10¹ K

c) 1.6 x 10² K

d) 5.07 x 10² K

e) 1.6 x 10³ K

1)

In the figure shown, θ is 32 degrees, and the mass is 2.8 kg. What is T₁?

a) 21.2 N.

b) 25.4 N.

c) 30.5 N.

d) 36.6 N.

e) 43.9 N.

2) What is the root-mean-square of -28, -38, and -13?

a) 2.519 x 10¹

b) 2.827 x 10¹

c) 3.172 x 10¹

d) 3.559 x 10¹

e) 3.993 x 10¹

3) A mass with weight (mg) of 39 newtons is suspended symmetrically from two strings. The angle between the two strings (i.e. where they are attached to the mass) is 56 degrees. What is the tension in the string?

a) 22.1 N.

b) 25.4 N.

c) 29.2 N.

d) 33.6 N.

e) 38.6 N.

4) Mr. Smith starts at rest and accelerates to a speed of 2 m/s, in 6 seconds. He then travels at this speed for an additional 3 seconds. Then he decelerates uniformly, taking 4 seconds to come to rest. How far did he travel?

a) 14.0 meters

b) 16.0 meters

c) 17.0 meters

d) 13.0 meters

e) 15.0 meters

5)

A 1241 heat cycle uses 2.5 moles of an ideal gas. The pressures and volumes are: P₁= 2.2 kPa, P₂= 3.8 kPa. The volumes are V₁= 2.9m³ and V₄= 5.4m³. What is the temperature at step 4?

a) 5.71 x 10⁰ K

b) 1.81 x 10¹ K

c) 5.71 x 10¹ K

d) 1.81 x 10² K

e) 5.71 x 10² K

6) A lead filled bicycle wheel of radius 0.56 m and mass 2.9 kg is rotating at a frequency of 1.6 revolutions per second. What is the moment of inertia?

a) 7.51 x 10^-1 kg m²/s²

b) 9.09 x 10^-1 kg m²/s²

c) 1.1 x 10⁰ kg m²/s²

d) 1.33 x 10⁰ kg m²/s²

e) 1.62 x 10⁰ kg m²/s²

7) A cylinder with a radius of 0.29 m and a length of 2.3 m is held so that the top circular face is 4.7 m below the water. The mass of the block is 968.0 kg. The mass density of water is 1000kg/m^3. What is the pressure at the top face of the cylinder?

a) 2.59E4 Pa

b) 3.14E4 Pa

c) 3.80E4 Pa

d) 4.61E4 Pa

e) 5.58E4 Pa

8) The specific heat of water and aluminum are 4186 and 900, respectively, where the units are J/kg/Celsius. An aluminum container of mass 0.95 kg is filled with 0.19 kg of water. You are consulting for the flat earth society, a group of people who believe that the acceleration of gravity equals 9.8 m/s/s at all altitudes. Based on this assumption, from what height must the water and container be dropped to achieve the same change in temperature? (For comparison, Earth's radius is 6,371 kilometers)

a) 5.24 x 10⁰ km

b) 6.35 x 10⁰ km

c) 7.7 x 10⁰ km

d) 9.32 x 10⁰ km

e) 1.13 x 10¹ km

9) A sled of mass 5.3 kg is at rest on a rough surface. A string pulls with a tension of 46.8N at an angle of 56 degress above the horizontal. What is the magnitude of the friction?

a) 17.21 N.

b) 19.79 N.

c) 22.76 N.

d) 26.17 N.

e) 30.1 N.

10) The spring constant is 621N/m, and the initial compression is 0.14m. What is the mass if the cart reaches a height of 3.01m, before coming to rest?

a) 0.187 kg

b) 0.196 kg

c) 0.206 kg

d) 0.217 kg

e) 0.227 kg

11) A car is headed due north and increasing its speed. It is also turning right because it is also traveling in a perfect circle. The velocity vector points

a) southwest

b) north

c) northeast

d) south

e) northwest

12)

In the figure shown, L₁ = 6.8m, L₂ = 4.8m and L₃ = 7.9m. What is F₂ if F₁ =0.56N and F₃ =0N?

a) 6.55E-01 N

b) 7.93E-01 N

c) 9.61E-01 N

d) 1.16E+00 N

e) 1.41E+00 N

13) At time, t=0, two particles are on the x axis. Particle A is (initially) at the origin and moves at a constant speed of 7.18 m/s at an angle of θ above the x-axis. Particle B is initially situated at x= 2.15 m, and moves at a constant speed of 2.88 m/s in the +y direction. What is the value of θ (in radians)?

a) 0.24 radians.

b) 0.27 radians.

c) 0.31 radians.

d) 0.36 radians.

e) 0.41 radians.

14)

A 167 gm bullet strikes a ballistic pendulum of mass 2.28 kg (before the bullet struck). After impact, the pendulum rises by 65 cm. What was the speed of the bullet?

a) 43 m/s.

b) 46 m/s.

c) 49 m/s.

d) 52 m/s.

e) 56 m/s.

15) A 7.0 cm diameter pipe can fill a 2.1 m^3 volume in 8.0 minutes. Before exiting the pipe, the diameter is reduced to 1.7 cm (with no loss of flow rate). What is the pressure difference (in Pascals) between the two regions of the pipe?

a) 1.26E5

b) 1.53E5

c) 1.85E5

d) 2.24E5

e) 2.72E5

16) What is the acceleration if a car travelling at 9.75 m/s makes a skid mark that is 8 m long before coming to rest? (Assume uniform acceleration.)

a) 2.87m/s².

b) 3.44m/s².

c) 4.13m/s².

d) 4.95m/s².

e) 5.94m/s².

1) A car is headed due north and increasing its speed. It is also turning right because it is also traveling in a perfect circle. The velocity vector points

a) south

b) northwest

c) north

d) northeast

e) southwest

2)

A 1241 heat cycle uses 2 moles of an ideal gas. The pressures and volumes are: P₁= 2.6 kPa, P₂= 4.9 kPa. The volumes are V₁= 1.2m³ and V₄= 3.5m³. What is the temperature at step 4?

a) 5.47 x 10¹ K

b) 1.73 x 10² K

c) 5.47 x 10² K

d) 1.73 x 10³ K

e) 5.47 x 10³ K

3) A lead filled bicycle wheel of radius 0.41 m and mass 2.9 kg is rotating at a frequency of 1.7 revolutions per second. What is the moment of inertia?

a) 4.02 x 10^-1 kg m²/s²

b) 4.87 x 10^-1 kg m²/s²

c) 5.91 x 10^-1 kg m²/s²

d) 7.16 x 10^-1 kg m²/s²

e) 8.67 x 10^-1 kg m²/s²

4) The specific heat of water and aluminum are 4186 and 900, respectively, where the units are J/kg/Celsius. An aluminum container of mass 0.82 kg is filled with 0.11 kg of water. You are consulting for the flat earth society, a group of people who believe that the acceleration of gravity equals 9.8 m/s/s at all altitudes. Based on this assumption, from what height must the water and container be dropped to achieve the same change in temperature? (For comparison, Earth's radius is 6,371 kilometers)

a) 4.68 x 10⁰ km

b) 5.67 x 10⁰ km

c) 6.87 x 10⁰ km

d) 8.32 x 10⁰ km

e) 1.01 x 10¹ km

5)

In the figure shown, L₁ = 5.5m, L₂ = 3.5m and L₃ = 8.3m. What is F₂ if F₁ =0.92N and F₃ =0.1N?

a) 8.23E-01 N

b) 9.98E-01 N

c) 1.21E+00 N

d) 1.46E+00 N

e) 1.77E+00 N

6) What is the root-mean-square of -28, -38, and -13?

a) 2.519 x 10¹

b) 2.827 x 10¹

c) 3.172 x 10¹

d) 3.559 x 10¹

e) 3.993 x 10¹

7) Mr. Smith starts at rest and accelerates to a speed of 2 m/s, in 6 seconds. He then travels at this speed for an additional 3 seconds. Then he decelerates uniformly, taking 4 seconds to come to rest. How far did he travel?

a) 13.0 meters

b) 14.0 meters

c) 16.0 meters

d) 17.0 meters

e) 15.0 meters

8) What is the acceleration if a car travelling at 10.95 m/s makes a skid mark that is 6.25 m long before coming to rest? (Assume uniform acceleration.)

a) 6.66m/s².

b) 7.99m/s².

c) 9.59m/s².

d) 11.51m/s².

e) 13.81m/s².

9) A cylinder with a radius of 0.24 m and a length of 3.8 m is held so that the top circular face is 3.5 m below the water. The mass of the block is 853.0 kg. The mass density of water is 1000kg/m^3. What is the pressure at the top face of the cylinder?

a) 2.83E4 Pa

b) 3.43E4 Pa

c) 4.16E4 Pa

d) 5.03E4 Pa

e) 6.10E4 Pa

10) A 9.2 cm diameter pipe can fill a 1.6 m^3 volume in 8.0 minutes. Before exiting the pipe, the diameter is reduced to 4.0 cm (with no loss of flow rate). What is the pressure difference (in Pascals) between the two regions of the pipe?

a) 1.91E3

b) 2.31E3

c) 2.80E3

d) 3.39E3

e) 4.11E3

11) The spring constant is 630N/m, and the initial compression is 0.25m. What is the mass if the cart reaches a height of 1.26m, before coming to rest?

a) 1.312 kg

b) 1.377 kg

c) 1.446 kg

d) 1.518 kg

e) 1.594 kg

12) At time, t=0, two particles are on the x axis. Particle A is (initially) at the origin and moves at a constant speed of 8.49 m/s at an angle of θ above the x-axis. Particle B is initially situated at x= 2.73 m, and moves at a constant speed of 2.09 m/s in the +y direction. What is the value of θ (in radians)?

a) 0.14 radians.

b) 0.16 radians.

c) 0.19 radians.

d) 0.22 radians.

e) 0.25 radians.

13)

In the figure shown, θ is 33 degrees, and the mass is 2.7 kg. What is T₁?

a) 40.7 N.

b) 48.9 N.

c) 58.7 N.

d) 70.4 N.

e) 84.5 N.

14)

A 169 gm bullet strikes a ballistic pendulum of mass 2.45 kg (before the bullet struck). After impact, the pendulum rises by 65 cm. What was the speed of the bullet?

a) 55 m/s.

b) 59 m/s.

c) 63 m/s.

d) 68 m/s.

e) 73 m/s.

15) A mass with weight (mg) of 42 newtons is suspended symmetrically from two strings. The angle between the two strings (i.e. where they are attached to the mass) is 46 degrees. What is the tension in the string?

a) 15 N.

b) 17.3 N.

c) 19.8 N.

d) 22.8 N.

e) 26.2 N.

16) A sled of mass 5.4 kg is at rest on a rough surface. A string pulls with a tension of 46.6N at an angle of 38 degress above the horizontal. What is the magnitude of the friction?

a) 36.72 N.

b) 42.23 N.

c) 48.56 N.

d) 55.85 N.

e) 64.23 N.

1) A car is accelerating uniformly at an acceleration of 3.6m/s/s. At x = 6m, the speed is 3.7m/s. How fast is it moving at x = 11.5 m?

a) 6.08 m/s.

b) 7.3 m/s.

c) 8.76 m/s.

d) 10.51 m/s.

e) 12.61 m/s.

2) Mr. Smith is driving at a speed of 7 m/s, when he slows down to a speed of 5 m/s, when he hits a wall at this speed, after travelling for 2 seconds. How far did he travel?

a) 11.0 meters

b) 9.0 meters

c) 8.0 meters

d) 10.0 meters

e) 12.0 meters

3) A particle is initially at the origin and moving in the x direction at a speed of 3.9 m/s. It has an constant acceleration of 2.2 m/s² in the y direction, as well as an acceleration of 0.8 in the x direction. What angle does the velocity make with the x axis at time t = 2.9 s?

a) 26.14 degrees.

b) 30.07 degrees.

c) 34.58 degrees.

d) 39.76 degrees.

e) 45.73 degrees.

4) As the Moon circles Earth, the acceleration of the Moon is

a) in the same direction as the Moon's velocity

b) towards Earth

c) zero

d) away from Earth

e) opposite the direction of the Moon's velocity

5) A mass with weight (mg) equal to 42 newtons is suspended symmetrically from two strings. Each string makes the (same) angle of 26 degrees with respect to the horizontal. What is the tension in each string?

a) 27.4 N.

b) 31.5 N.

c) 36.2 N.

d) 41.7 N.

e) 47.9 N.

6) A sled of mass 5.7 kg is at rest on a perfectly smooth surface. A string pulls with a tension of 41.3N at an angle of 40 degress above the horizontal. How long will it take to reach a speed of 10.3 m/s?

a) 1.4 s

b) 1.61 s

c) 1.86 s

d) 2.13 s

e) 2.45 s

7) In the figure "3 tensions" shown above θ₁ is 19 degrees, and θ₃ is 38 degrees. The tension T₃ is 21 N. What is the weight?

a) 18.6 N.

b) 21.4 N.

c) 24.6 N.

d) 28.3 N.

e) 32.6 N.