1. Conservation of Energy Review Questions

2. 1)At point C, the bob in the pendulum has ___ Ug and ___ K
A)maximum, maximum
B)maximum, minimum
C)minimum, minimum
D)minimum, maximum
E)Ug is equal to K at point C

3. 2)A ball with a mass m, moves down the slide
2)A ball with a mass m, moves down the slide. As it descends, its gravitational potential energy
A)increases because kinetic energy increases B)decreases as it transforms into kinetic energy
C)remains the same as potential energy is always conserved

4. 3) A boy on a roller coaster cart is released from rest from the point shown on the diagram below, will the boy in the cart be able to complete the loop and exit successfully? Neglect friction
A)yes B)No

5. 4)At points A and E, the bob in the pendulum has ___ Ug and ___ K
A)maximum, maximum
B)maximum, minimum
C)minimum, minimum
D)minimum, maximum
E)Ug is equal to K at points A and E

6. 5) A 2-kg ball rests on top of a track, point A, before release
5) A 2-kg ball rests on top of a track, point A, before release. Once the ball is released, the ball slides down the track. Calculate the total mechanical energy in the system.

7. 6) A 2-kg ball rests on top of a track, point A, before release
6) A 2-kg ball rests on top of a track, point A, before release. Once the ball is released, the ball slides down the track. Find its kinetic energy when it’s passing through point C.

8. 7) A ball is dropped from rest from Position 1
7) A ball is dropped from rest from Position 1. How much potential energy has been used by the time the ball reaches Position 2? Neglect air resistance.
A)1000 J
B)540 J
C)460 J
D)none of
the answers

9. 8)A 1-kg ball rests on top of a track, point A, before release
8)A 1-kg ball rests on top of a track, point A, before release. Once the ball is released, the ball slides down the track. At which point will the sum of the potential and the kinetic energies be at its maximum? A)A B)B C)C D)D E)E F)F G)it will be the same throughout

10. 9) A ball is dropped from rest from Position 1
9) A ball is dropped from rest from Position 1. With how much kinetic energy does the ball strike the floor? Neglect air resistance.
A)1000 J
B)540 J
C)460 J
D)none of
the answers

11. 10)Find the minimum kinetic energy the cart must have to be able to make it to the top of the ramp 10 meters above the ground.

12. 11)If the 1-kg ball is released from rest at point B, how high will it go? Neglect friction and air resistance A)0 m B)10 m C)20 m D)30 m E)40 m F)impossible to know

13. 12) A roller coaster cart is released from rest from the point shown on the diagram below. Will the cart be able to reach point B? Neglect friction and air resistance
A)Yes B)No

14. 13) A 2-kg ball rests on top of the track 5 m above the ground
13) A 2-kg ball rests on top of the track 5 m above the ground. If the ball rolls down the track from point A and its speed at point B is 9 m/s, how much energy was “lost” to friction and air resistance?

15. 14) A ball is dropped from rest from Position 1
14) A ball is dropped from rest from Position 1. How much potential energy is left by the time the ball reaches Position 2? Neglect air resistance.
A)1000 J
B)540 J
C)460 J
D)none of
the answers

16. 15) The information on the roller coaster cart is as following: height at current position = 10 m, mass with people on it = 100 kg, speed at the instant shown = 10 m/s. Find the total energy in the system.

17. 16)If the total energy in the system is 20,000 J, will the 100-kg cart be able to reach point B located 15 meters above the ground?
A)Yes B)No

18. 17)If the 1-kg ball is released from rest at point A, what will its speed be at point C?

19. 18)If the 1-kg ball is released from rest at point A, what will its speed be at point E?

20. 19) A 1-kg ball is dropped from a height of 2 meters (I)
19) A 1-kg ball is dropped from a height of 2 meters (I). When the ball hits the floor, it bounces up to a height of 1.6 meters (II). How much energy was lost to the environment?

21. 20)If the 1-kg ball is released from rest at point A, how high on the rollercoaster will it be when it is moving at 10 m/s?