1. Six Flags Review
JEOPARDY!

2. My energy never runs out!
Around and around we go
Crashes
Work, work, work…
Early matter
My energy never runs out!
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3. Around and around we go 100 Points
Calculate the period of an object that revolves three times in 2 minutes.
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4. Around and around we go 100 Points
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5. Around and around we go 200 Points
On a roller coaster, a 300 kg cart with riders goes around a loop with radius 300 m twice in 10 s. What is the tangential velocity of the riders?
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6. Around and around we go 200 Points
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7. Around and around we go 300 Points
On a roller coaster, a 300 kg cart with riders goes around a loop with radius 300 m twice in 10 s. What is the centripetal force acting on the riders?
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8. Around and around we go 300 Points
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9. Crashes 100 Points
A 1000 kg car moving with a speed of 30 m/s crashes into a brick wall. Calculate its change in momentum.
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10. Crashes Response 100 Points
∆p = 30,000 kgm/s
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11. Crashes 200 Points
A raindrop with mass kg with an initial horizontal velocity of 0 strikes a 50 kg rider with an initial velocity of 57 m/s. What is the final velocity of you and the raindrop?
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12. Crashes 200 Points
m/s
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13. Crashes 300 Points
A raindrop with mass kg with an initial horizontal velocity of 0 strikes a 50 kg rider with an initial velocity of 57 m/s. What is the change in momentum of the raindrop?
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14. Crashes Response 300 Points
.0298 kgm/s
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15. Work, work, work 100 Points
Calculate the work done by gravity on you on the first drop of the Nitro, 65.5 m down. Assume your mass is 60 kg.
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16. Work, work, work 100 Points
39,300 J
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17. Work, work, work 200 Points
Calculate the work done by the roller coaster’s electric motor to increase the 3500 kg cart’s GPE by raising it up the lift hill 35 m.
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18. Work, work, work 200 Points
122, 500 J
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19. Work, work, work 300 Points
What is the minimum power the motor of the Rolling Thunder can output and still deliver a 60 kg rider to the top of the 23 meter lift hill in 17 s?
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20. Work, work, work 300 Points
812 W
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21. Early matter Prompt 100 Points
During launch, the Kingda Ka train is accelerated from rest to approximately 128 mph (57.2 m/s) in 3.5 s. What is average acceleration in that time period?
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22. Early matter Response 100 Points
16.3 m/s2
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23. Early matter Prompt 200 Points
Riders on the Nitro start from rest at the top of the first hill. If they drop 65.6 m what is their acceleration if it takes 5 s to reach the bottom?
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24. Early matter Response 200 Points
5.25 m/s2
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25. Early matter Prompt 300 Points
During launch, the Kingda Ka train is accelerated from rest to approximately 128 mph (57.2 m/s) in 3.5 s. What is the horizontal distance covered?
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26. Early matter Response 300 Points
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27. My energy never runs out! 100 Points
Nitro’s initial vertical drop is 65.6 meters. What is the potential energy of the train with riders, mass 2170 kg, just before it falls?
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28. My energy never runs out! 100 Points
1,423,520 J
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29. My energy never runs out! Prompt 200 Points
Nitro’s initial vertical drop is 65.6 meters. What is the potential energy of the train with riders, mass 2170 kg, when it is halfway down the hill?
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30. My energy never runs out! 200 Points
711, 760 J
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31. My energy never runs out! 300 Points
Nitro’s initial vertical drop is 65.6 meters. If the train with riders has a mass of 2170 kg, what is the velocity of the train at the bottom of the initial drop?
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32. My energy never runs out! Response 300 Points
36 m/s
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