10 cm hill 2. A 0.12 kg marble is started on a frictionless marble track by compressing a spring and then releasing the marble from rest. The spring has a spring constant of 490 N/m. C) If the spring is compressed by the distance you found in part A and then the marble is launched, how much work will the spring do on the marble? W=0.12J D) How much work does gravity do on the marble, from the time it is launched until it reaches the end of the track? E) Describe how energy changes form in this situation, from when the spring is compressed until the marble has gone over the hill.

10 cm hill 2. A 0.12 kg marble is started on a frictionless marble track by compressing a spring and then releasing the marble from rest. The spring has a spring constant of 490 N/m. C) If the spring is compressed by the distance you found in part A and then the marble is launched, how much work will the spring do on the marble? W=0.12J D) How much work does gravity do on the marble, from the time it is launched until it reaches the end of the track? E) Describe how energy changes form in this situation, from when the spring is compressed until the marble has gone over the hill.

Name: Solve D & E: 10 cmwwhill2. A 0.12 kg marble is started on a frictionle
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Description: Solve D & E: 10 cmwwhill2. A 0.12 kg marble is started on a frictionless marble track by compressing a spring andthen releasing the marble from rest. The spring has a spring constant of 490 N/m.A) How far must the spring be compressed initially so th

Glencoe Physics: Principles and Problems, Student Edition

1st Edition

ISBN:9780078807213

Author:Paul W. Zitzewitz

Publisher:Paul W. Zitzewitz

Chapter14: Vibrations And Waves

Section: Chapter Questions

Problem 103A

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