Assume that there is no friction between the car and the track. Approximate gas 10m/s? as it is the only force acting on the car. Mechanical energy isconserved. Find PE, KE, h, v and TME at different points.A PE = 660,000 J v = 0 m/smass = 600 kgEDKE = 330,000 JBh=60 mPE = 120,000 JEPANS

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Description: Assume that there is no friction between the car and the track. Approximate gas 10m/s? as it is the only force acting on the car. Mechanical energy isconserved. Find PE, KE, h, v and TME at different points.A PE = 660,000 J v = 0 m/smass = 600 kgEDK

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Assume that there is no friction between the car and the track. Approximate as 10m/s? as it is the only force acting on the car. Mechanical energy conserved. Find PE, KE, h, v and TME at different points.

Assume that there is no friction between the car and the track. Approximate as 10m/s? as it is the only force acting on the car. Mechanical energy conserved. Find PE, KE, h, v and TME at different points.

Principles of Physics: A Calculus-Based Text

5th Edition

ISBN:9781133104261

Author:Raymond A. Serway, John W. Jewett

Publisher:Raymond A. Serway, John W. Jewett

Chapter6: Energy Of A System

Section: Chapter Questions

Problem 28P

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