A cooler (mass 3.2 kg) is initially at rest on a horizontal floor. It is then pushed in a straight line for 1.1 m by a small child who exerts a horizontal force with magnitude 30 N. A.) Use the Work-Energy Theorem to determine the final speed of the cooler if there is no friction between the cooler and the floor. B.) Use the Work-Energy Theorem to determine the final speed of the cooler if the coefficient of kinetic friction between the cooler and the floor is 0.30.

A cooler (mass 3.2 kg) is initially at rest on a horizontal floor. It is then pushed in a straight line for 1.1 m by a small child who exerts a horizontal force with magnitude 30 N. A.) Use the Work-Energy Theorem to determine the final speed of the cooler if there is no friction between the cooler and the floor. B.) Use the Work-Energy Theorem to determine the final speed of the cooler if the coefficient of kinetic friction between the cooler and the floor is 0.30.

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Description: How would you figure this out? EJ Part 1: Child pushing a coolerA cooler (mass 3.2 kg) is initially at rest on a horizontal floor. It is then pushed in a straight line for 1.1 m by a small child who exerts a horizontal force with magnitude 30 N.A.) U

College Physics

10th Edition

ISBN:9781285737027

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter5: Energy

Section: Chapter Questions

Problem 41P: (a) A child slides down a water slide at an amusement park from an initial height h. The slide can...

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