Review. A metal cannonball of mass m rests next to atree at the very edge of a cliff | StudySoup

Textbook Solutions for Physics for Scientists and Engineers, Volume 1, Technology Update

Chapter 9 Problem 78

Question

Review. A metal cannonball of mass m rests next to atree at the very edge of a cliff 36.0 m above the surfaceof the ocean. In an effort to knock the cannonball offthe cliff, some children tie one end of a rope around astone of mass 80.0 kg and the other end to a tree limbjust above the cannonball. They tighten the rope sothat the stone just clears the ground and hangs next tothe cannonball. The children manage to swing thestone back until it is held at rest 1.80 m above theground. The children release the stone, which thenswings down and makes a head-on, elastic collisionwith the cannonball, projecting it horizontally off thecliff. The cannonball lands in the ocean a horizontaldistance R away from its initial position. (a) Find thehorizontal component R of the cannonballs displacementas it depends on m. (b) What is the maximumpossible value for R, and (c) to what value of m does itcorrespond? (d) For the stonecannonballEarth system,is mechanical energy conserved throughout theprocess? Is this principle sufficient to solve the entireproblem? Explain. (e) What if? Show that R does notdepend on the value of the gravitational acceleration.Is this result remarkable? State how one might makesense of it.

Solution

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The first step in solving 9 problem number 109 trying to solve the problem we have to refer to the textbook question: Review. A metal cannonball of mass m rests next to atree at the very edge of a cliff 36.0 m above the surfaceof the ocean. In an effort to knock the cannonball offthe cliff, some children tie one end of a rope around astone of mass 80.0 kg and the other end to a tree limbjust above the cannonball. They tighten the rope sothat the stone just clears the ground and hangs next tothe cannonball. The children manage to swing thestone back until it is held at rest 1.80 m above theground. The children release the stone, which thenswings down and makes a head-on, elastic collisionwith the cannonball, projecting it horizontally off thecliff. The cannonball lands in the ocean a horizontaldistance R away from its initial position. (a) Find thehorizontal component R of the cannonballs displacementas it depends on m. (b) What is the maximumpossible value for R, and (c) to what value of m does itcorrespond? (d) For the stonecannonballEarth system,is mechanical energy conserved throughout theprocess? Is this principle sufficient to solve the entireproblem? Explain. (e) What if? Show that R does notdepend on the value of the gravitational acceleration.Is this result remarkable? State how one might makesense of it.
From the textbook chapter Linear Momentum and Collisions you will find a few key concepts needed to solve this.

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Title Physics for Scientists and Engineers, Volume 1, Technology Update 9 
Author Raymond A. Serway, John W. Jewett
ISBN 9781305116405

Review. A metal cannonball of mass m rests next to atree at the very edge of a cliff

Chapter 9 textbook questions

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