Two objects of different mass start from rest, are pulled by the same magnitude net force, and are moved through the same distance. The work done on object A is 500 J. After the force has pulled each object, object A moves twice as fast as object B. Answer the following questions and show your work. Question 3A: How much work is done on object B? Question 3B: What is the kinetic energy of object A after being pulled? Question 3C: What is the kinetic energy of object B after being pulled Question 3D: What is the ratio of the mass of object A to the mass of object B?
Two objects of different mass start from rest, are pulled by the same magnitude net force, and are moved through the same distance. The work done on object A is 500 J. After the force has pulled each object, object A moves twice as fast as object B. Answer the following questions and show your work. Question 3A: How much work is done on object B? Question 3B: What is the kinetic energy of object A after being pulled? Question 3C: What is the kinetic energy of object B after being pulled Question 3D: What is the ratio of the mass of object A to the mass of object B?
Glencoe Physics: Principles and Problems, Student Edition
1st Edition
ISBN:9780078807213
Author:Paul W. Zitzewitz
Publisher:Paul W. Zitzewitz
Chapter10: Work, Energy And Machines
Section: Chapter Questions
Problem 59A
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Two objects of different mass start from rest, are pulled by the same magnitude net force, and are moved through the same distance. The work done on object A is 500 J. After the force has pulled each object, object A moves twice as fast as object B. Answer the following questions and show your work.
Question 3A: How much work is done on object B?
Question 3B: What is the kinetic energy of object A after being pulled?
Question 3C: What is the kinetic energy of object B after being pulled
Question 3D: What is the ratio of the mass of object A to the mass of object B?
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