In the figure, we must apply a force of magnitude 82.0 N to hold the block stationary at x = -3.00 cm. From that position, we then slowly move the block so that our force does +7.00 J of work on the spring-block system; the block is then again stationary. What are the block's positions? ((a) positive and (b) negative) x=0 E=0 oooooooo x positive F negative F o o o o o o mom 0 (a) 10 Block attached to spring x negative F positive x
In the figure, we must apply a force of magnitude 82.0 N to hold the block stationary at x = -3.00 cm. From that position, we then slowly move the block so that our force does +7.00 J of work on the spring-block system; the block is then again stationary. What are the block's positions? ((a) positive and (b) negative) x=0 E=0 oooooooo x positive F negative F o o o o o o mom 0 (a) 10 Block attached to spring x negative F positive x
College Physics
10th Edition
ISBN:9781285737027
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter5: Energy
Section5.1: Work
Problem 5.1QQ: In Figure 5.5 (a)-(d), a block moves to the right in the positive x-direction through the...
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