Two objects are identical and small enough that their sizes can be ignored relative to the distance between them, which is 0.257 m. In a vacuum, each object carries a different charge, and they attract each other with a force of 1.77 N. The objects are brought into contact, so the net charge is shared equally, and then they are returned to their initial positions. Now it is found that the objects repel one another with a force whose magnitude is equal to that of the initial attractive force. What is the initial charge on each object, the answer to part (a) being the one with the greater (and positive) value?
Two objects are identical and small enough that their sizes can be ignored relative to the distance between them, which is 0.257 m. In a vacuum, each object carries a different charge, and they attract each other with a force of 1.77 N. The objects are brought into contact, so the net charge is shared equally, and then they are returned to their initial positions. Now it is found that the objects repel one another with a force whose magnitude is equal to that of the initial attractive force. What is the initial charge on each object, the answer to part (a) being the one with the greater (and positive) value?
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Two objects are identical and small enough that their sizes can be ignored relative to the distance between them, which is 0.257 m. In a vacuum, each object carries a different charge, and they attract each other with a force of 1.77 N. The objects are brought into contact, so the net charge is shared equally, and then they are returned to their initial positions. Now it is found that the objects repel one another with a force whose magnitude is equal to that of the initial attractive force. What is the initial charge on each object, the answer to part (a) being the one with the greater (and positive) value?
(a) | Units |
N/mN/C°N·m^2/CμCN·m
|
(b) | Units |
N/mN/C°N·m^2/CμCN·m
|
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