Similar situation to the previous question, but now the object s mass is 25.8 kg and you initially put the boxes of protons and electrons 36 m apart. Now you want to take the two boxes and move them farther apart, to a new distance of 90 m apart. How much work (that is, energy) would you have to expend to pull the boxes that much farther apart, fighting against the electrostatic attraction between them?
Similar situation to the previous question, but now the object s mass is 25.8 kg and you initially put the boxes of protons and electrons 36 m apart. Now you want to take the two boxes and move them farther apart, to a new distance of 90 m apart. How much work (that is, energy) would you have to expend to pull the boxes that much farther apart, fighting against the electrostatic attraction between them?
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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Answer the second question.use first question as a reference
Transcribed Image Text:This time your object has a mass of
72.7 kg. You separate the protons
and electrons into two boxes like in
the previous question. You place the
boxes at a distance of 49 m apart
from one another. How much force
attracts the two boxes to one
another?
Transcribed Image Text:Similar situation to the previous
question, but now the object s mass
is 25.8 kg and you initially put the
boxes of protons and electrons 36
m apart. Now you want to take the
two boxes and move them farther
apart, to a new distance of 90 m
apart. How much work (that is,
energy) would you have to expend
to pull the boxes that much farther
apart, fighting against the
electrostatic attraction between
them?
9.16E+26 J
1.15E+26 J
2.29E+26 J
4.58E+26 J
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