#3 Kinetic Energy at Large Distances In the case of #2, suppose the charges both simultaneoulsy break free and accelerate, becoming very far away from each other (i.e. in- finitely far for our purposes here). What is the kinetic energy per charge? A. 0.109 J B. 0.225 J C. 0.327 J K.E= 0.450J 0.225J D. 0.450 J #4 Kinetic Energy at Large Distances Keeping in mind that kinetic energy is: K = Mv² where M is the mass in kilograms and v the velocity magnitude, what velocity is acquired by each charge in #2 and #3? Assume the initial charge configuration is at rest. A. 3.12 m/s B. 5.61 m/s C. 9.49 m/s D. 13.4 m/s O000
#3 Kinetic Energy at Large Distances In the case of #2, suppose the charges both simultaneoulsy break free and accelerate, becoming very far away from each other (i.e. in- finitely far for our purposes here). What is the kinetic energy per charge? A. 0.109 J B. 0.225 J C. 0.327 J K.E= 0.450J 0.225J D. 0.450 J #4 Kinetic Energy at Large Distances Keeping in mind that kinetic energy is: K = Mv² where M is the mass in kilograms and v the velocity magnitude, what velocity is acquired by each charge in #2 and #3? Assume the initial charge configuration is at rest. A. 3.12 m/s B. 5.61 m/s C. 9.49 m/s D. 13.4 m/s O000
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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Transcribed Image Text:#2 Electric Potential Energy Two 1.00 × 10–6 C charges with masses each of 0.005 kg
are separated by 0.02 m. What is the electrostatic potential energy of the configuration?
Recall that:
1 Q.Q2
U =
4T€0 R
where R is the separation among the two charges.
А. 0.125 J
B. 0.224 J
C. 0.349 J
D. 0.450 J
0000
Transcribed Image Text:#3 Kinetic Energy at Large Distances In the case of #2, suppose the charges both
simultaneoulsy break free and accelerate, becoming very far away from each other (i.e. in-
finitely far for our purposes here). What is the kinetic energy per charge?
K.E= 0.450J
A. 0.109 J
I. 225J
B. 0.225 J
C. 0.327 J
D. 0.450 J
#4 Kinetic Energy at Large Distances Keeping in mind that kinetic energy is:
K
where M is the mass in kilograms and v the velocity magnitude, what velocity is acquired
by each charge in #2 and #3? Assume the initial charge configuration is at rest.
A. 3.12 m/s
B. 5.61 m/s
C. 9.49 m/s
D. 13.4 m/s
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