A charged sphere in static equilibrium is resting on a horizontal surface. Directly above it is another charged sphere (also in static equilibrium) that is hanging from a string. The 4 kg red sphere has more charge than the 41 kg green sphere. The total charge magnitude on the spheres is 268 μC & they have the same polarity. As a result the tension is 114 N & the centers of the spheres are 0.74 m apart. Determine the charge magnitude on each sphere. Qred (bigger charge) = = = Qgreen (smaller charge) =
A charged sphere in static equilibrium is resting on a horizontal surface. Directly above it is another charged sphere (also in static equilibrium) that is hanging from a string. The 4 kg red sphere has more charge than the 41 kg green sphere. The total charge magnitude on the spheres is 268 μC & they have the same polarity. As a result the tension is 114 N & the centers of the spheres are 0.74 m apart. Determine the charge magnitude on each sphere. Qred (bigger charge) = = = Qgreen (smaller charge) =
Physics for Scientists and Engineers: Foundations and Connections
1st Edition
ISBN:9781133939146
Author:Katz, Debora M.
Publisher:Katz, Debora M.
Chapter23: Electric Forces
Section: Chapter Questions
Problem 51PQ: Four equally charged particles with charge q are placed at the comers of a square with side length...
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A charged sphere in static equilibrium is resting on a horizontal surface. Directly above it is another charged sphere (also in static equilibrium) that is hanging from a string. The 4 kg red sphere has more charge than the 41 kg green sphere. The total charge magnitude on the spheres is 268 µC & they have the same polarity. As a result the tension is 114 N & the centers of the spheres are 0.74 m apart. Determine the charge magnitude on each sphere.
Qred (bigger charge) =
Qgreen (smaller charge) =
![A charged sphere in static equilibrium is resting on a horizontal surface. Directly above it is another charged sphere (also in
static equilibrium) that is hanging from a string. The 4 kg red sphere has more charge than the 41 kg green sphere. The total
charge magnitude on the spheres is 268 μC & they have the same polarity. As a result the tension is 114 N & the centers of the
spheres are 0.74 m apart. Determine the charge magnitude on each sphere.
Qred (bigger charge) =
=
=
Qgreen (smaller charge) =](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F51cd1389-c5ae-49ea-9293-6be640b63f38%2F85953bb8-cdcf-45fd-85b9-58afea1b083b%2Fkn2vyt9_processed.png&w=3840&q=75)
Transcribed Image Text:A charged sphere in static equilibrium is resting on a horizontal surface. Directly above it is another charged sphere (also in
static equilibrium) that is hanging from a string. The 4 kg red sphere has more charge than the 41 kg green sphere. The total
charge magnitude on the spheres is 268 μC & they have the same polarity. As a result the tension is 114 N & the centers of the
spheres are 0.74 m apart. Determine the charge magnitude on each sphere.
Qred (bigger charge) =
=
=
Qgreen (smaller charge) =
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