A radius insulator ball RA = 2 cm charged +2Q. ball is in the same manner as the hollow conductor ball loaded –3Q with radius in RB = 4 cm and rc outer radius = 6 cm a. Using the Gauss Law, calculate the strength of the electric field in the points L, M, and N b. Calculate the electrical potential at the point rL = 3 cm and rM = 5 cm.
A radius insulator ball RA = 2 cm charged +2Q. ball is in the same manner as the hollow conductor ball loaded –3Q with radius in RB = 4 cm and rc outer radius = 6 cm a. Using the Gauss Law, calculate the strength of the electric field in the points L, M, and N b. Calculate the electrical potential at the point rL = 3 cm and rM = 5 cm.
Chapter7: Electricity
Section: Chapter Questions
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A radius insulator ball RA = 2 cm charged +2Q. ball is in the same manner as the hollow conductor ball loaded –3Q with radius in RB = 4 cm and rc outer radius = 6 cm
a. Using the Gauss Law, calculate the strength of the electric field in the
points L, M, and N
b. Calculate the electrical potential at the point rL = 3 cm and rM = 5 cm.
Transcribed Image Text:• N
RA
RB
+2Q
Rc
-3Q
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