Three +5 µC charges form an equilateral triangle with sides of length 20cm. One charge is located at the origin, and the second charge is located on the +y axis. Calculate the vector force on the third charge, assuming that q3 is located in Quadrant 1. 93 the 3-charge distribution. distribution. calculate the electric potential energy of a 4 nC charge placed at the geometric center of tem, calculate the resultant electric field vector at the geometric center of the charge
Three +5 µC charges form an equilateral triangle with sides of length 20cm. One charge is located at the origin, and the second charge is located on the +y axis. Calculate the vector force on the third charge, assuming that q3 is located in Quadrant 1. 93 the 3-charge distribution. distribution. calculate the electric potential energy of a 4 nC charge placed at the geometric center of tem, calculate the resultant electric field vector at the geometric center of the charge
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![Three +5 µC charges form an equilateral triangle with sides of length 20cm. One charge is located at the origin,
and the second charge is located on the +y axis. Calculate the vector force on the third charge, assuming that q3 is
located in Quadrant 1.
93
H
the 3-charge distribution.
calculate the electric potential energy of a 4 nC charge placed at the geometric center of
distribution.
item, calculate the resultant electric field vector at the geometric center of the charge](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F3738e16a-10fd-4378-b4a3-b8733d2d5bb5%2Fdf017b26-dc30-4647-b6d8-8c404051a2f4%2Fciwrmp9_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Three +5 µC charges form an equilateral triangle with sides of length 20cm. One charge is located at the origin,
and the second charge is located on the +y axis. Calculate the vector force on the third charge, assuming that q3 is
located in Quadrant 1.
93
H
the 3-charge distribution.
calculate the electric potential energy of a 4 nC charge placed at the geometric center of
distribution.
item, calculate the resultant electric field vector at the geometric center of the charge
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