In the rectangle in Figure, the sides are 5.0 cm and 15 cm long, q1 = -5.0 uC, and q2 = +2.0 uC. With V = 0 at infinity, %3D B 92 c. How much work is required to move a charge q3 = +3.0 C from B to A along the diagonals of the rectangle? d. Does this work increase or decrease the electric potential energy of the three- charge system? e. What is the work required if q3 is moved along a path that is inside the rectangle but not on a greater, lesser, or equal diagonal? f. What is the work required if q3 is moved along the path outside the rectangle is 2/6 greater, less, or equal?
In the rectangle in Figure, the sides are 5.0 cm and 15 cm long, q1 = -5.0 uC, and q2 = +2.0 uC. With V = 0 at infinity, %3D B 92 c. How much work is required to move a charge q3 = +3.0 C from B to A along the diagonals of the rectangle? d. Does this work increase or decrease the electric potential energy of the three- charge system? e. What is the work required if q3 is moved along a path that is inside the rectangle but not on a greater, lesser, or equal diagonal? f. What is the work required if q3 is moved along the path outside the rectangle is 2/6 greater, less, or equal?
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Transcribed Image Text:In the rectangle in Figure, the sides are 5.0
cm and 15 cm long, q1 = -5.0 uC, and q2 =
+2.0 uC. With V = 0 at infinity,
%3D
%3D
B
42
c. How much work is required to move a
charge q3 = +3.0 C from B to A along the
diagonals of the rectangle?
d. Does this work increase or decrease the
electric potential energy of the three-
charge system?
e. What is the work required if q3 is
moved along a path that is inside the
rectangle but not on a greater, lesser, or
equal diagonal?
f. What is the work required if q3 is moved
along the path outside the rectangle is
2/6
greater, less, or equal?
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