A small object with a charge of q = 15.0 µC travels from the origin to the point (x, y) = (20.0 cm, 50.0 cm) in the presence of a uniform electric field É = 220î V/m. Determine the following.(a) the change in the electric potential energy (in J) of the object-field system0.0006How is the change in electric potential energy of the charge related to the work done on the charge by the conservative force? Write the force acting on the charge and the displacementconstant, how can you determine the work done on the charge? J(b) the electric potential difference (in V) through which the object moves-40How is the electric potential difference related to the electric potential energy? Knowing the change in electric potential energy from part (a) and the charge, how can you determine the e

Given: The initial position is 0 m and final position is 0.2,0.5 m q=12μCE→=280i^Vm

Answered: inge in electric potential energy of…

inge in electric potential energy of the charge related to the work done on the charge can you determine the work done on the charge? J tential difference (in V) through which the object moves

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Question

A small object with a charge of q = 15.0 µC travels from the origin to the point (x, y) = (20.0 cm, 50.0 cm) in the presence of a uniform electric field É = 220î V/m. Determine the following.
(a) the change in the electric potential energy (in J) of the object-field system
0.0006
How is the change in electric potential energy of the charge related to the work done on the charge by the conservative force? Write the force acting on the charge and the displacement
constant, how can you determine the work done on the charge? J
(b) the electric potential difference (in V) through which the object moves
-40
How is the electric potential difference related to the electric potential energy? Knowing the change in electric potential energy from part (a) and the charge, how can you determine the e

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