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26 votes
Calculate the electric potential energy on the center of the square of the arrangement described as follows: Four charges are placed at the corners of a 11.36 cm square. The particles are as follows: 10.46 microC at x =0, y = 0, -11.34 microC at x = 11.36, y = 0, -16.6 microC at x = 11.36, y = 11.36, and 14.95 microC at x=0 and y = 11.36.

User Jeaf Gilbert
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1 Answer

15 votes
15 votes

Our arrange looks like the following:

The potential energy in each individual point is given by:


E_p=k(Q)/(d)

As all points have the same distance from the center of the square, we can calculate a single distance. We'll need the pythagorean theorem in order to calculate the distance. It can be written as the following


c^2=a^2+b^2

Then we can calculate this using half the side of the square. We get


c^2=5.68^2+5.68^2

By isolating c we can find


c=\sqrt[2]{5.68^2+5.68^2}=8.03cm

This is the distance from each vertex to the center

We also need to take into account the fact that the total potential energy is the sum of potential energies


E_p=E_A+E_B+E_C+E_D

It can then be written as


E_p=k((q_1)/(d)+(q_2)/(d)+(q_3)/(d)+(q_4)/(d))

Which, once we plug our values in, yields:


E=(9*10^9)(((10.46-11.34-16.6+14.95)*10^(-6))/(8.03*10^(-2)))=-283561.6438J

Thus, our final answer is 283561.6438J

Calculate the electric potential energy on the center of the square of the arrangement-example-1
User Neha Sharma
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2.4k points