Electrostatic Potential in Electric Fields

AI Thread Summary
The discussion centers on calculating the electrostatic potential and electric field at the center of a square formed by four charged particles in two different arrangements. In Arrangement 1, with charges of the same sign at opposite corners, the potential and electric field at the center are determined to be zero due to cancellation. For Arrangement 2, where positive and negative charges are positioned on opposite sides, participants discuss how to calculate the electric field strength using vector analysis and the Pythagorean theorem. The correct distance from the center to each charge is clarified as r = sqrt(s/2). The conversation emphasizes the importance of visualizing electric field vectors to understand their interactions.
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Homework Statement


1. Four charged particles are held fixed at the corners of a square of side s. All the charges have the same magnitude Q, but two are positive and two are negative. In Arrangement 1, shown below, charges of the same sign are at opposite corners. Express your answers to parts a and b in terms of the given quantities and fundamental constants.
a. For Arrangement 1, determine the following.
i. The electrostatic potential at the center of the square
ii. The magnitude of the electric field at the center of the square
2160792296_e2f3df4057_o.gif


2. The bottom two charged particles are now switched to form Arrangement 2, shown below, in which the positively charged particles are on the left and the negatively charged particles are on the right.
b. For Arrangement 2, determine the following.
i. The electrostatic potential at the center of the square
ii. The magnitude of the electric field at the center of the square
2160017175_a892b8f135_o.gif



Homework Equations


V = PE / q


The Attempt at a Solution


1) I am thinking the the potential at the center, as well as the electric field strength, is zero, since the positives and negatives cancel each other out.
 
Physics news on Phys.org
Arrangement 1: Correct!

Electric field strength is a vector or a scalar?
 
vector; I am not sure how to express my answer for arrangement 2 with the variables (i get frightened without numbers!)
Thanks
 
Plot 4 vectors, one for every electric field strength. The magnitude of each field is

E=k\,\frac{|Q|}{r^2}

can you calculate the distance r, from the enter to each charge?
 
using the Pythagorean theorem, would r = sqrt(1/2) x s ? or am i going in the completely wrong direction? its really hard to focus on this stuff during christmas break :)
 
Actually r=\sqrt{\frac{s}{2}} since it's side is s.

Did you plot the vectors at the center?
 
yes, would it be like this? (attached .gif)
Picture 1.gif
 
If there are 4 vectors, two pointing at the one -Q charge and two more pointing at the other -Q charge it is correct!

I can't see the attachment yet! :smile:
 

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