4 identical point charges on a rectangle's corners

AI Thread Summary
The discussion revolves around calculating the net electric force on a point charge located at the lower left corner of a rectangle, with four identical charges positioned at each corner. The rectangle's dimensions are 60.0 cm by 15.0 cm, and each charge is +10.0 µC. To find the net force, users are advised to apply Coulomb's law, considering the forces exerted by the other three charges. The forces from two charges will be perpendicular, and the force from the third charge should be resolved into components along the rectangle's sides. The final step involves calculating the vector sum of these forces to determine the resultant force acting on the charge.
S.U.S
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hi ,, I'm having this problem that i tried to solve but I couldn't so if anyone could help with EXPLANATION I would be greatful

Homework Statement



Four identical point charges (q = +10.0 µC) are located on the corners of a rectangle. The dimensions of the rectangle are L = 60.0 cm and W = 15.0 cm. Calculate the magnitude and direction of the net electric force exerted on the charge at the lower left corner by the other three charges.


Homework Equations



coulomb's law

The Attempt at a Solution



I couldn't really :cry:


P.S : I'm not an english native speaker so if there is any thing wrong above please forgive me

thanks
 
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Hi S.U.S. welcome to PF.
If A B C and D are the corners of the rectangle, then using coulomb's law, find the force on D by A, B and C. Forces due to A and C are perpendicular to each other. Resolve force on D due to B into two component. One along AD and another along CD. Find the net forces along these two directions and then find the resultant force.
 
yes, the vector sum of the 3 forces is what you want.
(Perhaps you will be surprised to see how large that resultant force is!)
 
thanks ,, I'll try and tell you what happens
 
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