Point Charges: Finding Force on Q_2 - Solved Homework Problem

AI Thread Summary
The problem involves calculating the force on charge Q_2, located at a rectangle's corner with three other +3.00 μC charges. The calculated force on Q_2 is 1.05 N at an angle of 68.5 degrees. The solution involves vector addition, accounting for forces in both the i and j directions. The force from the charge at the opposite corner requires using Pythagorean theorem to find the radius, followed by resolving the force into components. The calculations provided are confirmed to be correct.
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Homework Statement


The four point charges, each of + 3.00 μC, are situated at the corners of a rectangle of length, b = 60.0 cm and width, a = 30.0 cm.

Find the magnitude and direction of the force on q2, due to the other charges.
Solved this but i needed someone to check it for me because its worth marks.


Homework Equations





The Attempt at a Solution


The force on Q_2 is 1.05N and the direction is 68.5 degrees
 
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i am not sure if anyone would work out the calculations and verify the result.
but if you show all your calculations, someone might check them.

this problem is pretty simple vector addition & you've got to be sure about your calculations.
 
Hey graphene sorry I meant to put my procedure in... basically there is one force in the i direction and 1 in the j - both from a 3 uC charge. The one that is slightly difficult (not really but compared to the others) is the one that sits on the opposite corner and affects both the i and j cmpts. For this I found the radius using p's theorem and then found the force - then I split that up by Fcos(theta)i+Fsin(theta)j. then I added the i and j cmpts and resolved again. can you please tell me if this is right? thanks
 
yes, that's the way to do it.
 
thanks graphene
 

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