Electric Field and Potential Calculation for Square of Charges | Coulomb's Law

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The discussion focuses on calculating the electric field and potential at the center of a square formed by four point charges. The electric field was calculated to be 76.3 x 10^3 NC^-1 directed upward. For the electric potential, the initial attempt yielded a value that was one-third of the expected result, prompting a request for clarification on the calculation method. It was suggested to use the definition of electric potential as the work done per charge from infinity to the center, emphasizing that voltage is a scalar quantity. The conversation highlights the importance of correctly applying Coulomb's law and understanding the principles of electric fields and potentials.
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Homework Statement


Four point charges are placed at the corners of a square of side 1m as shown in Fig 18.54 Find
a) the electric field, and
b) the electric potential at the center of the square

Photo is attached

Homework Equations


coulomb's law
Ans of a=76.3 x 10^3 NC^-1 upward
Ans of b=-25.4x 10^3 V

The Attempt at a Solution


I can do part a by 2x(2/10^6)x2x8.99x10^9xsin45 + 2x(2/10^6)x8.99x10^9xsin45=76.3 x 10^3 NC^-1 upward.
I just attempted b part by 2x(2/10^6)xroot2x8.99x10^9xsin45 + 2x(1/10^6)xroot2x8.99x10^9xsin45
because V=ED I just multiply each term by its length 1/root2 from the center.
But the answer seems to be one third of the answer from part a, please teach me how to do.
 

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Try doing it from the definition of the electric potential.
 
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Use the definition: work done per charge from infinity to the center?
 
Clara Chung said:
Use the definition: work done per charge from infinity to the center?
That will work. Potential at a point at a distance r due to a charge q is kq/r. You can add and subtract potentials aglebraically.
 
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Thanks I forget that voltage is scalar
 
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Well done.
 

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