Voltage at Halfway Point Between Point Charges in an Equilateral Triangle

AI Thread Summary
The discussion centers on calculating the voltage at a point halfway between two point charges in an equilateral triangle configuration. The charges are +Q, +2Q, and -4Q, with a side length of L. The voltage is derived using the formula Vnet = V1 + V2 + V3, where the individual voltages are calculated based on their respective distances. There is some confusion regarding the distance used in the calculations, particularly for the -4Q charge, with participants correcting each other on the use of L and cos(30). The final expression for the net voltage is simplified to Vnet = kQ[(2/L) + (4/L) - (4cos30/L)].
rissa_rue13
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Homework Statement


There is an equilateral triangle with one point charge at each vertex. The point charges have charges of +Q, +2Q, and -4Q. The length of one side of the triangle is L. Determine an expression in simplest form for the voltage at a point halfway between the +Q and +2Q point charges.

Homework Equations


V=kQ/r
Vnet=V1+V2+V3

The Attempt at a Solution


Going off of Vnet=V1+V2+V3:
Vnet= (kQ/r) + (k2Q/r) - (k4Q/r)
I think once substituting the values for L in place of r, you get:
Vnet= (kQ/(L/2)) + (k2Q/(L/2)) - (k4Q/Lcos30)
Am I heading in the right direction?
 
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Yes, that looks good.
 
I think I made a mistake, I think it should be:
Vnet= (kQ/(L/2)) + (k2Q/(L/2)) - (k4Q/(L/cos 30))

This can then be simplified:
Vnet=kQ[(2/L)+(4/L)-(4cos30/L)]

Am I on the right track?
 
rissa_rue13 said:
I think I made a mistake, I think it should be:
Vnet= (kQ/(L/2)) + (k2Q/(L/2)) - (k4Q/(L/cos 30))

This can then be simplified:
Vnet=kQ[(2/L)+(4/L)-(4cos30/L)]

Am I on the right track?

The distance from the far vertex is L(cos 30). I think you were right the first time.
 

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