What is the electric potential at points A and B?

AI Thread Summary
The discussion focuses on calculating the electric potential at points A and B using the formula V=kQ/r. A participant attempted to solve for the potentials at both points but expressed uncertainty due to absence from class. It was clarified that the total potential at a point is the sum of the potentials from all relevant charges, as potential is a scalar quantity. The correct approach involves calculating the contributions from each charge separately and then adding them together for both points. This method ensures an accurate determination of the electric potential at the specified locations.
Cauchemar
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Homework Statement


They're in the attachment

Homework Equations


V=kQ/r

The Attempt at a Solution


I was absent during this class,so I have no idea,but I attempted question a which is the potential at point a,b
Point a=(9*10^9 * 10*10^-6/0.2)
Point B=(9*10^9 * -8*10^-6/0.3)
 

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Cauchemar said:

Homework Statement


They're in the attachment

Homework Equations


V=kQ/r

The Attempt at a Solution


I was absent during this class,so I have no idea,but I attempted question a which is the potential at point a,b
Point a=(9*10^9 * 10*10^-6/0.2)
Point B=(9*10^9 * -8*10^-6/0.3)
Don't you think the potential at a given point would be a function of all of the charges?
 
The potential is a scalar quantity. Simply find the potential due to A, the potential due to B, and add them up. Here is an algebraic solution:

We know that ##V = \frac{kQ}{r}##. So, ##V_A## will be given by $$V_A = \frac{kQ_1}{r_1} + \frac{kQ_2}{r_2}$$, where ##r_1## and ##r_2## are the distances between the point charges. Do the same for part B.
 

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