Potential difference: positive or negative?

In summary, the potential difference between two points is determined by the electric field and the path connecting them, and is independent of the test charge used. However, the electric field at a point is defined as the force exerted on a positive test charge, and using a negative test charge may result in a different sign for the potential difference.
  • #1
gracy
2,486
83
Why potential at a point can only be obtained by supposing/assuming a positive test charge there?
For example
There was a question
In figure two points A and B are located in a region of electric field.,The potential difference ##VB##-##VA## is
1-positive
2-Negative
3-zero
4-none of the above
the answer is 2-Negative
Apparently the source charge is positive
O.png

we will only get the answer to be 2-Negative when we would assume positive test charge but if we assume negative test charge at A &B we are going to get answer 1-positive.So is it like we are bound to assume positive charge at points mentioned in question to get whether potential difference is positive or negative?
 
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  • #2
Yes. The "test charge" is always positive, by definition.
 
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  • #3
The figure shows the electric field lines.
How is the electric field at a point defined?
 
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  • #4
ehild said:
How is the electric field at a point defined?
Force per unit charge.
The electric field
5eb237ccb8c2716d347ab313cad7918e.png
at a given point is defined as the (vectorial) force
183083a13a40d344ebc290a84579b0c3.png
that would be exerted on a stationary test particle of unit charge by electromagnetic forces
 
  • #5
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  • #6
And we are told to put negative charge there(in electric field ) in that case we can ,right?
 
  • #7
gracy said:
And we are told to put negative charge there(in electric field ) in that case we can ,right?
You can put a negative charge into any electric field. Do it. And what do you do after?
 
  • #8
ehild said:
You can put a negative charge into any electric field.
But it can not be called "test charge",right?
 
  • #9
Correct. A test charge is always positive.
 
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  • #10
The potential difference between points A and B (or any two points) does not depend on the test charge used. The relation is standard

V_B - V_A = - \int_A^B \overrightarrow{E}.d\overrightarrow{s}

You can use a negative or positive test charge and multiply both sides of the above relation with the charge. The equation will change to a relation between the difference of potential energies, and the work done by the electrostatic force. In case my Latex is not clear, there is a dot product between the electric field and the infinitesimal displacement in the integral, and the integral is over any path joining points A and B. It does not matter whether you "call" it a test charge or not. The fact is that you can use either positive or negative charges.
 

Related to Potential difference: positive or negative?

1. What is potential difference?

Potential difference, also known as voltage, is the difference in electric potential between two points in an electric circuit. It is measured in volts (V).

2. How is potential difference calculated?

Potential difference is calculated by dividing the work done (in joules) by the amount of charge (in coulombs) that moves between two points in the circuit. This is represented by the equation V = W/Q.

3. What does a positive potential difference mean?

A positive potential difference means that the electric potential is higher at one point compared to another point in the circuit. This indicates that electric current will flow from the higher potential point to the lower potential point.

4. What does a negative potential difference mean?

A negative potential difference means that the electric potential is lower at one point compared to another point in the circuit. This indicates that electric current will flow from the lower potential point to the higher potential point.

5. How does potential difference affect electric current?

Potential difference is directly proportional to the electric current flowing through a circuit. This means that as the potential difference increases, the electric current also increases, and vice versa. This relationship is represented by Ohm's Law: I = V/R, where I is the current, V is the potential difference, and R is the resistance in the circuit.

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