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Question

Two identical metal balls with charges +2Q and -Q are separated by the same distance, and exert a force F on each other. They are joined by a conducting wire, which is then removed. The magnitude of the force between them will now be

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Solution

Step 1: Given that:

The charge on the first metallic ball = +2Q

Charge on second metallic ball = Q

The force exerted by both on each other = F

Step 2: Formula used:

According to Coulomb's law;

The force between two point charges separated by a small distance is given by;

F=keq1q2r2

Where q1 and q2 are the two charges and r is the distance between them.

When two charged bodies are brought in contact, the charges are distributed on the bodies in such a way that the charges on both bodies become equal.

Step 3: calculation of the force F between the given charges:

F=ke2Q×Qr2

F=ke2Q2r2..........(1)

Step 4: Calculation of the force between the charged bodies when they are brought in contact:

When both the bodies are borough in contact, the charge on each will be;

q1=q2=+2QQ2=Q2

Therefore the force F' between them will be;

F=keQ2×Q2r2

F=keQ24r2 ..........(2)

Now,

By dividing equation 2) from equation 1) we get

FF=keQ24r2ke2Q2r2

FF=keQ24r2×r2ke2Q2

FF=18

F=F8

Thus,

The magnitude of the force will now be F8 .


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