Note: If a conducting uncharged material is brought in contact with a charged surface then the charges are shared uniformly between the two bodies.

Given: Charge on sphere 1, q₁ = 6.5 × 10^-7 C

Charge on sphere 2, q₂ = 6.5 × 10^-7 C

Charge on sphere 3, q₃ = 0

Step 1: The uncharged sphere is brought in contact with sphere 1. Since sphere 1 has charge ‘q’, it gets distributed among sphere 1 and sphere 3.

Now, charge on sphere 1 = q/2

Charge on sphere 2 = q/2

At this point the sphere 3 which was initially uncharged has a charge “q/2”.

Step 2: Now sphere 3 is brought in contact with sphere 2 due to which 1/4 × q will flow from sphere 2 to sphere 3. Now sphere 2 and sphere 3 have “3/4 × q” charge.

Now, q₁ = 1/2 × 6.5 × 10^-7 C

⇒ 3.25 × 10^-7 C

q₂ = 3/4 × 6.5 × 10^-7 C

⇒ 4.87 × 10^-7 C

q₃ = 3/4 × 6.5 × 10^-7 C

⇒ 4.87 × 10^-7 C

We know that,

…(1)

Where, F= mutual force of attraction

q₁ = charge on sphere 1

q₂ = charge on sphere 2

r = distance between centres

Where, ε₀ is the permittivity of the free space.

Plugging the values of q₁, q₂ and r in equation (1), we get

⇒

⇒ F = 5.703 × 10^-3 N

The repulsive force between sphere 1 and sphere 2 is 5.703 × 10^-3 N.