Answer:
The third charge is placed at a distance of 1.88 cm from the centre of 60 micro coulombs charge to the right of it.
Explanation:
Given:
Distance between the centre of insulators=d=2.5 cm
Charge on insulator(1`)= 60 [tex]\rm \mu C[/tex]
Charge on insulator(2`)= 6.66 [tex]\rm \mu C[/tex]
Let third charge be placed at a distance of x xm from the centre of 60 [tex]\rm \mu C[/tex] charge.
Now according to coulombs law the force between tow charges placed at distance r is given by
[tex]F=\dfrac{kQ_1Q_2}{r^2}[/tex]
Let magnitude of third charge be q and it placed at a distance of x from higher magnitude charge. According to question the net force on third charge is zero so we have
[tex]\dfrac{kQ_1q}{x^2}-\dfrac{kQ_2q}{(d-x)^2}=0\\\dfrac{k\times 60 q}{x^2}-\dfrac{k6.66q}{(2.5-x)^2}=0\\\\x=0.75\times d\\\\x=0.75\times 2.5\\\\x=1.88\ \rm cm[/tex].
Hence the position of third charge is calculated in order to be rest.
