A ring of charge with radius `0.5m` has `0.002 pi` m gap. If the ring carries a charge of `+1 C` the electric field at the center is

A ring of charge with radius 0.5m has 0.002 pi m gap. If the ribg carries a charge of +1 C the electric field at the center is

A semicircular ring of radius 0.5 m is uniformly charged with a total charge of 1.5 xx 10^(-9) coul. The electric potential at the centre of this ring is :

A ring of radius 0.1m is made out of thin metallic wire of area of cross section 10^(-6)m^(2) . The ring has a uniform charge of pi coulombs. Find the change in the radius of the rig when a charge of 10^(-8)C is placed at the center of the ring. Young's modulus of hte metal is 2xx10^(11)Nm^(-2) .

A conducting ring of mass 2kg and radius 0.5m is placed on a smooth plane. The ring carries a current of i=4A . A horizontal magnetic field B=10 T is switched on at time t=0 as shown in fig The initial angular acceleration of the ring will be .

A conducting ring of mass 2kg and radius 0.5m is placed on a smooth plane. The ring carries a current of i=4A . A horizontal magnetic field B=10 T is switched on at time t=0 as shown in fig The initial angular acceleration of the ring will be .

A nonconducting ring of radius R has uniformly distributed positive charge Q. A small part of the ring.of length d, is removed (d lt lt R) . The electric field at the centre of the ring will now be

A thin spherical shell of metal has a radius of 0.25 m and carries charge of 0.2 micro coulomb. Calculate the electric intensity at 3.0 m from the centre of the shell.

Two pieces of plasitic a full ring and a half ring, have the same radius and chage density. Which electric field at the center has the greater magnitude? Define your answer.

A thin conducting ring of radius R is given a charge +Q , Fig. The electric field at the center O of the ring due to the charge on the part AKB of the ring is E . The electric field at the center due to the charge on part ACDB of the ring is

Charge q is uniformly distributed over a thin half ring of radius R . The electric field at the centre of the ring is