A ring with a uniform charge Q are radius R, is placed in the yz- plane with its centre at the origin. The field intensity at

A current carrying circular loop of radius R is placed on the xy place with centre at the origin . Half of the loop with xgt0 is now bent so that it now lies on the yz plane .

A circular copper ring of radius r, placed in vacuum, has charge q on it. The electric field intensity at the centre of the ring is E_(1) . The electric field intensity on the axis of the ring at a distance x from its centre is E_(2) . The value of E_(2) will be maximum when x=x' What is the value of E_(1) ?

A circular copper ring of radius r, placed in vacuum, has charge q on it. The electric field intensity at the centre of the ring is E_(1) . The electric field intensity of the axis of the ring at a distance x from its centres is E_(2) . The value of E_(2) will be maximum when x=x' What is the value of E_(2) ?

A circular copper ring of radius r, placed in vacuum, has charge q on ti. The electric field intensity at the centre of the ring is E_(1) . The electric field intensity of the axis of the ring at a distance x from its centres is E_(2) . The value of E_(2) will be maximum when x=x' What is the value of x' ?

Two thin wire rings each having a radius R are placed at a distance d apart with their axes coinciding. The charges on the two rings are +q and -q . The potential difference between the centres of the two rings is

The variation of electric field along the Z-axis due to a uniformly charged circular ring of radius 'a' in XY plane is shown in the figure. The value of coordinate M will be

The line charge density of a semicircular ring of radius R is lambda . Find electric field intensity at the centre of the ring. What is the total charge of an electric dipole?

A ring of radius R carries a uniformly distributed charge + Q. A point charge - q is placed on the axis of the ring at a distance 2R from its centre and than released. Will the charge -q execute a simple harmonic motion along the axis of the ring ?

A thin spherical shel of radius R is charged with +q amount of charge. Use Gauss' law to find out the magnitude of the intensity of the electric field at a distance r from the centre of the shel, where (a) rlt R and(b) r gtR (ii) Show graphically how the magnitude of the intensity of the electric field changes with distance r from thke centre of the shell.

A conducting loop in the form of a circle is placed in a uniform magnetic field with its plane perpendicular to the direction of the field. An emf will be induced in the loop if