STATEMENT -1 : Induced charge does not contribute to electric field or potential at a give point .
STATEMENT -2 : A point charge `q_0` is kept outside a solid metallic sphere , the electric field inside the sphere is zero.

A sphere carries a uniformly distributed electric charge. Prove that the field inside the sphere is zero

A point charge is brought in an electric field. The electric field at a near by point

STATEMENT - 1 : For a current carrying wire, there is an electric field inside the wire and magnetic field outside the wire. and STATEMENT - 2 : A current carrying wire cannot generate an electric field outside it.

STATEMENT-2 : An isolated neutral conductor is given some charge . As it is being charged, an electric field appears in the conductor. and STATEMENT -2 : Under static conditions, the net electric field inside a conductor is zero.

A point positive charge is brought near an isolated conducting sphere as shown in figure the electric field is best given by

A point positive charge is brought near an isolated conducting sphere as shown in figure the electric field is best given by

A point positive charge is brought near an isolated conducting sphere as shown in figure the electric field is best given by

An electric dipole is kept in the electric field produced by a point charge

STATEMENT-1 : At a point electrostatic field is zero, then potential at that point may be zero . and STATEMENT-2 : Negative of the potential gradient is equal to electrostatic field.

A charge +Q at A as shown produces electric field E and electric potential V at D. If we now put charges - 3 Q and +Q at B and C, respectively, then the electric field and potential at D will be .