359392 The electrostatic potential due to an electric dipole at a distance ' \(r\) ' varies as

359393 The electric potential inside a conducting sphere

359394 Twenty seven drops of same size are charged at 220 \(V\) each. They combine to form a bigger drop. Calculate the potential of the bigger drop.

359395 A spherical conducting shell is connected to earth with the help of a switch \(S\). Initially the switch is open and a point charge \({q_0}\) is present at a distance x from the centre of the sphere. Now the charge starts moving with speed \(v\) and the switch is closed simultaneously. Find the current passing through the switch.

359392 The electrostatic potential due to an electric dipole at a distance ' \(r\) ' varies as

359393 The electric potential inside a conducting sphere

359394 Twenty seven drops of same size are charged at 220 \(V\) each. They combine to form a bigger drop. Calculate the potential of the bigger drop.

359395 A spherical conducting shell is connected to earth with the help of a switch \(S\). Initially the switch is open and a point charge \({q_0}\) is present at a distance x from the centre of the sphere. Now the charge starts moving with speed \(v\) and the switch is closed simultaneously. Find the current passing through the switch.

359392 The electrostatic potential due to an electric dipole at a distance ' \(r\) ' varies as

359393 The electric potential inside a conducting sphere

359394 Twenty seven drops of same size are charged at 220 \(V\) each. They combine to form a bigger drop. Calculate the potential of the bigger drop.

359395 A spherical conducting shell is connected to earth with the help of a switch \(S\). Initially the switch is open and a point charge \({q_0}\) is present at a distance x from the centre of the sphere. Now the charge starts moving with speed \(v\) and the switch is closed simultaneously. Find the current passing through the switch.

359392 The electrostatic potential due to an electric dipole at a distance ' \(r\) ' varies as

359393 The electric potential inside a conducting sphere

359394 Twenty seven drops of same size are charged at 220 \(V\) each. They combine to form a bigger drop. Calculate the potential of the bigger drop.

359395 A spherical conducting shell is connected to earth with the help of a switch \(S\). Initially the switch is open and a point charge \({q_0}\) is present at a distance x from the centre of the sphere. Now the charge starts moving with speed \(v\) and the switch is closed simultaneously. Find the current passing through the switch.