Electric potential on the surface of a spherical shell is 1000 V. What will be the electric potential at any point inside the shell ?

A charge of 108 muC is given to a metallic spherical shell of radius1 m. (i) Calculate electric potential at the surface of the shell. (ii) Calculate electric potential at a point that is 0.1 m from the centre of the shell.

A positive charge Q is placed at the centre O of a thin metalic spherical shell. Select the correct statements from the following: (i) The electric field at any point outside the shell is zero (ii) The electrostatic potential at any point outside the shell is (Q)/(4 pi epsilon_(0) r) , where r is the distance of the point from O (iii) The outer surface of the spherical shell is an equipotential surface (iv) The electric field at any point inside the shell , other than O , is zero

What is the gravitational field at a point inside a spherical shell?

An electric dipole is placed at the centre of a spherical shell. Find the electric field at an external point of the shell.

Electric Potential Due To A Spherical Shell & Solid Sphere|Relation Between Electric Field And Potential

What is gravity at a point inside a spherical shell?

We have an isolated conducting spherical shell of radius 10 cm . Some positive charge is given to it so that the resulting electric field has a maximum intensity of 1.8 xx 10^6 NC^-1 . The same amount of negative charge is given to another isolated conducting spherical shell of radius 20 cm . Now, the first shell is placed inside the second so that both are concentric as shown in (Fig. 3.154). . The electric potential at any point inside the first shell is.

We have an isolated conducting spherical shell of radius 10 cm . Some positive charge is given to it so that the resulting electric field has a maximum intensity of 1.8 xx 10^6 NC^-1 . The same amount of negative charge is given to another isolated conducting spherical shell of radius 20 cm . Now, the first shell is placed inside the second so that both are concentric as shown in (Fig. 3.154). . The electric potential at any point inside the first shell is.

A charge q is placed at a distance of 2R from the centre of a spherical conducting shell of radius R. What is electrical potential, due to charges induced on the shell, at a point which is farthest from the point charge ?