An unchanged conductor of inner radius `R_(1)` and outer radius `R_(2)` contains a point charge q placed at point P (not at the centre) as shown in figure? Find out the following:

(i) `V_(C)` (ii) `V_(A)` (iii) `V_(B)` (iv) `E_(A)` (v) `E_(B)`
(vi) force on charge Q if it is placed at B

A hollow conducting sphere of inner radius r and outer radius 2R is given charge Q as shown in figure, then the

An uncharged conductor of inner radius R_(1) and outer radius R_(2) constains a point charge q at the centre as shown in figure (i) Find vec(E) and V at points A, B and C (ii) If a pint charge Q is kept out side the sphere at a distance 'r' ( gt gt R_(2)) from centre then find out resultant force on charge Q and charge q.

An uncharged conductor of inner radius R_(1) and outer radius R_(2) constains a point charge q at the centre as shown in figure (i) Find vec(E) and V at points A, B and C (ii) If a pint charge Q is kept out side the sphere at a distance 'r' ( gt gt R_(2)) from centre then find out resultant force on charge Q and charge q.

An uncharged conductor of inner radius R_(1) and outer radius R_(2) constains a point charge q at the centre as shown in figure (i) Find vec(E) and V at points A, B and C (ii) If a pint charge Q is kept out side the sphere at a distance 'r' ( gt gt R_(2)) from centre then find out resultant force on charge Q and charge q.

A point charge q is placed at O as shown in figure. Is V_P - V_Q positive or negative when q

A spherical conducting shell of inner radius r_1 and outer radius r_2 has a charge Q. A charge q is placed at the centre of the shell. What is the surface charge density on the inner and outer surfaces of the shell ?

In uniform electric field, E = 10 NC^(-1) as shown in figure, find (i) V_(A)-V_(B) (ii) V_(B)-V_(C) .