If the potential at A is 2000V the potential at B is

In the given circuit. If the potential at A is 95 V, then the potential of B is

For what value of E the potential of A is equal to the potential of B ?

In the given circuit the potential at point B is zero, the potential at points A and D will be

As shown in figure, if the point C is earthed and the point A is given a potential of 2000 V, then the potential at point B will be :

A uniform field of magnitude vec E = 2000 NC^-1 is directed theta = 37^(@) below the horizontal [fig. 3.11]. . (i) Find the potential difference between P and R. (ii) If we define the reference level of potential so that potential at R is V_R = 500 V , what is the potential at P?

A uniform field of 8 N/C exists in space in positive x-direction. (a) Taking the potential at the origin to be zero, write an expression for the potential at a general point (x, y, z). (b) At which points, the potential is 160 V ? (c) It the potential at the origin is taken to be 80V, what will be the expression for the potential at a general point ? (d) What will be the potential at the origin if the potential at x = infinity is taken to be zero ?

In Figure if the potential at Point P is 100 V , what is the potential at point Q?

Assume that an electric field vecE=30x^2hati exists in space. Then the potential difference V_A-V_O , where V_O is the potential at the origin and V_A the potential at x=2m is:

A hollow metallic sphere of radius 0.1 m is charged to a potential of 5 V. The potential at its centre is

On moving a charge of 2C from a point A where potential is +12V to a point B where potential is -12 V, the work done is -