There exists a uniform electric filed in the space as shown. Four points `A, B, C` and `D` are marked which are equildistant from the origin. If and `V_(D)` are their potentials respectively, then

Figure shows four points A, B, C and D in uniform electric field vec(E ) . The line AB and CD are perpendicular and BC and AD are parallel to the field lines. If V_(A), V_(B) , V_(C ) and V_(D) are electric potential at A, B,C,D choose the correct option.

There is a uniform electric field of intensity E which is as shown. How many labelled points have the same electric potential as the fully shaded point ?

A uniform electric field exists in x y plane as shown in Fig. 3.45. Find the potential difference. Between origin O and A(d,d,0) . .

A dipole of dipole moment vecp=phati is kep at the centre of a circle of radius r as shown in the figure. The radius of the circle is very large in comparison to the distance between the two charges of the dipole. A & B are two points on the axis and C & D are two points on the equitorial line of the dipole if V_(A),V_(B),V_(C) and V_(D) are potentials at A,B,C and D respectively then, which of the following is correct?

In the circuit diagram shown in Figure , the potentials of the points B, C and D are respectively -

Charges are placed on the vertices of a square as shown. Let E r be the electric field and V the potential at the centre. If the charges on A and B are interchanged with those on D and C respectively, then :-

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:

In the network shown in fig. , points A, B, and C are at potentials of 70 V, 0, and 10V, respectively.

In a uniform electric field, the potential is 10V at the origin of coordinates , and 8 V at each of the points (1, 0, 0), (0, 1, 0) and (0, 0, 1). The potential at the point (1, 1,1 ) will be .

In the electrical circuit shown, points B and C are earthed . Find the potentials of points A and D .