A uniform electric field is along x-axis. The potential difference `V_(A)-V_(B)=10 V` is between two points A (2m, 3m) and (4m, 8m). Find the electric field intensity.

A uniform electric field of 30NC^(-1) exists along the X-axis calculate the potential difference V_(B)-V_(A) between the points A (4m,2m) and B(10m,5m).

Find the potential difference V_(AB) between A(2m, 1m, 0) and B(0, 2m, 4m) in an electric field, E=(xhati-2yhatj+zhatk)V/m

A uniform electric field exists in x-y plane. The potential of points A (-2m, 2m), B(-2m, 2m) and C(2m, 4m) are 4V, 16 V and 1 2 V respectively. The electric field is

In a region,uniform electric field is 10V/m ,then potential difference between two points which are separated by 3m may be equal .??

A uniform electric fied exists in x-y plane. The potential of ponts A(2m,2m),B(-2m,2m) and C(2m,3m) are 4V, 16V and 12V respectively. The electric field is

Find potential difference V_(AB) between A(0,0,0) and B(1m,1m,1m) in an electric field a. E-yhati+xhatj b. E=3x^2yhati+x^3hatj

A, B, C, D, P, and Q are points in a uniform electric field. The potentials at these points are V(A) = 2 V. V(P) = V( B) = V(D) = 5 V , and V(C) = 8 V . Find the electric field at P. .

An electric field of 20 N/C exists along the negative x-axis in space. Calculate the potential difference V_(B)-V_(A) , where the points A and B are given by : (a) A= (0, 0), B=(0, 4m) (b) A=(2m, 1m), B=(4m, 3m)

Magnitude of electric field only on the x-coordinate as vec(E)=20/x^(2) hat(i) V//m . Find (i) The potential difference between two points A (5m, 0) and B (10m, 0). (ii) Potential at x = 5 if V at oo is 10 volt. (iii) In part (i), does the potential difference between a and B depend on whether the potential at oo is 10 volt or something else.

Electric field in a region is given by E=(2hati+3hatj-4hatk)V//m . Find the potential difference between points (0, 0, 0) and (1,2,3) in this region.