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)

An electric field of 10 N/C exists along the 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 = (8m, 3m), (b) A = (8m, 3m) , B = (12m, 6m) (c) A = (0, 0) , B = (12m, 6m)

An electric field of 20 N//C exists along the 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=(4m, 2m) b. A=(4m,2m),B=(6m,5m)

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).

A uniform electric field of 400 V/m is directed at 45^@ above the x-axis as shown in the figure. The potential difference V_A-V_B is given by

A uniform electric field of 100 V//m is directed at 3^@ with the positive x-axis as shown in figure. Find the potential difference V_(BA) if OA=2 m and OB=4 m.

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.

Assume that an electric field vec(E) = 30 x^(2) hat(i) exists in space. Then the potentail differences V_(A) - V_(0) where V_(0) is the potential at the origin and V_(A) , the potebntail at x = 2m is

Uniform electric field of magnitude 100 V//m in space is directed along the line y=3+x . Find the potential difference between point A (3, 1) & B(1, 3)

Assume that an electric field vecE=30x^2hatj 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: