[" Magnitude of electric field depends only on the "],[x-" coordinate given by "vec E=(20)/(x^(2))hat iquad V/m:" Find "],[" (i) the potential difference between two point "],[A(5m,O)" and "B(1Om,O)]

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.

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.

If the electric field is given by vec(E ) = ((100)/(x^(2)))i the potential difference between points x=10m and x=20m in volts is

A uniform electric field is present in the positive x - direction. If the intensity of the field is 5 NC^-1 then find the potential difference (V_B - V_A) between two points A (0 m, 2 m) and B (5 m, 3 m).

A uniform electric field is present in the positive x - direction. If the intensity of the field is 5 NC^-1 then find the potential difference (V_B - V_A) between two points A (0 m, 2 m) and B (5 m, 3 m).

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).

Electric field at a distance x from the origin is given as E =(100N-m^2//C)/x^2 . Then potential difference between the points situated at x = 10 m and x = 20m is :-

An electric field is expressed as vec(E ) = hat(i)x + hat(k)z . What is the potential difference (in volt) between A(0,0,0) and B(2,2,0)?

The electric field in a certain region is given by E=5 hat(i)-3hat(j) kv//m . The potential difference V_(B)-V_(A) between points a and B having coordinates (4, 0, 3) m and (10, 3, 0) m respectively, is equal to