An infinite thread of charge density `lambda` lies along z-axis. The potential difference between points `A (4, 3, 4)` and `(3, 4, 0)` is

An infinitely long line of linear charge density lambda is shown in the figure. The potential difference V_(A)-V_(B) between the two points A and B is

An infinitely long line of linear charge density lambda is shown in the figure. The potential difference V_(A)-V_(B) between the two points A and B is

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 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.

There is an infinitely long straight thread carrying a charge with linear density lambda = 0.40 muC//m . Calculate the potentail difference between points I and 2 is removed eta = 2.0 times farhter from the thread than point 1.

The distance between z-axis and (3,4,6)is

There is infinitely long straight thread carrying a charge with linear density lambda .Calculate the potential difference A and B .

The distance between z - axis and (3,4) is _

For an infinite line of charge having linear charge density lambda lying along x-axis the work done in moving a charge q form C to A along CA is

For an infinite line of charge having linear charge density lambda lying along x-axis the work done in moving a charge q form C to A along CA is