A large plate with uniform surface charge density `sigma` is moving with constant speed v as shown in the figure. The magnetic field at a small distance from plate is

Three non-conducting large parallel plates have surface charge densities sigma, -2 sigma and 4 sigma respectively as shown in the figure. The electric field at the point P is

If three infinite charged sheets of uniform surface charge densities sigma, 2sigma and -4 sigma are placed as shown in figure, then find out electric field intensities at points A, B, C and D.

Three large plates having uniform surface charge densities are shown in figure. Electric field at point 'P' will be :

Three large parallel plates have unifrom surface charge densities as shown in the figure. What is the electric field at P .

A very thin round plate of radius R carrying a uniform surface charge density sigma is located in vacumm. Find the electric field potentail and strength along the plate's axis as a function of a distance l from its centre. Investigation the obtained expression of l rarr 0 and l gt gt R .

Two infinitely large charged planes having uniform surface change density + sigma and - sigma are placed along xy plane and yz plane resp as shown in figure. Then nature of electric lines of force in xz plane is given by

Three infinite planes each with uniform surface charge density + sigma are kept in such a way that the angle between any two plate is 60^(@) . The electric field at centre of triangle

Two infinite, non-conducting sheets of charge are parallel to each other, as shown in figure. The sheet on the left has a uniform surface charge density sigma , and the one on the right has a uniform charge density -sigma . Calculate the electric field at points (a) to the left of, (b) in between, and (c) to the right of the two sheets.