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.

Two infinite sheets of unifrom charge density +sigma and -sigma are parallel to each other as shown in the figure. Electric field at the

Two thin infinite parallel plates have uniform charge densities + sigma and - sigma . The electric field in the space between them is

Two large non conducting plates having surface charge densities +sigma and -sigma respectively, are fixed d distnce apart. A small test charge q of mass m is attached to two non conducting springs each of spring constant k as shown in the figure. The sum of lengths of both springs in underformed state is d . The charge q is released from rest with both the springs nondeformed. then charge q will (neglect gravity)

Two large parallel sheets charged uniformly with surfasce charge density sigma and -sigma are located as shown in the figure. Which one of the following graphs shows the variation of electric field along a line perpendicular to the sheets as one moves from A to B ?

Two infinitely large charged planes having uniform suface charge density +sigma and -sigma are placed along x-y plane and yz plane respectively as shown in the figure. Then the nature of electric lines of forces in x-z plane is given by:

Three concentric metallic spherical shell A,B and C or radii a,b and c (a lt b lt c) have surface charge densities -sigma, + sigma and -sigma . Respectively. The potential of shel A is :

Two large parallel conducting plates are placed close to each other ,the inner surface of the two plates have surface charge densities +sigma and -sigma .The outer surfaces are without charge.The electric field has a magnitude of

The figure shows three infinite non-conducting plates of charge perpendicular to the plane of the paper with charge per unit area +sigma, +2sigma and -sigma . Find the ratio of the net electric field at that point a to that at point B.

the given figure shows two parallel plates A and B of change densities +3sigma and -3sigma respectively. electric intensity will be zero in the