The given figure shows, two parallel A and B of charge densities `+sigma` respectively. Electric intensity will be zero in region

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

A particle of mass ma and charge q is released from rest in a uniform filed of magnitude E. the uniform field is created between two parallel plates of charge densities +sigma and -sigma , respectively. The particle accelerates toward the other plate a distance d apart. Determine the speed at which it stirkes the opposite plate.

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

Figure shows a long wire having uniform charge density lambda as shown in figure. Calculate electric field intensity at point P.

A non-conducting semi circular disc (as shown in figure) has a uniform surface charge density sigma . The ratio of electric field to electric potential at the centre of the disc will be

Electric field intensity at a point due to an infinite sheet of charge having surface charge density sigma is E .If sheet were conducting electric intensity would be

Figure shows thick metallic sphere. If it is given a charge +Q , then electric field will be present in the region

Two charges e and 3e are placed at a distance r. The distance of the point where the electric field intensity will be zero is

Two large conducting plates of a parallel plate capacitor are given charges Q and 3Q respectively. If the electric field in the region between the plates is E_0 , then the force of interaction between the plates is

Two paralle plane sheets 1 and 2 carry uniform charge densites sigma_(1) and sigma_(2) (see fig. The electric field in the region marked I is ( sigma_(1) gt sigma_(2)) :