Three infinitely long charge sheets are placed as shown in figure. The electric field at point P is

Two charges are placed s shown in figure below. The potential at point P is

Two perpendicular infinite wires are carrying current i as shown in the figure. The magnetic field at point P is :

Four charges are arranged on y axis as shown in figure. Then the electric field at point P is proportional to:

An infinitely long wire with linear charge density +lambda is bent and the two parts are inclined at angle 30^@ as shown in fig, the electric field at point P is :

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

(i) Two infinitely long line charges each of linear charge density lambda are placed at an angle theta as shown in figure. Find out electric field intensity at a point P, which is at a distance x from point O along angle bisector of line charges. (ii) Repeat the above question if the line charge densities are lambda and -lambda . as shown in figure.

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

Determine the magnetic field at point P located a distance x from the corner of an infinitely long 2. Wire bent at right angle as shown in figure. The wire carries a steady current i.

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.

Charge 2Q and -Q are placed as shown in figure. The point at which electric field intensity is zero will be somewhere