Two identical plane metallic surfaces A and B are kept parallel to each other in air separated by a distance of 10 cm as shown in Figure. Surface A is given a positive Potential of 10 V and outer surface of B is earthed.
What is the magnitude and directions of uniform electric field between points Y and Z?

Two identical plane metallic surfaces A and B are parallel to each other in air separated by a distance of 1 cm as shown in the fig. Surface A is given a postive potential 10 V and the outer surface of B is earthend What is the magnitude and direction of the uniform electric field between points Y and Z?

Two identical plane metallic surfaces A and B are kept parallel to each other in air separated by a distance of 1.09 cm as shown in Fig. HQ 6. Surface A is given a positive Potential of 10 V and outer surface of B is earthed. What is the work done in moving a charge of 20 muC from point X to Y. Where X is situated on surface A?

Two charges 2 muC and -2 muC are placed at points A and B 6 cm apart. What is the direction of the electric field at every point on this surface?

Two uniformly large parallel thin plates having charge densities +sigma and -sigma are kept in the X-Z plane at a distance 'd' apart. Sketch an equipotential surface due to electric field between the plates. IF a particle of mass m and charge -q remains stationary between the plates, what is the magnitude and direction of this field?

A point charge +10 muC is at a distance 5 cm directly above the centre of a square of side 10 cm as shown in the figure What is the magnitude of the surface flux through the square?

A point charge q is moving with speed v perpendicular to magnetic field B as shown in figure. Explain what should be the magnitude and direction of the applied electric filed so that the net force acting on the charge is zero.

A dipole, with its charges, -q an +q, are located at the ponit (0,-b,0) and (0,+b,0), is present in uniform electric field E. the equipotential surfaces of this field are planes parallel to the YZ-planes. What is the direction of the electric field E?

Two large, thin metal plates are parallel and close to each other. On their inner faces, the plates have surface charge densities of opposite signs and of magnitude 17.0 xx 10^-22 C//m^2 . What is E: in the outer region of the first plate?

Two large, thin metal plates are parallel and close to each other. On their inner faces, the plates have surface charge densities of opposite signs and of magnitude 17.0 xx 10^-22 C//m^2 . What is E: in the outer region of the second plate?