Describe schematically the equipotential surfaces corresponding to
(a) a constant electric field in the z-direction.

Describe, schematically the equipotential surfaces corresponding to : a constant electric field in the Z-direction,

Describe, schematically the equipotential surfaces corresponding to : a single positive charge at the origin

Describe schematically the equipotential surfaces corresponding to (c ) A single positive charge at the origin.

Describe schematically the equipotential surfaces corresponding to (b) A field that uniformly increases in magnitude but remains in a constant (say, z) direction.

Describe, schematically the equipotential surfaces corresponding to : a field that uniformly increases in magnitude but remains in a constant (say, Z) direction,

Describe schematically the equipotential surfaces corresponding to (d) A uniform grid consisting of long equally spaced parallel charged wires in a plane.

Describe, schematically the equipotential surfaces corresponding to : a uniform grid consisting of long equally spaced parallel charged wires in a plant.

Depict the equipotential surfaces due to an electric dipoel.

Draw three equipotential surfaces corresponding to a field that uniformly increases in magnitude but remains constant along z-direction. How are these surfaces different from that of a constant electric field along z-direction?

Explain why, for any charge configuration the equipotential surface through a point is normal to the electric field at that point. Draw a sketch of equipotential surfaces due to a single charge (-q), depicting the electric field lines due to the charge.