The graph between the surface charge density and radius of curvature for an isolated conductor at constant potential is

Some charge is being given to a conductor. Then its potential : -

A charged soap bobbe having surface charge density sigma and radius r. If the pressure inside and outsides the soap bubble is the same, then the surface tension of the soap solution is

Show that the electric field at the surface of a charged conductor is given by vecE = (sigma)/(epsi_(0)) hatn , where sigma is the surface charge density and hatn is a unit vector normal to the surface in the outward direction .

Choose Graph between potential and time for an isolated conductor of finite capacitance C, if its charge varies according to the formula Q=(alpha t +Q_(0)) coulomb, where Q_(0) and alpha are positive constant.

A spherical charged conductor has surface charge density sigma .The intensity of electric field and potential on its surface are E and V .Now radius of sphere is halved keeping the charge density as constant .The new electric field on the surface and potential at the centre of the sphere are

A conductor with a cavity is charged positively and its surface charge density is sigma . If E and V represent the electric field and potential, then inside the cavity

An infinite sheet of charge has surface charge density sigma . The separation between two equipotential surfaces, whose potential differ by V is:

A hemispherical bowl of radius R carries a uniform surface charge density sigma . Find the potential at the topmost point A, taking potential at infinity to be zero.

(a) A point object, O is on the principle axis of a spherical surface having a radius of curvature, R. Draw a diagram to obtain the relation between the object and image distances, the refractive indicess of the media and the radius of curvature of the spherical surface.

Across the surface of a charged conductor, the electric