An infinite plane sheet of positive charge has surface charge density `sigma`. A metallic ball of mass `m` and charge `+Q` is attached to a thred and is tied to a point `A` on the sheet `PQ`. The angle `theta` made by the string with plane sheet is in equilibrium is

Two infinite plane sheets of charge A and B of positive charge have surface charge densities Ksigma and sigma , respectively. A metallic ball of mass m and charge +q is attached to a thread and the thread is tied at point P on sheet A. Initially ball is equilibrium at plate P when sheets are uncharged. Find the correct options (K is a constant.)

A positivley charged infinite plane sheet has surface charge density alphac/m^2 . A metalic ball of mass m and charge Q is suspended by an insulated thread from the sheet. What will be the angle with the verticle sheet at the equilibrium condition? What quanity is dipole? Either scalar or vector?

Field Of An Infinite Plane Sheet Of Charge

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

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

The surface density of charge on a large vertical positively charged plate is sigma C* m ^ ( -2 ) . A string attaches a metal ball of mass M and charge + q with the plate. Find out the angle between the string and the plate in equilibrium.

A small charged particle of mass ‘m’ and charge q is suspended by an insulated thread in front of a very large conducting charged sheet of surface density of charge sigma . The angle made by the thread with the vertical in equilibrium is

The line AA' is on a charged infinite conducting plane which is perpendicular to the plane of the paper. The plane has surface density of charge sigma and B is a ball of mass m with a like charge of magnitude q. B is connected by a string from a point on the line AA'. The tangent of the angle (theta) formed between the line AA' and the string is (provided, the charge q does not affect the distribution of charge on conducting plate)