The potential difference between two conductors is 110 V. How much work is moving 10C charge from one conductor to the other?

The potential difference between two conductor is 110 V. How much work in moving 5 C charge from one conductor to the other ?

What is the potential difference between the surface and interior point of charged conductor?

Light of wavelength 390 nm is directed at a metal electrode. To find the energy of electrons ejected, an opposing potential difference is established between it and another electrode. The current of photoelectrons from one to the other is stopped completely when the potential difference is 1.10 V. Determine (i) the work function of the metal and (ii) the maximum wavelength of light that can electrons from this metal.

If the potential difference V applied across a conductor increases to 2V, drift velocity of the electron be

Two identical thin rings, each of radius 10 cm carrying charges 10 C and 5 C are coaxially placed at a distance 10 cm apart. The work done in moving a charge q from the centre of the first ring to that of the second is

Two equal charges, 2.0xx10^(-7) C each, are held fixed at a separation of 20cm. A third charge of equal magnitude is placed midway between the two both the charges. How much work is done by the electric field during the process?

Two equal positive charges are kept at points A and B. The electric potential at the points between A and B (excluding these points ) is studied while moving from A to B. The potential will

Figure shows the intensity-wavelength relations of X-rays coming from two different Coolidge tube. The solid curve represents the relation for the tube A in which the potential difference between the target and the filament is V_a and the atomic number of the target material is Z_A . These quantities are V_beta and Z_beta for the other tube. Then,