In photoelectric effect, the current

In photoelectric effect, the number of electrons ejected per second is

In a photoelectric effect, the energy of the photon striking a metallic surface is 5.6xx10^(-19)J . The kinetic energy of the ejected electron is 12.0xx10^(-20)J . The work function is

lamda_(1) and lamda_(2) are used to illuminated the slits. beta_(1) and beta_(2) are the corresponding fringe widths. The wavelength lamda_(1) can produce photoelectric effect when incident on a metal. But the wavelength lamda_(2) cannot produce photoelectric effect. The correct relation between beta_(1) and beta_(2) is

Which one of the following graphs represents the variation of maximum kinetic energy (E_(K)) of the emitted electrons with frequency upsilon in photoelectric effect correctly?

In photoelectric effect when photons of energy hnu fall on a photosensitive surface (work function hnu_0 ) electrons are emitted from the metallic surface with a kinetic energy. It is possible to say that

The maximum kinetic energy of emitted electrons in a photoelectric effect does not depend upon

Write Einsteins's equation of photoelectric effect. Give Einstens explanation of photoelectric effect.