A : photon cannot transfer all of its energy to an isolated electron .
R : When energy of a photon is more then 1.02 MeV , It can materialize into two particles called electron and positron .

The momentum of a photon of energy 1 MeV "in" kg m//s will be

The total energy of an electron is 3.555 MeV, then its Kinetic energy is

A : Work function of aluminium is 4.2 eV . Emission of electrons will be possible by two photons , each of 2.5 eV energy , striking the electron of aluminium . R : Energy of a photon can be less then the work function of the metal , for photoelectron emission .

Should the energy of a photon be called its kinetic energy or its internal energy?

A photon and an electron both have wavelength 1 Å . The ratio of energy of photon to that of electron is

The momentum of a photon having energy equal to the rest energy of an electron is

An electtron and a photon have same wavelength . If p is the moment of electron and E the energy of photons, the magnitude of p//E in S I unit is

Energy released when electron is added to an isolated gases anion.

Calculate the energy released when an electron annihilates a positron.