Statement I: The energy of the associated photon becomes half when the wavelength of the electromagnetic wave is doubled.
Statement II: Momentum of a photon
`= ("energy of the photon")/("velocity of light")`

The momentum of photon having 6Mev energy is

The wavelength of an electromagnetic radiation is lamda . What is the energy of a photon of this radiation?

The energy (in eV) of each photon associated with the light of wavelength 5893 Å

If kinetic energy of a proton is increased nine times the wavelength of the de-broglie wave associated with it would become

The energy of a photon of wavelength lambda is—

The energy of photon for the maximum wavelength of visible light is approximately

In case of electromagnetic radiation of frequency f, what is the momentum of the associated photon?

Calculate the wave length of photon having energy 2'ev.

Energy associated with which of the following waves is not quantised? (i) Electromagnetic wave (ii) Matter wave.

Statement I: If the kinetic energy of particles with different masses are same, then the de Broglie wavelength of the particles are inversely proportional to their mass Statement II: Momentum of moving particles is inversely proportional to their de Broglie wavelengths.