The energy of photon is 2 eV.Find its frequency and wavelength

While working with light and X -rays, there is a useful relation between the energy of a photon in electron volts (eV) and the wavelength of the photon in angstom (A^(0)) .Suppose the wavelength of aphoton is lambdaA . Then energy of the photon is

A hydrogen atom in a state of binding energy 0.85 eV makes a transition to a state of excitation energy of 10.2 eV . Find the energy and wavelength of photon emitted.

Energy of a photon is 20 eV then its momentum is

Find the energy of a photon that a corresponds in light frequency at 3 xx 10^(6) Hz b. Has a wavelength of 300 nm

If the energy of a photon of light of frequency is E and its momentum is P, then the velocity of light is-

Calculate the energy of a photon in eV for a radio wave of frequency one M Hz.

The energy gap of silicon is 1.5 eV . At what wavelength the silicon will stop to absorb the photon

An electron of energy 2.6eV strikes an excited H-atom and gets absorbed. After that H-atom comes to ground state and a photon is released. Find the frequency of photon released.

If the energy of a photon is 25 eV and work function of the material is 7eV , find the value of slopping potential.

The energy of a photon in eV of wavelength lambda nm will be