A photon of frequency 'v' causes emission of an electron from the surface of the metal with threshold frequency `V_(0)` find out the de broglie wavelength of the electron of maximum energy

A photon of frequency v causes photo electric emission from a surface with threshold frequency v_(0) . The de-Broglies wavelength (lambda) of the photo electron emitted is given by:

A photon of frequency n causes photoelectric emmission from a surface with threshold frequency n_0 .The de Broglie wavelength lambda of the photoelectron emitted is given as

An electron is accelerated through a potential difference of V volit .Find th e de Broglie wavelength associated with electron.

Photo electrons are liberated by ultraviolet light of wavelength 3000 Å from a metalic surface for which the photoelectric threshold wavelength is 4000 Å . Calculate the de Broglie wavelength of electrons emitted with maximum kinetic energy.

The de broglie wavelength of electron moving with kinetic energy of 144 eV is nearly

An electron is accelerated by a potential difference of 50 V. Find the de Broglie wavelength associated with it.

If lambda_(0) is the threshold wavelength for photoelectric emission. lambda wavelength of light falling on the surface on the surface of metal, and m mass of electron. Then de Broglie wavelength of emitted electron is :-

Photoelectrons are liberated by ultra light of wavelength 2000 Å from a metallic surface for which the photoelectric threshold is 4000Å. Calculate the de Broglie wavelenth of electrons emitted with maximum kinetic energy.

The binding energy of electron in a metal is 193 kJ mol^(-1) .Find the threshold frequency of the metal

An electron is accelerated by a potential difference of 9.375 V . Find the de-Broglie wavelength associated with it is Å