The binding energy of electrons in a metal is equal to `250 kJmol^(-1)` the threshold frequency of the metal is

If the binding energy of electrons in a metal is 250 kJ "mol"^(-1) , what is the threshold frequency of the striking photons ?

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

When the electromagnetic radiations of frequencies 4 xx 10^(15) Hz and 6 xx 10^(15) Hz fall on the same metal, in different experiments, the ratio of maximum kinetic energy of electrons liberated is 1 : 3 . The threshold frequency for the metal is

What is the binding energy (in J/mol or kJ/mol) of an electron in a metal, whose threshold frequency for photoelectron is 3.5 xx 10^(13) s^(-1) ?

What is the binding energy (in J/mol or KJ/mol) of an electron in a metal. Whose threshold frequency for photon electron is 2.5xx10^(14)s^(-1) ?

If a metal is irradiated with light of frequency 3 xx 10^(19) sec^(-1) , electron is emitted with kinetic energy of 6.625 xx 10^(-15)J . The threshold frequency of the metal is

If a certain metal was irradiated by using two different light radiations of frequency 'x' and '2x' the maximum kinetic energy of the ejected electrons are 'y' and '3y' respectively the threshold frequency of the metal is

In a hydrogen atom, the binding energy of the electron in the ground state is E_(1) then the frequency of revolution of the electron in the nth orbit is

Photoelectric emission is observed from a metallic surface for frequencies v_(1) and v_(2) of the incident light rays (v_(1) gt v_(2)) . If the maximum values of kinetic energy of the photoelectrons emitted in the two cases are in the ratio of 1 : k , then the threshold frequency of the metallic surface is

Photoelectric emission is observed from a metallic surface for frequencies v_(1) and v_(2) of the incident light rays (v_(1) gt v_(2)) . If the maximum values of kinetic energy of the photoelectrons emitted in the two cases are in the ratio of 1 : k , then the threshold frequency of the metallic surface is