Threshold frequency of a metal is `5 xx 10^(13)s^(-1)` upon which `1xx10^(14)s^(-1)` frequency light is focussed. Then the maximum kinetic energy of emitted electron is 

Photons of frequencies equal to the frequencies of H_(beta) and H_(oo) lines of hydrogen incident on a photosensitive plate, whose threshold frequency is equal to the frequency of H_(alpha) line of hydrogen. The ratio of the maximum kinetic energies of the emitted electrons is

The threshold frequency (v_(0)) for a metal is 5 xx 10^(14)S^(-1) . Calculate the kinetic energy of emitted electron when a radiation with frequency of 2 xx 10^(15) sec^(-1) hits the metal surface.

The threshold frequency of a metal is 1.11 xx 10^(16) Hz . What is the maximum kinetic energy of the photo electron produced by applying a light of 15 Å on the metal ?

The threshold frequency of a metal is 1.11 xx 10^(16) Hz . What is the maximum kinetic energy of the photo electron produced by applying a light of 15Å on the metal?

The work function of caesium metal is 2.14 eV . When light of frequency 6xx 10^(14) Hz is incident on the metal surface , photomission of electrons occurs . What is the maximum kinetic energy of the emitted electrons

Energy for 7.25 xx 10^(15) photons of 5.37 xx 10^(14)S^(-1) frequently in Einstein unit is

The threshold frequency for a metal is 7.0 xx 10^(14) s^(-1) . Calculate the kinetic energy of an electron emitted when radiation of frequency 10^(15)s^(-1) hits the metal.

The work function of caesium metal is 2.14 ev. When light of frequency 6 xx10^(14)Hz is incident on the metal surface, photoemission of electrons occurs. What is the (a) maximum kinetic energy of the emitted electrons, (b) Stopping potential, and (c) maximum speed of the emitted photoelectrons?

If the work function of a certain metal is 3.2xx10^(-19)J and is it illuminated with light of frequency 8xx10^(14) Hz, the maximum kinetic energy of photo electrons would be (h=6.6xx10^(-34)Js)