A certain metal when irradiated by light `(v=3.2xx10^(16)Hz)` emits photoelectrons with twice of K.E. as did photoelectrons when the same metal is irradiated by light `(v=2.0xx10^(16)Hz)`. The `v_(0)` of the metal is

A certain metal when irradiated to light (v = 3.2 xx 10^(16) Hz) emits photoelectrons with twice kinetic energy as did photoelectrons when the same metal is irradiation by light ( v = 2.0 xx 10^(16)Hz) . The v_(0) Threshold frequency ) of the metal is

When a certain metal was irradiated with light of frequency 3.2 xx 10^(16)s^(-1) the photoelectrons emitted had three twice the KE as did photoelectrons emitted when the same metal was irradited with light of frequency 2.0 xx 10^(16)s^(-1) .Calculate the thereshold frequency of the metal

When a certain metal was irradiated with a light of 8.1 xx 10^(16) Hz frequency the photoelectron emitted had 1.5 times the kinetic energy as did the photoelectrons emitted when the same metal was irradiated with light 5.8 xx 10^(16) Hz frequency if the same metal is irradiated with light of 3.846 nm wave length what will be the energy of the photoelectron emitted ?

What a certain was metal was irradiatiobn with light of frequency 1.6 xx 10^(16) Hz the photoelectron emitted but the kinetic energy as the photoelectron emitted when the same metal was irradiation with light of frequency 1.0 xx 10^(16) Hz .Calculate the threslold frequency (v_(0)) for the metal

When a certain metal was irradiated with light of frequency 4.0 xx 10^(19)s^(-1) the photoelectrons emitted had three times the kinetic energy as the kinetic energy of photoelectrons emitted when the metal was irradited with light of frequency 2.0 xx 10^(16) s^(-1) .Calculate the critical frequency (v_(0)) of the metal

When a metallic surface is illuminated by a light of frequency 8xx10^(14) Hz, photoelectron of maximum energy 0.5 eV is emitted. When the same surface is illuminated by light of frequency 12xx10^(14) Hz, photoelectron of maximum energy 2 eV is emitted. The work function is

The maximum kinetic energy of the photoelectrons is found to be 6.63xx10^(-19)J , when the metal is irradiated with a radiation of frequency 2xx10^(15) Hz. The threshold frequency of the metal is about:

If a light with frequency 4xx10^(16) Hz emitted photoelectrons with double the maximum kinetic as are emitted by the light of frequency 2.5xx10^(16) Hz from the same metal surface, then what is the threshold frequency (v_(0)) of the metal?

The threshold frequency for a certain photosensitive metal is v_0 . When it is illuminated by light of frequency v=2 v_0 , the stopping potential for photoelectric current is V_0 . What will be the stopping potential when the same metal is illuminated by light of frequency v=3v_0 ?

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