The threshold frequency for a certain metal is `3.3xx10^(14)` Hz. If light of frequency `8.2xx10^(14)` Hz is incident on the metal, predict the cut-off voltage for the photoelectric emission.

The threshold frequency of a certain metal is 3.3xx10^(14)Hz . If light of frequency 8.2xx10^(14)Hz is incident on the metal, predict the cut off voltage for photoelectric emission. Given Planck's constant, h=6.62xx10^(-34)Js .

The threshold frequency of a certain metal is 3.3xx10^(14)Hz . If light of frequency 8.2xx10^(14)Hz is incident on the metal, predict the cut off voltage for photoelectric emission. Given Planck's constant, h=6.62xx10^(-34)Js .

The threshold frequency of a certain metal is 3.3xx10^(14)Hz . If light of frequency 8.2xx10^(14)Hz is incident on the metal, predict the cut off voltage for photoelectric emission. Given Planck's constant, h=6.62xx10^(-34)Js .

The threshold frequency of a material is 2xx10^14 Hz. What is its work function in eV ?

Frequency of a wave is 6 xx 10^(15) Hz. The wave is

Frequency of a wave is 6 xx 10^(15) Hz. The wave is

Threshold frequency for a certain metal is v_0 . When light of frequency 2v_0 is incident on it, the maximum velocity of photoelectrons is 4xx10^8 cm s^-1 . If frequency of incident radiation is increased to 5v_0 , then the maximum velocity of photoelectrons, in cm s^-1 , will be

The threshold frequency for certain metal is v_0 . When light of frequency 2v_0 is incident on it, the maximum velocity of photoelectrons is 4xx10^(6) ms^(-1) . If the frequency of incident radiation is increaed to 5v_0 , then the maximum velocity of photoelectrons will be

The energy of a photon of frequency 4 xx 10^(15) Hz is ?

The photoelectric threshold frequency of a metal is v. When light of frequency 4v is incident on the metal . The maximum kinetic energy of the emitted photoelectrons is