Calculate the value of retarding potential in volt needed to stop the photoelectron ejected from a metal surface of work function 1.29 eV with light frequency of `5.5 xx 10^(14) sec^(-1)` (nearly)

Five volt of stopping potential is needed for the photoelectrons emitted out of a surface of work function 2.2 eV by the radiation of wavelength

Find the retarding potential requred to stop the escape of photo electrons from the metal surface of work function 1.07 eV , which is irradiated with light of wavelength 332 mn

What will be the minimum frequency of light source to get photocurrent, from a metal surface having work function 2 eV ?

What will be the maximum kinetic energy of the photoelectrons ejected from magnesium (for which the work -function W=3.7 eV) when irradiated by ultraviolet light of frequency 1.5xx10^15 s^(-1) .

What is the work function (w_(o)) of the metal whose threshold frequency (v_(0)) is 5.2 xx 10^(14)s^(-1) ?

What is the work function (w_(o)) of the metal whose threshold frequency (v_(0)) is 5.2 xx 10^(14)s^(-1) ?

The kinetic energies of the photoelectrons ejected from a metal surface by light of wavelength 2000 Å range from zero to 3.2 xx 10^(-19) Joule. Then find the stopping potential (in V).

The stopping potential for the photoelectrons emitted from a metal surface of work function 1.7 eV is 10.4 V. Find the wavelength of the radiation used. Also, identify the energy levels in hydrogen atom, which will emit this wavelength.

The potential difference that must be applied to stop the fastest photoelectrons emitted by a nickel surface , having work function 5.01 eV , when ultraviolet light of 200 nm falls on it , must be

Light of energy 2.0 eV falls on a metal of work function 1.4 eV . The stopping potential is