Find the difference of kinetic energies of photoelectrons emitted from a surface by light of wavelength 2500Å and 5000Å. `h=6.62xx10^(-34)Js`.

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 threshold wavelenght of silver is 3800 Å . Calculate the maximum kinetic energy in eV of photoelelctrons emitted, when ultraviolet light of wavelegth 2600 Å falls on it. ( Planck's constant, h=6*63xx10^(-34)"Js",. Velocity of light in air, c=3xx10^(8)m//s )

Find the number of emitted per minute by a 25W source of monochromatic light of wavelength 5000Å. Use h=6.63xx10^(-34)Js .

The energy of a photon of wavelength 4000 Å is (use h=6.66xx10^(-34) J-s)

Find the (a) maximum kinetic energy of photoelectrons ejected from potassium surface, for which , phi=2.1 eV , by photons of wavelengths 2000 Å and 5000 Å. (b) What is the threshold frequency v_(0) and (c) the corresponding wavelength?

The electric field associated with a monochromataic beam of light becomes zero, 2.4xx10^(15) times per second. Find the maximum kinetic energy of the photoelectrons when this light falls on a metal surface whose work function is 2.0eV, h=6.63xx10^(-34)Js .

The number of photons emitted per second by a 60 W source of monochromatic light of wavelength 663 nm is: (h=6.63xx10^(-34)Js )

The photoelectric work function of a surface is 2.2 eV. The maximum kinetic energy of photoelectrons emitted when light of wavelength 6200 Å is incident on the surface, is