A hot metal emits photons of light with energy ` 3.0 xx 10^(-19) J`. Calculate the frequency and wavelength of the photon?

The energy of a photon is given as 3.03xx10^(-19)J . The wavelength of the photon is

Calculate the frequency and wavelength of photon with energy 3.98 xx 10^(-15)J

Calculate the frequency and wavelength of photon with energy 3.98 xx 10^(-15)J

Calculate the momentum of a photon of energy 6 xx10^(-19)J .

Calculate the momentum of a photon of energy 6xx10^(-19)J .

The minimum energy required for the emission of photoelectron from the surface of a metal is 4.95 xx10^(-19)J . Calculate the critical frequency of the photon required to eject the electron . h = 6.6 xx10^(-34) J sec

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

Photoelectrons are removed with kinetic energy 1.864 xx 10^(-21)J , when photons of light with energy 4.23 xx 10^(-19) J fall on the metal. What is the minimum energy required per mole to remove an electron potassium metal? Hing : hv_(0)= hv-KE Energy required per mole =hv_(0) xx 6.022 xx 10^(23)

Photoelectrons are removed with kinetic energy 1.864 xx 10^(-21)J , when photons of light with energy 4.23 xx 10^(-19) J fall on the metal. What is the minimum energy required per mole to remove an electron potassium metal? Hint : hv_(0)= hv-KE Energy required per mole =hv_(0) xx 6.022 xx 10^(23)

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