Calculate the kinetic energy of photoelectrons in eV emitted on shining light of wavelength `6.2xx10^(-8)m` on a metal surface. The work fuction of metal is 0.1eV. Given: `h = 6.6xx10^(-34) J.s`.

The maximum velocities of the photoelectrons ejected are v and 2v for incident light of wavelength 400 nm and 250 nm on a metal surface respectively. Calculate the work function of the metal. Given h = 6.63 xx 10^(-34)J.s and c = 3 xx 10^(8) m.s^(-1)

Photoelectric threshold wavelength for a metal is 3800 Å . Find the maximum kinetic energy of emitted photoelectron, when ultraviolet radiation of wave length 2000Å is incident on the metal surface. Planck's constant, h = 6.62 xx 10^(-34) J.s

A photon of wavelength 4x10^-7 m strikes a metal surface work function of the metal is 2.13eV calculate the velocity of photoelectrons in ms^-1

Calculate the energy of each quantum of an electromagnetic radiation of wavelength 5000 Å [h=6.626xx10^(-34)J*s ].

Light of wavelength 4000 Å is incident on barium. The emitted photoelectrons describe a circle of radius 50 cm by a magnetic field of flux density 5.26 xx 10^(-6)T . What is the work function of barium in eV? Given, h = 6.6 xx 10^(-34)J.s, " " e = 1.6 xx 10^(-19)C, " " m_(e) = 9.1 xx 10^(-31) kg

The maximum kinetic energy of photo electron emitting' from a metallic surface of work function 1.8 eV is 0.5 eV. The corresponding stopping potential is—

For what kinetic energy of neutron will the associated de Broglie wavelength be 1.40 xx 10^(-10)m ? The mass of neutron is 1.675 xx 10^(-27) kg and h = 6.63 xx 10^(-34) J.s

Work function of a metal surface is 2eV. Maximum kinetic energy of photoelectrons emitted from the surface for incidence of light of wavelength 4140 Å is 1eV. What is the threshold wavelength of radiation for that surface?

If a light with frequency 2.0xx10^(16)Hz emitted photoelectrons with double the kinetic energy as are emitted by the light of frequency 1.25xx10^(16)Hz from the same metal surface, calculate the threshold frequency of the metal.

Among the photoelectrons, emitted due to incidence of light of frequency f on a metal surface , only the electrons having the highest kinetic energy can ionise a hydrogen atom. If this experment is performed with light of frequency 5/6f , the photoelectron having the highest kinetic energy can excite a hydrogen atom and from this excited hydrogen atom a photon of wavelength 1215 Å is emitted . Determine the (ii) value of f. Given h=6.625 xx10^(-34)*s,c=3xx10^(8)*s^(-1), 1 eV=1.6 xx10^(-19)J , ionisation energy of hydrogen =13.62 eV.