On a photosensitive metal of area`1 cm^(2)` and work function 2eV, light of intensity `6.4 xx 10^(–5) W//cm^(2)` in wavelength 310 nm fall normally. If 1 out of every `10^(3)` photons are successful, then number of photoelectrons emitted in one second is 10x. Find x

A beam of electromagnetic radiation of intensity 12.8 xx 10^(-5) W//cm^(2) is comprised of wavelength, lambda = 155 nm . It falls normally on a metal (work function phi = 2eV ) of surfacce area of the 1 cm^(2) . If one in 10^(3) photons ejects total number of electrons ejected in 1 s in 10^(x) . (hc = 1240 eVnm) 1eV = 1.6 xx 10^(-19) J =, then x is _____.

Radiation of wavelength 310 nm is incidenton a metal surface of work function 1eV . Find maximum speed of photoelectrons emitted . ( Closed value )

Light of wavelength 5000 Å and intensity of 3.96 xx 10^(-3) watt//cm^(2) is incident on the surface of photo metal . If 1% of the incident photons only emit photo electrons , then the number of electrons emitted per unit area per second from the surface will be

when a beam of 10.6 eV photons of intensity 2.0 W//m^(2) falls on a platinum surface of area 1.0 xx 10^(4) m^(2) and work function 5.6 eV , 0.53 % of the incidentphotons eject photoelectrons find the number of photoelectrons emited per second and their minimum energies (in eV)Take 1 eV= 1.6 xx 10^(-19) J

When a beam of 10.6 eV photons of intensity 2.0 W //m^2 falls on a platinum surface of area 1.0xx10^(-4) m^2 and work function 5.6 eV, 0.53% of the incident photons eject photoelectrons. Find the number of photoelectrons emitted per second and their minimum and maximum energy (in eV). Take 1 eV = 1.6xx 10^(-19) J .

A light of intensity 16 mW and energy of each photon 10 eV incident on a metal plate of work function 5 eV and area 10^(-4)m^(2) then find the maximum kinetic energy of emitted electrons and the number of photoelectrons emitted per second if photon efficiency is 10% .

A light beam of interest 3.01xx10^(-3) W m ^(-2) is incident normally on the square -sapped metal surface of side 1 cm and with work function 2 eV . The intensity of light is equal distributed among the three constituents' wavelength , 400 nm, 550 nm and 650 nm. Each photon emits one electron without any loss in the energy. The number of electrons emitted per second from the metal surface is

On a metal with work function 2.0 eV light of wavelength 400 nm falls, maximum velocity of ejected photoelectron are 6.22xx10^(x)m//s. . Hence x is :

Ultraviolet light of wavelength 300nn and intensity 1.0Wm^-2 falls on the surface of a photosensitive material. If one per cent of the incident photons produce photoelectrons, then the number of photoelectrons emitted per second from an area of 1.0 cm^2 of the surface is nearly