In the emission of photo-electrons, the number of photo-electrons emitted per unit time depends upon the

The number of photoelectrons emitted per unit time depends on (v gt v_(0))

The mass of a photo electron is

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

Which of the following is correct regarding photo-electric effect? (i) The photo-electric effect takes place if lambda le lambda_(0) or upsilon ge upsilon_(0) . maximum K.E. of photo-electron K_(max) =hv=(hc)/(lambda) Einstein photo-electric effect equation hv=hv_(0) + K_(max) (ii) The maximum K.E. of electron or stopping potential V_(s)(K_(max) =eV_(s)) for a given metal depends only on frequency or wavelength of incident light and not on its intensity (iii) The saturation current (i =ne, n: number of photo-electrons ejected per unit time) depends on intensity and not frequency (iv) Normally it is assumed that one photon eject one electron. Practically several incident photons eject one electron. If quantum efficiency is given {"Quantum efficiency" =("Number of electrons ejected")/("Number of photons incident")} Number of electrons ejected must be calculated must be calculated and then calculate saturation current

In photoelectric emission the number of electrons ejected per second is proportional to the

In a photoelectric effect , the K.E. of electrons emitted from the metal surface depends upon

In photoelectric emission, the energy of the emitted electron is