Assertion: If the intensity of incident radiation on a metal is doubled, then K.E. of photoelectrons emitted will be doubled.
Reason: `K.E.=1/2mv^2=h(v-v_0),`
where v is the velocity of photo electrons.

If intensity of radiation falling on metal surface is doubled, what happens to K.E. of electron emitted?

The frequency of incident light falling on a photosensitive metal plate is doubled, the K.E of the emitted photo-electrons is

The work function of a metal is 4.3 eV. Find the K.E. and the velocity of photoelectrons emitted when radiation of wavelength 2500 overset (@)(A) is incident on it. (Mass of electron 9.1 xx 10^-31 kg )

When the light of frequency 2 v_(0) (where v_(0) is threshold frequency), is incident on a metal plate, the maximum velocity of electrons emitted is v_(1) . When the frequency of the incident radiation is increased to 5 v_(0) , the maximum velocity of electrons emitted from the same plate is v_(2) . the ratio of v_(1) to v_(2) is

Einstein's photoelectric equation states that 1/2 mv^2=hv-hv_0. In this equation, v refers to

Photoelectric work function for a metal surface is 3 eV. Find maximum K.E., maximum speed of photoelectron emitted when radiation of wavelength 4000overset@ A is incident, (mass of electron= 9.1 xx 10^-31 kg ).