If the power of the source of incident light is increased 4 times, by what factor would the maximum velocity of the photoelectron increase?

For a metal surface, ratio of the stopping potentials for two different frequencies of incident lights is 1 : 4 , what is the ratio of the maximum velocities in the two cases?

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

When the energy of the incident radiation is increased by 20%, the kinetic energy of the photoelectrons emitted from a metal surface increased from 0.5eV to 0.8eV. The work function of the metal is

When the light of frequency 2v_(0) (where v_(0) is threshold frequency) is incident on a metal plate, the maximum velocity of electrons emitted is v_(01) . 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

If the height and the area of base of a right circular cone be increased by 4 times, then how many times the volume of the cone will be increased ?

Light rays of wavelength lambda and lambda/2 are incident on a a photosensitive metal surface, IF the maximum kinetic energy of the emitted photoelectrons from the metal surface in 2nd case be 3 times the maximum kinetic energy of emitted photoelectrons in the 1st case then determine the work function of the metal.

For two monochromatic radiations incident on the same metal surface, the stopping potentials are 1.0 V and 2.0 V. The ratio between the maximum velocities, of the emitted photoelectrons is