STATEMENT-1: The kinetic energy of photo-electrons increases with increase in frequency of incident light were `vgtv_(o).`
STATEMENT-2: Whenever intensity of light is increased the number of photo-electron ejected always increases.

The kinetic energy of photo electrons depends on (A) Frequency of incident radiation (B) Velocity of incident radiation (C) Intensity of incident radiation (D) Wavelength of incident radiation

True statements among the following are (A) Number of wave generated by the electrons in the 5th orbit is five (B) As the temperature increases maximum intensity of radiation emitted by the black body shifts towards lower wavelength side (C) As the intensity of incident radiation increases kinetic energy of photo electrons increases

(A) : In photoelectric effect, when the frequency of incident light is doubled kinetic energy is more than doubled (R) : Photo current increases when the intensity of incident light is increased and is independent of frequency

Blue light can eject photo electron from a photo sensitive surface while orange light cannot. Then

Light of frequeny 1.5 times the threshold frequency , imcident on a photo sensitive material .If the frequency of incident light is halved and the intensity is doubled the photo current becomes

(A): With increase of intensity of incident light, photoelectric current also increases. (R): If the intensity of incident radiation is increased, more number of photons strike the metal surface there by liberating more photoelectrons. Then photoelectric current increases.

With an increase in the extent of penetration of valence electrons, ionisation energy

The work function for a metal is 4 eV. To eject the photo electrons with zero velocity the wavelength of the incident light should be

The photoelectric work function of a metal surface is 2eV.When light of frequency 1.5xx10^(15) Hz is incident on it, the maximum kinetic energy energy of the photo electrons ,approximately is