Einstein's photoelectric equation states that \(E_k=h \nu -\phi.\) In this equation \(E_k\) refers to:
1. | kinetic energy of all the emitted electrons |
2. | mean kinetic energy of the emitted electrons |
3. | maximum kinetic energy of the emitted electrons |
4. | minimum kinetic energy of the emitted electrons |
Kinetic energy with which the electrons are emitted from the metal surface due to photoelectric effect is
(1) Independent of the intensity of illumination
(2) Independent of the frequency of light
(3) Inversely proportional to the intensity of illumination
(4) Directly proportional to the intensity of illumination
The threshold wavelength for photoelectric emission from a material is 5200 Å. Photo-electrons will be emitted when this material is illuminated with monochromatic radiation from :
(1) 50-watt infrared lamp
(2) 50-watt ultraviolet lamp
(3) 1-watt ultraviolet lamp
(4) Both (2) and (3)
Threshold frequency for a metal is Hz. Light of falls on its surface. Which of the following statements is correct
(1) No photoelectric emission takes place
(2) Photo-electrons come out with zero speed
(3) Photo-electrons come out with m/sec speed
(4) Photo-electrons come out with m/sec speed
Einstein got Nobel prize on which of the following works
(1) Mass-energy relation
(2) Special theory of relativity
(3) Photoelectric equation
(4) (a) and (b) both
The photo-electrons emitted from a surface of sodium metal are such that
(1) They all are of the same frequency
(2) They have the same kinetic energy
(3) They have the same de Broglie wavelength
(4) They have their speeds varying from zero to a certain maximum
A metal surface of work function \(1.07\) eV is irradiated with light of wavelength \(332\) nm. The retarding potential required to stop the escape of photo-electrons is:
1. \(4.81\) eV
2. \(3.74\) eV
3. \(2.66\) eV
4. \(1.07\) eV
In a photo cell, the photo-electrons emission takes place
(1) After sec on incident of light rays
(2) After sec on incident of light rays
(3) After sec on incident of light rays
(4) After sec on incident of light rays
When light falls on a metal surface, the maximum kinetic energy of the emitted photo-electrons depends upon
(1) The time for which light falls on the metal
(2) Frequency of the incident light
(3) Intensity of the incident light
(4) Velocity of the incident light
The electrons are emitted in the photoelectric effect from a metal surface
(1) Only if the frequency of the incident radiation is above a certain threshold value
(2) Only if the temperature of the surface is high
(3) At a rate that is independent of the nature of the metal
(4) With a maximum velocity proportional to the frequency of the incident radiation