Here are the detailed Dual Nature of Radiation and Matter Class 12 Notes Chapter 11. Thus the notes will be very helpful in preparation for examinations. Class 12 Physics notes cover all the important topics that are listed. It gives students a basic understanding of the past and the development of laws in physics. https://meritbatch.com/dual-nature-radiation-matter-cbse-notes-class-12-physics/
Dual Nature of Radiation and Matter Class 12 Notes Chapter 11
Dual Nature Of Radiation And Matter Notes
1. Photoelectric Effect The phenomenon of emission of photoelectron from the surface of metal, when a light beam of suitable frequency is incident on it, is called photoelectric effect. The emitted electrons are called photoelectrons and the current so produced is called photoelectric current.
Hertz’ Observation The phenomenon of photo electric emission was discovered in 1887 by Heinrich Hertz during his electromagnetic wave experiment. In his experimental investigation on the production of electromagnetic waves by means of spark across the detector loop were enhanced when the emitter plate was illuminated by ultraviolet light from an arc lamp.
Lenard’s Observation Lenard observed that when ultraviolet radiation were allowed to fall on emitter plate of an evacuated glass tube enclosing two electrodes, current flows. As soon as, the ultraviolet radiations were stopped, the current flows also stopped. These observations indicate that when ultraviolet radiations fall on the emitter plate, electrons are ejected from it which are attracted towards the positive plate by the electric field.
Dual Nature Of Radiation And Matter
2. Terms Related to Photoelectric Effects
There are many terms related to photoelectric effects which are of follow:
(i) Free Electrons In metals, the electrons in the outer shells (valence electrons) are loosely bound to the atoms, hence they are free to move easily within the metal surface but cannot leave the metal surface. Such electrons are called free electrons.
(ii) Electron Emission The phenomenon of emission of electrons from the surface of a metal is called electron emission.
(iii) Photoelectric Emission It is the phenomenon of emission of electrons from the surface of metal when light radiations of suitable frequency fall on it.
(iv) Work Function The minimum amount of energy required to just eject an electron from the outer most surface of metal is known as work function of the metal.
(v) Cut-off Potential For a particular frequency of incident radiation, the minimum negative (retarding) potential V0 given to plate for which the photoelectric current becomes zero, is called cut-off or stopping potential.
(vi) Cut-off Frequency The minimum frequency of light which can emit photoelectrons from a material is called threshold frequency or cut-off frequency of that material.
(vii) Cut-off Wavelength The maximum wavelength of light which can emit photoelectrons from a material is called threshold wavelength or cut-off wavelength of that material.
Dual Nature Of Radiation And Matter Class 12
3. Effect of Intensity of Light on Photo current For a fixed frequency of incident radiation, the photoelectric current increases linearly with increase in intensity of incident light.
Dual Nature Of Matter And Radiation Class 12
4. Effect of Potential on Photoelectric Current For a fixed frequency and intensity of incident light, the photoelectric current increases with increase in the potential applied to the collector. When all the photoelectrons reach the plate A, current becomes maximum it is known as saturation current.
Class 12 Dual Nature Of Matter And Radiation Notes
5. Effect of Frequency of Incident Radiation on Stopping Potential We take radiations of different frequencies but of same intensity. For each radiation, we study the variation of photoelectric current against the potential difference between the plates.
Class 12 Physics Chapter 11 Notes
6. Laws of Photoelectric Emission
(i) For a given material and a given frequency of incident radiation, the photoelectric current number of photoelectrons ejected per second is directly proportional to the intensity of the incident light.
(ii) For a given material and frequency of incident radiation, saturation current is found to be proportional to the intensity of incident radiation, whereas the stopping potential is independent of its intensity.
(iii) For a given material, there exists a certain minimum frequency of the incident radiation below which no emissions of photoelectrons takes place. This frequency is called threshold frequency.
Above the threshold frequency, the maximum kinetic energy of the emitted photoelectron or equivalent stopping potential is independent of intensity of incident light but depends only upon the frequency (or wavelength) of the incident light.
(iv) The photoelectric emission is an instantaneous process. The time lag between the incidence of radiations and emission of photoelectron is very small, less than even 10-9 s.
Dual Nature Of Radiation And Matter Notes Class 12
7. Einstein Photoelectric Equation Energy Quantum of Radiation, Kmax = hv – Ф0 where, hv = energy of photon and Ф = work-function
NOTE: According to Planck’s quantum theory, light radiations consist of tiny packets of energy called quanta. One quantum of light radiation is called a photon which travels with the speed of light.
Dual Nature Of Matter And Radiation Notes
8. Relation between Stopping Potential (V0) and Threshold Frequency (v0)
Class 12 Physics Dual Nature Of Radiation And Matter Notes
9. Important Graphs related to Photoelectric Effect
(iii) Frequency (v) and photoelectric current (I) graph. This graph shows that the photoelectric current (I) is independent of frequency of the incident light till intensity remains constant.
(iv) Intensity and stopping potential (V0) graph
(v) Photoelectric current (I) and time lag (t) graph is given by
