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FREE ELECTRON THEORY.pptx
- 2. Current Density It is the current flowing across unit area of a metal in the presence of an external electric field. It is given by j = nevd where n is the carrier concentration, e is the charge of electron and vd is the drift velocity of free electrons. Its unit of measurement is Ampere/metre2.
- 3. Mean Free Path & Mean Free Time It is the average distance travelled by free electrons between two successive collisions with lattice ions in a metal subjected to electric field. It is the average time taken by the free electrons between two successive collisions with the lattice ions in a metal subjected to electric field.
- 4. Postulates of Classical Free Electron Theory • Metals consist of atoms, which in turn, consist of a nucleus and electrons. • Valence electrons are free and the metal is visualized as an array of ions permeated by a gas of free electrons. • In the absence of an electrical field, electrons move in random directions colliding with ions or free electrons. • In an electrical field, free electrons are accelerated and move in the opposite direction compared to that of the electric field. • Electron velocities obey Maxwell–Boltzmann distribution function. • Free electrons move without interaction between them and they obey the laws of classical kinetic theory of gases. • Free electrons move in a uniform potential field since ions are fixed in the lattice.
- 5. MERITS OF CLASSICAL FREE ELECTRON THEORY • It explains the Ohm’s law. • It explains the electrical and thermal conductivities of metals. • It derives Wiedemann–Franz law. • It explains the optical properties of metals.
- 6. DRAWBACKS OF CLASSICAL FREE ELECTRON THEORY • It fails to explain the photoelectric effect, Compton effect, black body radiation, etc. • It gives a value of 4.5R for the specific heat of metals. But, the experimental value is only 3R. • It does not explain the ferromagnetism. • The long mean free paths (more than one cm) of the free electrons at low temperatures cannot be explained on the basis of the classical theory. • Experimental results shows that paramagnetism of metals is independent of temperature which deviates from classical result that paramagnetic susceptibility is inversely proportional to the temperature.
- 7. ELECTRICAL CONDUCTIVITY Electrical conductivity refers to the ability of the metal to conduct electrical energy.
- 8. QUANTUM FREE ELECTRON THEORY The important assumptions made by Sommerfeld are given below: • The free electrons move in a constant potential inside the metal and are confined within defined boundaries. • The eigen values of the conduction electron are quantized. • The electrons are considered to posses wave nature. • In the various allowed energy levels, distribution of electrons takes place according to Pauli’s exclusion principle. • Mutual attraction between electrons and lattice ions and the repulsion between individual electrons may be ignored.
- 9. DIFFERENCE BETWEEN CLASSICAL AND QUANTUM FREE ELECTRON THEORY
- 10. THANK YOU