PH 1810 / 1801 – STATISTICAL MECHANICS

Date : 05/05/2008 Dept. No. Max. : 100 Marks

Time : 1:00 – 4:00

PART A ( 20 MARKS )

ANSWER ALL QUESTIONS. Each question carries 2 marks.

Sketch the Maxwell velocity distribution
How does the vibrational contribution to the specific heat vary with temperature ?
What are quasi-particles ? Give an example.
What is the pressure exerted by an ideal Fermi gas at absolute zero ?
What is the importance of the Chandrasekhar limit ?
What is the implication of Einstein’s result for the energy fluctuations of blackbody radiation ?
State Nyquist theorem.

PART B ( 30 MARKS )

ANSWER ANY FOUR QUESTIONS. Each question carries 7.5 marks.

State and explain the basic postulates of statistical mechanics.
Obtain the distribution for an ideal Maxwell –Boltzmann gas.
Explain Bose-Einstein condensation. Discuss the super-fluidity of Helium by considering it as a form of Bose-Einstein condensation.
Derive the Richardson-Dushman equation, which describes thermionic emission.
Obtain the relations, which state the Wiener-Khintchine theorem.

PART C ( 50 MARKS )

ANSWER ANY FOUR QUESTIONS. EACH QUESTION CARRIES 12.5 MARKS.

(b) Prove Liouiville theorem.

Calculate the entropy of an ideal Boltzmann gas using the micro canonical ensemble. Explain the corrections to be made to obtain the Sackur-Tetrode equation.

Calculate the pressure exerted by a Fermi-Dirac gas of relativistic electrons in the ground state. Use the result to explain the existence of the Chandrasekhar limit on the mass for a white dwarf.
(a) Calculate the concentration fluctuations for a grand canonical ensemble. Show that for an ideal classical gas it increases as the volume of the gas increases.

(b) Prove the Nyquist theorem.