Loyola College M.Sc. Chemistry April 2007 Nuclear & Solid State Chemistry Question Paper PDF Download

LOYOLA COLLEGE (AUTONOMOUS), CHENNAI – 600 034

LM 49

M.Sc. DEGREE EXAMINATION – CHEMISTRY

FOURTH SEMESTER – APRIL 2007

CH 4952 – NUCLEAR & SOLID STATE CHEMISTRY

 

 

Date & Time: 25/04/2007 / 9:00 – 12:00      Dept. No.                                       Max. : 100 Marks

 

 

PART – A

Answer all the questions.                                            (10 x 2 = 20 marks)

  1. Give the unit cell parameters of (a) Monoclinic (b) rhombic systems
  2. What is a photovoltaic cell?
  3. Draw the solid state structures of (a) CdCl2      (b) SiO2
  4. What is a glide plane?
  5. Li+ doped in NiO is a good conductor. Explain.
  6. What are isotones? Give one example.
  7. What is the mechanism of g-ray emission?
  8. Define a Curie. How is it derived?
  9. Mention the principle involved in Geiger-Muller (GM) counter.
  10. State the nuclear spin of (a)       (b)

PART  – B                   (8 x 5 = 40 marks)

 

Answer any EIGHT questions.

  1. Write a note on Bravais lattices.
  2. Explain the “screw axis” and the operation involved.
  3. Write a note on photogalvanic cells.
  4. What are organic semiconductors? Explain their advantages.
  5. What are tungsten bronzes? Explain their properties.
  6. Discuss the inclusion compounds formed by graphite and their conducting
    characteristics.
  7. Write a note on scintillation counters.
  8. Discuss the principle and the construction of cyclotron.
  9. Write a note on chemical dosimeters.
  10. Describe the use of radioisotopes in medicine.
  11. Give the merits of the nuclear shell model of the nucleus.

 

PART – C                   (4 x 10 = 40 marks)

 

Answer any FOUR questions.

 

  1. Discuss the behaviour of high temperature superconductors. Explain the
    Bardeen-Cooper-Schriefer (BCS) theory.
  2. Describe the photoelectrocatalysis in splitting of water using TiO2 and SrTiO3.
  3. Explain the “atomic scattering factor” and “structure factor” in deriving the
    electron density by Fourier transform method.
  4. Derive the expression for binding energy of the nucleus using liquid drop model.
  5. Discuss the mechanism of a-ray emission from the nucleus.
  6. Discuss the fission yield curve. Discuss the energy involved and mechanism of
    nuclear fission.

 

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