Question 1:
a) Describe the multipole moments for point charges.
b) How do you find out quadrapole moment of deuteron?
Question 2:
a) What are the properties of the nuclear forces?
b) Describe in detail the inferences drawn from the experimental data of deuteron.
Question 3:
a) Describe different kinds of nuclear reactions.
b) Obtain an expression for the Q-value of nuclear reaction.
Question 4:
a) What are magic numbers?
b) Describe in detail the nuclear shell model.
Question 5:
a) What are different interactions which exist among the elementary particles?
b) Describe charge conjugation and space inversion invariance.
Question 6:
a) What are block equations?
b) Obtain solutions for Block equations for steady state conditions.
Question 7:
a) Derive an expression for the separation between consecutive rotational lines in non-rigid rotator approximation.
b) Write down the applications of the rotational spectroscopy.
Question 8:
a) Describe energy levels, selection rules treating vibrating diatomic molecule as a harmonic oscillator.
b) What happens to the rotational constant of V = 1 state in comparison to V = 0 state if vibration rotation interaction occurs?
Question 9: Write notes on any two of the given:
a) Meson theory of nuclear forces.
b) Semi-empirical mass formula.
c) Conservations laws among elementary particles.
d) PQR branches in the IR spectrum.