ATOMIC AND NUCLEAR PHYSICS
N.P. RAMESHにより
1. NUCLEAR PHYSICS
1.1. Properties of Nucleus
1.1.1. Size, charge, mass, spin
1.1.2. Binding energy
1.2. Packing fraction
1.2.1. Semi empirical mass formula.
1.3. Nuclear reaction
1.3.1. Induced radio activity
1.3.2. Artificial transmutation
1.3.3. Applications of radio isotopes
1.4. Production and detection of neutrons
1.4.1. Properties of neutrons
2. NUCLEAR FISSION, FUSION AND ELEMENTARY PARTICLES
2.1. Nuclear forces
2.2. Nuclear models
2.2.1. Shell model
2.2.2. Liquid drop model
2.3. Nuclear fission
2.4. Nuclear fusion
2.4.1. Hydrogen – Hydrogen cycle
2.4.2. Carbon-Nitrogen cycle
2.5. Stellar energy Plasma
2.5.1. Confinement of plasmas
2.5.2. Magnetic confinement
2.6. Elementary particle
2.6.1. Baryons and Leptons
2.6.2. Antiparticles
2.6.2.1. Mesons
2.6.2.2. µ, π, K Mesons
2.6.3. Types of strange particles
3. STRUCTURE OF ATOM
3.1. Rutherford’s atom model
3.2. Bohr atom model
3.3. Sommerfeld’s relativistic atom model
3.4. Critical potentials
3.4.1. Frank and Hertz experiment
3.5. L-S and J-J coupling
3.6. The Bohr Magneton
3.6.1. Strern Gerlach experiment
4. FINE STRUCTURE OF SPECTRAL LINES
4.1. Fine structure of sodium D line
4.2. Zeeman effect
4.2.1. Normal and anomalous Zeeman effect
4.2.2. Larmor’s theorem
4.2.3. Paschen Back effect
4.2.4. Lande’s ‘g’ factor
4.3. Stark effect
5. POSITIVE RAYS
5.1. Thomson’s parabola method
5.1.1. Determination of e/m