Syllabus of URATPG 2019 physics

As we have discussed in previous blog about URATPG, now question comes about the syllabus of URATPG. Mainly, we will talk about the syllabus for physics. If you will look URATPG webpage, there is a pdf file saying that it is the same as you have studied in BSc. There are two type of programs in BSc one is pass course and another is honors but usually URATPG follows only pass course. Since, there are a lot of students who don't cover full syllabus and apply for URATPG. Here I am going to write main topics of that syllabus. Full syllabus classified in 9 parts and each part includes 4 areas of subject:

1. Mechanics & Oscillations
1. Physics Law and frame of reference, Coriolis force, conservation forces
2. Center of mass, rigid body
3. Motion under central forces, damped harmonic oscillations
4. Driven Harmonic oscillations, coupled oscillations
2. Electromagnetism
1. Standard vector fields, electric field and potential energy
2. Electric field in matter
3. Magneto-statics and magnetic field in matter
4. Maxwell's equations and electromagnetic waves
3. Optics
1. Interference
2. Diffraction
3. Polarization
4. Quantum optics and photonics
4. Thermodynamics and Statistical Physics
1. Thermal and adiabatic interactions
2. Production of law temperatures and applications, the distribution of molecular velocities, transport phenomena
3. Classical statistics
4. Quantum statistics
5. Mathematical Physics and Special Theory of Relativity
1. Orthogonal curvilinear coordinate system and their transformations, tensors, Dirac delta function
2. Lorentz transformation, four vector formulations, Doppler's effect, transformation between lab and center of mass frame with relativistic limits and examples of photon interaction.
3. Transformation of electric and magnetic fields in inertial frames, second order linear differential equations, Legendre, Laguerre, Hermite and Bessel polynomials
4. Techniques of separation of variables and its applications
6. Electronics and Solid State Devices
1. Circuit analysis and PN junction
2. Rectifiers and transistors
3. Transistor biasing and amplifiers
4. Oscillators and Logic Circuits
7. Quantum Mechanics and Spectroscopy
1. Evolution of quantum physics
2. Schrodinger wave equation and its solutions
3. Schrodinger equation solutions in special cases
4. H-atom, Atomic and Molecular spectroscopy
8. Nuclear and particle Physics
1. Properties of Nucleus, Nuclear Forces, Nuclear models
2. Radioactive decays, Nuclear Fission and Fusion, Nuclear Reactions
3. Interaction of Nuclear Radiation with matter, radiation detectors, particle accelerators
4. Elementary particles, fundamental interactions and quark model
9. Solid State Physics
1. Bonding in solids and crystal structure, crystallography and diffraction
2. Band theory of solids, semiconductors
3. Thermal properties of materials, electrical properties of materials
4. Magnetic properties of materials and superconductivity

If you want more generalisation of above topics, please look at pdf files on university website or please let me know, I shall provide you the links.