Electronic Devices and Circuits
Course Outcomes:
1. Ability to design RC filter circuits and Appraise the working of BJT amplifiers
2. Ability to distinguish Class A, B, C and D power amplifiers
3. Explain construction and working of OP-AMPs and design waveform generator circuits
4. Describe the construction and working of FLIP FLOPS.
5. Explain the theory and working of IC 555 and design multi-vibrator circuits using IC 555.
6. Explain construction and working of microwave devices and optical fibre.
THERMAL AND STATISTICAL PHYSICS
Course Outcome:
Describe the statistical basis of Thermodynamics
Discuss and apply uniform, micro canonical, canonical and grand canonical ensemble theory
Explain and apply ensemble theory to simple gases
Review and apply quantum statistics to various indistinguishable systems
Describe the behaviour of Bose gas and apply Bose-Einstein statistics to black body radiation
Discuss the behaviours of Fermi gas and apply Fermi Dirac statistics to electron gas in a metal.
Summarize the phenomena of Phase Transition
MATHEMATICAL PHYSICS I
Course Outcomes
1. To apply and analyze the various vector and matrix operations for solving physical problems.
2. To demonstrate and utilize the concepts of Fourier series, Fourier transforms and Laplace
transform.
3. To apply partial differential equations and special functions for solving mathematical
problems.
Space Age Materials and Technologies
This course is an introductory course into the world of Materials and Technologies for space. The course is designed in such a manner that students and public who take up the course will have a foundation in sciences and technology of space age materials.
RENEWABLE ENERGY: PHY-GC-502
This course is an introductory course into the world of Renewable Energy. The course is designed in such a manner that students and public who take up the course will have a foundation in renewable energy sciences and technology on successful completion of the course.
Quantum Mechanics -1
Non-relativistic quantum mechanics including one and three dimensional eigenvalue problems