Rotational Dynamics, Angular Momentum, Gravitation, Bulk Properties of Matters, Special Theory of Relativity, Inductance, Alternating Current Circuits, ElectroMagnetic Waves (Maxwell’s Equations)
Lab-III
1. Measurement of resistance using a Neon flash bulb and condenser 2. Conversion of a galvanometer into voltmeter & an ammeter 3. Measurement of low resistance coil by a Carey Foster Bridge. 4. Resonance frequency of an acceptor circuit 5. Resonance frequency of a Rejecter Circuit. 6. Study of the parameter of wave i.e. amplitude, phase and time period of a complex signal by CRO.
1. Beiser A. Concepts of Modern Physics. 4th ed. McGraw-Hill Book Co.s,1987
2. Giancoli, Douglas, C. Physics for Scientist and Engineers with Modern Physics. 2nd ed. Prentice Hall Inc, 1988.
3.Sear and Zemansky. University Physics with Modern Physics. 12th ed. Pearson, 2008
4. Fundamentals of Physics by David Halliday, Robert Resnick, Jearl Walker 10th edition.
The assessment of objectives will be achieved through homework assignments, quizzes, and common examinations with common grading.
Sessional: 20 marks (Assignments (05), quiz(05), presentations(5), attendance/class participation (05))
Mid Term exam: 30 marks
Final exam: 50 marks
Students who successfully complete the course will be able to demonstrate knowledge and understanding of the concepts, principles, solution approaches and operational techniques for the various topics covered in the course.
Wednesday (01:00 - 02:20), Thrusday (01:00 - 02:20)
Attendance: 80% class attendance is compulsory.
Disciplines: All students must be disciplined in the classroom.
Time bounds: Assignments must be submitted as per time schedules.
Time table: Students must follow the classroom timings as per time table.