Physics CBCS Syllabus

10. Principles of nuclear radiation detection, Geofrey G. Eicholz and John W.Poston, ANN Arbor Science Publishers, (1980) 20PH3019 GENERAL PHYSICS LAB I Credits: 0:0:2 Course Objectives: 1. To get practical skill on basic optical experiments. 2. To get practical skill on non-ideal elements, such as lasers and optics in experiments.. 3. To get practical skill on basic sound and ultrasonic experiments. Course Outcomes: At the end of the course, the student will be able to 1. apply knowledge on basic Physics experiments to solve practical problems. 2. apply experimental principles and error calculations to electromagnetism. 3. analyze basic quantities in electromagnetism. 4. present concepts and describe scientific phenomena. 5. design experiments, and analyze and interpret data. 6. get practical skill on analyzing the Magnetic properties of the material HoD can give any 10 relevant experiments at the beginning of the course in each semester. 20PH3020 GENERAL PHYSICS LAB II Credits: 0:0:2 Course Objectives:: 1. To get practical skill on digital electronics. 2. To get practical skill in studying the characteristics of low power semiconductor devices. 3. To get practical skill on analyzing the characteristics of Diode and transistor. Course Outcomes:: At the end of the course, the student will be able to 1. understand the practical difficulties in measuring the standard parameters. 2. architecture of microprocessors and methodology of programming 3. design basic electric circuits using software tools. 4. identify, formulate and sole engineering problems with simulation. 5. experience in building and troubleshooting electronic circuits. 6. write simple program using microprocessor for practical applications. HoD can give any 10 relevant experiments at the beginning of the course in each semester. 20PH3021 ADVANCED PHYSICS LAB I Credits: 0:0:2 Course Objectives: To learn practical skills on 1. Thin film coating devices 2. Operation of physical method of thin film preparation 3. Synthesis of thin films through chemical route Course Outcomes: At the end of the course, the student will be able to  apply the knowledge prepation of thin films  demonstrate physical method of thin film preparation  demonstrate the chemical method of thin film preparation  evaluate the electrical properties of thin films  estimate the hall measuremets APPLIED PHYSICS (2020)