Physics-I Dr. Anurag Srivastava

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Physics-I Dr. Anurag Srivastava Web address: http://tiiciiitm.com/profanurag Email: profanurag@gmail.com Visit me: Room-110, Block-E, IIITM Campus

Syllabus Physics of Materials: Crystal structure, crystal systems, energy bands in solids, Brillouin zones, classification of solids, conductivity in metals and concepts of Fermi level, effective mass and holes, concept of phonons, electron distribution function, Fermi-Dirac distribution function, properties of bulk materials and nanomaterials. Synthesis and characterization techniques. Carbon materials, Graphene and 2D materials and its applications. Laser and Fiber Optics: Principles of lasers, Einstein Coefficients and their relations, Types of Lasers and their applications. Concept of optical fibers and types of optical fibers, modes of propagation, fiber optic communication, optical fiber sensors, connector and couplers. 2

Syllabus Electrodynamics: Maxwell s equations: differential and integral forms, significance of Maxwell s equations, displacement current and correction in Ampere s law, electromagnetic wave propagation, transverse nature of EM waves, wave propagation in bounded system, applications. Quantum Physics: Dual nature of matter, de-broglie Hypothesis, Heisenberg uncertainty principle and its applications, postulates of quantum mechanics, wave function & its physical significance, probability density, Schrodinger s wave equation, eigen values & eigen functions, Applications of Schroedinger equation. 3

Reference Books: Panofsky & Phillips, Classical Electricity & Magnetism, 2 nd ed., Dover Publications, 2005. (Text Book). David J Griffith, Introduction to Quantum Mechanics,2 nd ed., PHI, 2013. (Text Book). Avadhanulu, M. N, & Kshirsagar, S. G., A Textbook of Engineering Physics, S. Chand, 2014. (Text Book) Neeraj Mehta, Applied Physics for Engineers, PHI Learning Pvt. Ltd., 2011. (Text Book) Fiber optic communication- J Keiser (McGraw Hill) (Text Book) David J Griffith, Introduction to Electrodynamics, 4 th ed., PHI, 2014. (Ref.). Paul Dirac, Principles of Quantum Mechanics, 4 th ed., Oxford Uni. Press, 2004. (Ref.) Kittel, C., Introduction to Solid State Physics, 8 th ed., Wiley, 2014. (Ref.) Ohring, M., Engineering Material Science, Academic Press, 1995. (Ref.) 4

Evaluation Component Duration Marks Minor Test 1 One Hour 20 Minor Test 2 One Hour 20 Lab Assignment + Class Performance (attendance, interaction and presentation) 20 Major Test Two Hour 40 Total Marks 100 5

Engineering Physics Laboratory Block F- Ground Floor 1. Study of Hall Effect 2. Resistivity and band gap of semiconductor by Four Probe Setup 3. Frank Hertz Experiment 4. Solar Energy Trainer 5. e/m by magnetron valve 6. numerical aperture & loss measurement of a given Optical Fiber 7. Investigation of B-H Curve 8. Lattice Dynamic 9. Fiber Optic Trainer 10. Forbidden Energy band gap measurement 11. Dielectric Constant measurement 12. Laser Trainer 13. Plank's Constant using LED 14. Laser Beam Parameters 6

Reference Books: Lab Practical Physics- G L Squires A text book of practical physics-william Watson Practical Physics- C L Arora Text Book of practical Physics- M N Srinivasan Engg. Physics Practical- Rao, Krishna, Rudramamba 7

Learning Objectives: Theory 1. The course has been designed in such a way so that a ICT graduate can understand the fundamental concepts of physics and chemistry of materials. 2. Besides the basic concepts, how it is useful in variety of possible applications. 3. There are few topics of future interest too, like lasers, fiber optics and 1D/2D materials, especially the wonder material grapheme. 4. Lot many opportunity for those who are interested in making their career as researcher in the area of scientific computing and IoT projects. Fundamentals of Electrical EnginPHYring 8

Learning Objectives: Experiments 1. The experiments have been introduced to visualize the fundamental concepts of Physics. 2. Most of the experiments are based on the concepts, which have been taught during 12 th at a very basic level but by doing experiment they can visualize the concept. 3. Few experiments are being introduced to make the students aware about new concepts and tools of modern physics and very useful for the understanding the other subjects like in Materials science, Optics, Semiconductor physics, Magnetism and Communication electronics. Fundamentals of Electrical EnginPHYring 9

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