Engineering Physics syllabus for b tech physics 1st-year course that covers superconductivity, magnetic materials, quantum physics, and related chapters covers.

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BTech Engineering Physics course depends on the curriculum, so some universities allow two-semester course (Engineering Physics 1 and 2) while some keep it for one semester.

Engineering Physics Syllabus

Chapters that are listed in this online course are given below, some parts of this course are available separately in other courses.

Electrodynamics:

Vector and scalar fields Gradient, divergence, curl and their physical interpretation Gauss’s theorem and Stoke’s theorem (Statement only), Equation of continuity, Green’s theorem Maxwell’s equations (differential and integral form), Maxwell’s equations in free space, Propagation of electromagnetic waves in free space and its applications in daily life

Laser:

Introduction, Laser characteristics such as coherence, monochromaticity, collimated and angular divergence, laser action, stimulated absorption, spontaneous emission, stimulated emission, Population inversion, and pumping.

Derivation of Einstein’s coefficient relation Various level lasers, two-level, three-level, four-level, Ruby laser, Helium-Neon laser. Semiconductor laser, concepts of Holography, LASER Applications in engineering

Fiber Optics:

Basic principle of optical fibre, step index and graded index fibers Parameters of optical fibers, acceptance angle, numerical aperture, normalized frequency, No. of modes normalized frequency, No. of modes Attenuation in optical fibers, intermodal and intramodal dispersion (no derivation), optical fibers in communication, Applications of optical fibre in engineering

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Engineering Physics Practicals

There are many modern physics experiments that remain part of the engineering physics course. Experiments demonstration and viva-voce are for providing a new angle of physics visualization.

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Magnetic Materials:

The domain structure, superparamagnetic materials, Ferrites, Anti ferromagnetic, ferrimagnetic materials Ferromagnetism and related phenomena, The hysteresis loop, Types of magnetic materials, soft magnetic materials, hard magnetic materials, applications of magnetic materials in engineering, comparison between ferromagnetic and superparamagnetic materials

Superconductivity:

Introduction, Meissner effect, critical field, critical current Isotope effect, Types of superconductors: type I superconductors, type II superconductors, London equations Penetration depth, Cooper pair, and BCS theory (Qualitative only), high-temperature superconductors. Lavitataion Effect, SQUID etc

Quantum Mechanics:

Introduction to Quantum Mechanics, Group velocity and phase velocity (No relation), Wave function and its significance, Normalised wave function, Time Independent Schrodinger wave equations, concept of quantum computing. Particle in a one-dimensional box

External Links Engineering Physics

1.  Read about what is engineering physics.
2.  Follow Solid State Physics Course