Applied Physics – R18
October 10, 2020 2020-11-18 16:28Applied Physics – R18
Applied Physics – R18
Score Highest Marks in Applied Physics
PHYSICS TEACHES PEOPLE TO ACCEPT REALITY WITH AWE ADMIRATION
– Lise Meitner
Physics is a subject with no shortcuts, You can only score Top Marks or Apply physics in your respective branches of engineering only if you can understand the Physics in its purest form. This Applied Physics course is specially designed for you, exactly that suits your University syllabus and easily understandable.
In this course you can get all of the Applied Physics Lecture Videos, lecture notes & previous question papers
Each and Every Second Counts!
Exams are Not Far Away! Enroll Now and Start Learning Right Now!
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Unit One
Quantum Mechanics
- 1. Introduction to Quantum Physics
- 2. Black Body Radiation
- 3. Plank’s Radiation Law
- 4. Photoelectric Effect
- 5. Compton Effect
- 6. Dual Nature of Radiation
- 7. Debroglie Concept
- 8. Davisson Germer Experiment
- 9. Heisenberg Uncertainty Principle
- 10. Schrodinger’s Wave Equation
- 11. Bohr’s Interpretation
- 12. Particle in 1-D Potential Box
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Unit Two
Semiconductor Physics
- 1. Introduction to Semi-Conductors
- 2. Intrinsic Semiconductors – Carrier Concentration
- 3. Intrinsic Semiconductors – Fermi Level and Conductivity
- 4. Photo-Electric Effect
- 5. Compton Effect
- 6. Dual Nature of Radiation
- 7. Debroglie Concept
- 8. Davisson Germer Experiment
- 9. Heisenberg’s Uncertainty Principle
- 10. Schrodinger Wave Equation
- 11. Bohr’s Interpretation
- 12. Particle in 1-D Potential Box
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Unit Three
Optoelectronics
- 1. Radiative and Non-Radiative Recombination Mechanisms in semiconductors
- 2. Basics of LED
- 3. LED: Light Extraction and design issues
- 4. Visible LED: Photometry and colorimetry
- 5. Solar Cell
- 6. Solar Cell – 2 ( Contd. )
- 7. Solar Cell: Shockley Quiesser Limit
- 8. Basics of Photodetectors
- 9. Photodetectors: Figures of merit and types of devices
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Unit Four
- 1. Laser – Interaction Between Matter and Radiation
- 2. Einstein Co-efficients
- 3. Characteristics of Laser
- 4. Components of Laser
- 5. Ruby Laser
- 6. He-Ne Laser
- 7. Co2 Laser
- 8. Semi Conductor Lasers
- 9. Applications of Lasers
- 10. Fiber Optics – Introduction
- 11. Acceptance Angle & NA
- 12. Types of Fibers
- 13. Signal Propogation Through Optical Fibers
- 14. Signal Attenuation in Fibers
- 15. Applications and Advantages of Optical Fibers
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Unit Five
- 1. Fundamental Laws of E&M
- 2. Maxwell’s Equations
- 3. Dielectric Definitions
- 4. Types of Polarisation
- 5. Internal Field – Epstein’s Model
- 6. Internal Field – Lorentz Model
- 7. Clausius – Mosotti Equation
- 8. Pizeoelectricity
- 9. Ferroelectricity
- 10. Magnetic materials – Definitions
- 11. Classification of Magnetic Materials
- 12. Antiferro and Ferrimagnetic Materials
- 13. Hysterics
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