Maxwell’s Equations, EM Waves and Optical Fibers
I. Maxwell’s Equations 1. Introduction to Vectors 2. Fundamentals of Vector Calculus 3. Divergence and Curl of Electric Field and Magnetic Field 4. Linear, Surface and Volume Integral 5. Description of Law of Electrostatics, Magnetism and Faraday’s Laws of EMI (a) Gauss’ Law in Electrostatics (Gauss Divergence Theorem) (b) Gauss Law of Electricity (Maxwell’s First Equation/Divergence Theorem) (c) Gauss’ Law of Magnetism (Maxwell’s Second Equation) (d) Faraday’s Law (Maxwell’s Third Equation) (e) Ampere’s Law (Maxwell’s Fourth Equation) (f) Biot-Savart’s Law 6. Current Density, Equation of Continuity and Displacement Current 7. Maxwell’s Equations in Vacuum II. EM Waves 1. The Wave Equation in Differential Form in Free Space 2. Plane Electromagnetic Waves in Vacuum 3. Transverse Nature of EM Waves 4. Polarization of EM waves III. Optical Fibers 1. Propagation Mechanism 2. Angle of Acceptance and Numerical Aperture 3. Modes of Propagation and Types of Optical Fibers 4. Attenuation: Causes of Attenuation & Expression For α 5. Point to Point Communication 6. Merits and Demerits 7. Numerical Problems.
Quantum Mechanics & LASER.
CONTENTS I. Quantum Mechanics 1. Introduction to Quantum Mechanics Introduction Planck’s Law for Energy Density 2. Wave Nature of Particles de Broglie’s Hypothesis (De Broglie’s Concept of Matter Wave) de Broglie’s Wavelength de Broglie’s Wavelength - Extended to Accelerated Electron 3. Heisenberg’s Uncertainty Principle and Applications Statement with three equations Application of Heisenberg’s Uncertainty Principle (Non-confinement of the Electrons in the Nucleus) 4. Schrodinger’s Time Independent Wave Equation 5. Applications of Schrodinger’s Wave Equation Particle in an One Dimensional Potential Well of Infinite Height Eigen Values, Eigen Function & Probability Density for Ground State & First Two Excited States 6. Wave Function Statement Physical Significance (Probability Density-Max Born Interpretation & Normalization) Properties of Wave Function 7. Numerical Problems II. LASER 1. Review of Spontaneous & Stimulated Processes 2. Energy Density Using Einstein’s Coefficients 3. Requisites of a Laser System 4. Condition for Laser Action 5. Principle, Construction & Working of CO2 Laser 6. Principle, Construction & Working of Semiconductor Laser 7. Applications of Lasers Laser Range Finder (Defense) Data Storage (Engineering) 8. Numerical Problems.
Definition and description of N Channel JFET.
DEFINITION OF JFET. CONSTRUCTION OF JFET. OPERATION OF JFET. CHARACTERISTICS OF JFET. SQUARE LAW EXPERSSION.
AUTOMATION (BASICS OF MECHANICAL ENGINEERING.)
Fixed Automation or Hard Automation Programmable or Soft Automation Flexible Automation Basic Elements of Automated System 1. Power source a. Power for Processes (Manufacturing Processes, Loading and unloading, Transporting work units, etc.) b. Power of Automation (Controller unit, Power to actuate control signals, Data acquisition and information processing) 2. A program of instructions (Part Programs) 3. A control system (Closed loop and Open loop systems. Advantages of Automation. Disadvantages of Automation. Numerical Control. Elements of a CNC System.
METAL OXIDE SEMICONDUCTOR AND FIELD EFFECT TRANSISTOR.
CONSTRUCTION WORKING CHARACTERISTICS DEPLETION TYPE MOSFET.
object oriented programming full notes
This files contains all topics of oops(Object oriented programming) theory based and practical based , this will help you to achieve good marks in your semester's exam as well as your carrier. This subject is also important for your higher studies as well as gate preparation. Be a pro in this subject which will help in your placement session, most of company asked question from this subject. so be strong in this subject.
basic of manufacturing
This files contains all topics of bms(basics of manufacturing)theory based and practical based , this will help you to achieve good marks in your semester's exam as well as your carrier. This subject is also important for your higher studies as well as gate preparation. Be a pro in this subject which will help in your placement session, most of company asked question from this subject. so be strong in this subject.
Mechanics Unit-3 2nd Sem IP University
This book contains the chapters of unit-3 . Some of the important points are also marked in the book. This is easy to understand chapters. And the chapters mentioned are important concerning the exams. This is clear and easy to understand topics, which will help in scoring good marks in the exams of the IP university.
EM unit-1 2nd sem B-Tech(CSE) IP University
These are the notes of the subject: Engineering Mechanics(EM) in B-tech (Computer science) 2nd Semester. These are the handwritten notes of unit-1. These are easy to understand and include all the topics covered by unit-1. They are prepared very carefully and are very clear, and will help you to achieve good marks in the exams.
EM 2nd Semester B-Tech(CSE) IP University
These are the notes of the subject: Engineering Mechanics in B-tech (Computer science) 2nd Semester. These are handwritten notes. These are easy to understand and all the topics are covered in it. They are prepared very carefully and are very clear, and will help you to achieve good marks in the exams.