## Topic outline

- General
- Topic 1
- Life Science
- Centre of Mass Frame of Reference
- Centrifugal force
- Collision and Centre of Mass System
- (1) Electric Field and Calculation of Electric Field for various systems
- (2) Electric flux and Gauss’s law
- (3) Application of Gauss’s law
- (4) Electric dipole and its behavior under electric field
- (5) Dielectric materials and Capacitors
- (6) Polarization and Dielectric Materials
- (7) Method of image
- (8) Magnetic Field Lesson 3.1 Magnetic Field
- (9) Chapter 3.2 Ampere’s Circuital Law and its Applications
- (10) Magnetic Field Lesson 3.3 Magnetic Force
- (11) Lesson 4.1 Magnetic parameters in matter, magnetization, magnetic field, susceptibility, permeability, relation between B, H, M
- (12) Magnetic Properties of Matter Lesson 4.2 Ferromagnetism, B-H curve, hysteresis
- (13) Chapter 5.1 Faraday’s law and Lenz’s law
- (14) Electromagnetic Induction Lesson 5.2 Self and Mutual Inductance
- (15) Maxwell's equation -Introduction of Displacement Current
- (16) Chapter 6.1 Analysis of AC circuits using Kirchhoffs laws
- (17) Chapter 6.2 A C Bridges for measurement of Capacitances and Inductances
- (18) Lesson 6.3 Circuit Analysis Theorems
- (19) Ballistic GalvanometerLesson 7.1 Basic Theory of the Ballistic Galvanometer
- (20) Ballistic GalvanometerLesson 7.2 Basic Parameters associated with the Ballistic Galvanometer
- (1) Zerith Law of Thermodynamics
- (2) First Law of Thermodynamics
- (3) Second law of thermodynamics
- (4) Applications of Second law of thermodynamics
- (5) Entropy I
- (6) Change in Entropy and Third Law of Thermodynamics
- (7) Maxwell’s Thermodynamical Relations
- (8) Applications of Maxwell’s Thermodynamical Relations part1
- (9) Applications of Maxwell’s Thermodynamical Relations Part -2
- (10) Thermodynamic potentials
- (11) Magnetic work and adiabatic cooling
- (12) Phase transition
- (13) Maxwell law of Distribution of velocities
- (14) Root Mean Square Speed And Mean Free Path
- (15) Transport Phenomena
- (16) Behaviour of real gases
- (17) Van der Waals gas equation
- (18) Joule Thomson Effect
- Differential Calculus
- Differential Equations
- Dynamics of system of particles
- Euler Cauchy Equation
- First Order Exact Differential Equations
- First Order Homogeneous Differential Equations
- First Order Separable Differential Equations
- Fundamentals of Dynamics
- Linear Momentum
- Momentum of variable mass system
- Non-inertial frame of reference
- Oscillations
- Partial Differentiation
- Partial Differentiation & Maxima-Minima
- Gamma & Beta Functions, Error Function
- superposition of perpendicular hormonic motion-report
- System_with_two_degrees_of_freedom
- CHAPTER-COUNTERS
- CHAPTER-SHIFT REGISTERS
- Computer Organization_ Input_output and data storage devices
- Hexadecimal number system and arithmetic
- Rotational Dynamics Mechanics-I
- Rotational Dynamics Mechanics-II
- Rotational Dynamics Mechanics-III
- Rotational Dynamics Mechanics-IV
- Rotational Dynamics Mechanics-V
- Rotational Dynamics Mechanics-VI
- Second Order Linear Homogeneous Differential Equation
- Second Order Linear Homogeneous Differential Equation (Continued)
- The D Operator & the Non-Homogeneous Equation
- Work and energy (I)
- Work and energy (II)
- Topic 76