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Course Structure
The Curriculum Section of this Course covers the following Content :
Lecture 1: Calculus of Single and Multiple Variables
Lecture 2: Multiple Integral
Lecture 3: Partial Derivative
Lecture 4: Jacobian
Lecture 5: Imperfect and Perfect Differentials
Lecture 6: Vectors
Lecture 7: Fourier Series
Lecture 8: Taylor’s Theorem
Lecture 1: Divergence
Lecture 2: Stoke’s Theorem
Lecture 3: Green’s Theorem
Lecture 4: Linear Differential Equations with Constant Coefficients
Lecture 5: Matrix
Lecture 6: Determinants
Lecture 7: Algebra of Complex Number
Lecture 1: Introduction
Lecture 2: Newton’s Laws of Motion
Lecture 3: Frame of Reference
Lecture 4: Uniform Circular Motion
Lecture 5: Motion of Bodies in Contact
Lecture 6: Friction and Frictional Force
Lecture 7: Computation of Velocity and Acceleration
Lecture 8: Spherical Polar Coordinates
Lecture 9: Circular Cylindrical or Cylindrical Polar Coordinates
Lecture 10: Fictitious or Pseudo Force
Lecture 11: Centrifugal Force
Lecture 12: Uniformly Rotating Frames
Lecture 13: Free Fall of a body on Earth’s Surface
Lecture 14: Foucault’s Pendulum the Period of Precession
Lecture 15: Motion in a central Force Field
Lecture 16: General Features of The Motion
Lecture 17: Motion in Arbitrary Potential Field
Lecture 18: Motion in an inverse-Square law Force Field
Lecture 19: The Kepler Problem : Inverse Square Law
Lecture 20: Escape Velocity
Lecture 21: Conservative and Non-Conservative Forces
Lecture 1: System of Particle
Lecture 2: Centre of Mass
Lecture 3: Motion of Centre of Mass
Lecture 4: Conservation of Linear Momentum
Lecture 5: Centre of Mass-Frame of Reference
Lecture 6: Conservation of Angular Momentum
Lecture 7: Law of Conservation of Linear Momentum
Lecture 8: Law of Conservation of Angular Momentum
Lecture 9: Conservation of Energy
Lecture 10: Conservative Force and Potential Energy
Lecture 11: Motion of a system with Variable Mass
Lecture 12: Collisions
Lecture 13: Types of Collision
Lecture 14: Rigid Body
Lecture 15: Some Physical Quantity in Rotational Motion
Lecture 16: Analog Between Translatory Motion and Rotatory Motion
Lecture 17: Parallel and Perpendicular Axes Theorem
Lecture 18: Moment of Inertia of Some Uniform Bodies
Lecture 19: Angular Momentum and Inertia Tensor
Lecture 20: Principal Axis-Principal Moments of Inertia
Lecture 21: Fluid and Ideal Fluid
Lecture 22: Non-viscous Fluid and Incompressible Fluid
Lecture 23: Streamline and Its properties
Lecture 24: Stream Line Tube
Lecture 25: Streamline flow and Turbulent flow
Lecture 26: Viscous Force, Viscosity and Coefficient of Viscosity
Lecture 27: Velocity of efflux and Torricellie Theorem
Lecture 28: Stoke’s Law
Lecture 29: Pascal’s law
Lecture 30: Floatation
Lecture 31: Archimede’s Principle
Lecture 32: Equation of Continuity
Lecture 33: Euler’s equation
Lecture 34: Bernoulli’s Theorem
Lecture 1: Simple Harmonic Oscillator
Lecture 2: Superposition of One, Two or More Simple Harmonic Oscillators
Lecture 3: Lissajous Figures
Lecture 4: Free, Damped, Forced and Maintained Oscillations
Lecture 5: Resonance
Lecture 6: Waves
Lecture 7: Other Factors-Group Velocity and Phase Velocity
Lecture 8: Sound and Sound Waves
Lecture 9: Doppler Effect
Lecture 1: Fermet Principal
Lecture 2: Mirror and Types or Mirror
Lecture 3: Lens
Lecture 4: Principle of Superposition of Light Waves
Lecture 5: Interference of Light
Lecture 6: Young’s Doubles Slit Experiment
Lecture 7: Fresnel’s Bi-Prism Experiment
Lecture 8: Retardation
Lecture 9: Diffraction
Lecture 10: Rayleigh Criterion & Resolving Power
Lecture 11: Diffraction Grating
Lecture 12: Polarization of Light
Lecture 13: Polarisation by Reflection
Lecture 14: Double Refraction
Lecture 15: Polarodis
Lecture 16: Optical Rotation
Lecture 1: Electricity
Lecture 2: Coulomb’s Law
Lecture 3: Electric Field
Lecture 4: Gauss's Law
Lecture 5: Electric Potential
Lecture 6: Boundary Conditions
Lecture 7: Laplace’s Equation
Lecture 8: Conductors
Lecture 9: Capacitor and Capacitance
Lecture 10: Dielectrics
Lecture 11: Polarization
Lecture 12: Electrostatic energy
Lecture 1: Biot-Savart Law
Lecture 2: Ampere's Law
Lecture 3: Electro Magnetic Induction
Lecture 4: Faraday's Law of Electromagnetic Induction
Lecture 5: Self Inductance
Lecture 6: Mutual Inductance
Lecture 7: Transformer
Lecture 8: Electric Current
Lecture 9: Alternating Current
Lecture 10: Maxwell's Postulate : Displacement Current
Lecture 11: Plane electromagnetic waves
Lecture 1: Electromagnetic Energy, Poynting Theorem
Lecture 2: Reflection and Refraction of E.M. Wave
Lecture 3: Reflection Coefficient and Transmission Coefficient
Lecture 4: Motion of Charge Particles in E.M. Field
Lecture 5: Kinetic Theory of Gases
Lecture 6: Maxwell's Velocity or Speed Distribution Law : Deduction
Lecture 7: Specific Heat & Vandar Waal Gas
Lecture 1: Laws of thermodynamics Zeroth law, First Law and Its Consequence
Lecture 2: Isothermal and Adiabatic Processes, Reversible, Irreversible Processes
Lecture 3: Maxwell’s Thermodynamic Relations Thermodynamic Potentials
Lecture 4: Phase Transitions and Clausius-Clapyron Equation
Lecture 5: Charge Carriers in Semiconductors
Lecture 6: Intrinsic and Extrinsic Materials
Lecture 7: Law of Mass Action
Lecture 8: Impurity Compensation
Lecture 9: The Fermi-Dirac Distribution Function and Fermi Level
Lecture 10: Maxwell - Boltzmann distribution
Lecture 11: The Bose - Einstein distribution
Lecture 1: Special theory of Relativity
Lecture 2: Structure of Atomic Nucleus, Binding Energy
Lecture 3: Radioactivity and its Applications
Lecture 1: Black Body Radiation
Lecture 2: Photo Electric Effect
Lecture 3: Compton Effect
Lecture 4: Bohr atomic Model, X-rays & wave-Particle Duality
Lecture 5: Schrodinger Equation Reflection and Transmission at a Step Potential
Lecture 6: Pauli Exclusion Principle
Lecture 1: Crystal Structure, Bravais Lattices and Basis Miller Indices
Lecture 2: X-Ray Diffraction, Einstein and Debye Theory of Specific Heat
Lecture 3: Origin of Energy Bands. Concept of Holes and Effective Mass
Lecture 1: P-N Junctions, Transistor Circuits in CB, CE, CC Modes
Lecture 2: Operational Amplifiers
Lecture 1: Binary Addition & Subtraction
Lecture 2: Conversion From One to Another System
Lecture 3: Boolean Identities
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