Lesson List
Units and Measurements
Measurement – Types of Unit and Classification
00:00:00
Measurement Error
00:00:00
Estimation of Error
00:00:00
Resolution of Vector
00:00:00
Order of Magnitude
00:00:00
Estimation of Error Sum and Difference
00:00:00
Estimation of Error Product and Division
00:00:00
Estimation of Error Power of Value
00:00:00
Significant Figures
00:00:00
To Derive a New Relation
00:00:00
Dimensions and Dimensional Analysis
00:00:00
Use of Dimensions
00:00:00
Numericals (Level 1)
00:00:00
Numericals (Level 2)
00:00:00
Motion in a Plane
Scalar and Vector
00:00:00
Types of Vector
00:00:00
Uniform Circular Motion (Speed Constant)
00:00:00
Non-uniform CM
00:00:00
Well-Wall of Death
00:00:00
Conical Pendulum
00:00:00
Circular Motion (Skidding of a Car on Curve Road)
00:00:00
Cpf and Cff (Centripetal Force and Centrifugal Force)
00:00:00
Centripetal Acceleration
00:00:00
Vertical Circular Motion
00:00:00
Bending of a Cyclist
00:00:00
Banking of Road
00:00:00
Car on a Concave Bridge
00:00:00
Numericals (Level 1)
00:00:00
Numericals (Level 2)
00:00:00
Motion in a Straight Line
Speed
00:00:00
Distance and Displacement
00:00:00
Velocity and Acceleration
00:00:00
Position-Time Graph
00:00:00
Velocity-Time Graph
00:00:00
Relative Velocity
00:00:00
Scalar and Vector
00:00:00
Types of Vector
00:00:00
Triangle Law of Vector Addition
00:00:00
Scalar Product (Dot Product)
00:00:00
Vector Product (Cross Product)
00:00:00
Parallelogram Law of Vector Addition
00:00:00
Classification of Scalar and Vector Quantity
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Equation of Kinematics (Ball Thrown Upward and Downward)
00:00:00
Numericals (Level 1)
00:00:00
Numericals (Level 2)
00:00:00
Numericals (Level 3)
00:00:00
Laws of Motion
Inertial and Non-Inertial Frame of Reference
00:00:00
Newton’s First Law of Motion
00:00:00
Newton’s Second and Third Law of Motion
00:00:00
Motion of a Body in a Lift
00:00:00
Law of Conservation of Linear Momentum
00:00:00
Force
00:00:00
Free Body Diagram (FBD) Part – 1
00:00:00
Free Body Diagram (FBD) Part – 2
00:00:00
Free Body Diagram (FBD) Part – 3
00:00:00
What is Friction
00:00:00
Static Friction
00:00:00
Kinetic Friction
00:00:00
Angle of Friction
00:00:00
Angle of Repose
00:00:00
Numericals (Level 1)
00:00:00
Numericals (Level 2)
00:00:00
Numericals (Level 3)
00:00:00
Work Energy & Power
Work (Introduction)
00:00:00
Work-Energy Theorem
00:00:00
Nature of Work Done
00:00:00
Work Done by a Variable Force
00:00:00
Work Done by Constant Force
00:00:00
Coefficient of Restitution (e)
00:00:00
Types of Energy
00:00:00
Conservative and Non-Conservative Force
00:00:00
Power
00:00:00
Collision
00:00:00
Loss in Kinetic Energy During Perfectly Inelastic Collision
00:00:00
Final Velocities of Bodies after a Head-on Elastic Collision
00:00:00
Collision Between Bullet and Vertically Suspended Block
00:00:00
Numericals (Level 1)
00:00:00
Numericals (Level 2)
00:00:00
Numericals (Level 3)
00:00:00
Thermal Properties of Matter
Heat vs Temperature
00:00:00
Heat and Motion
00:00:00
Thermal Expansion & Types
00:00:00
Coefficient of Cubical Expansion of an Ideal Gas and Relationship Between Coefficients of Expansion
00:00:00
Expansion of Liquid
00:00:00
Variation of Density with Temperature and Anomalous Expansion of Water
00:00:00
Specific Heat
00:00:00
Calorimetry and Change of State
00:00:00
Latent Heat
00:00:00
Effect of Pressure on Melting and Freezing Point
00:00:00
Thermal Conduction Steady State and Temperature Gradient
00:00:00
Thermal Conductivity
00:00:00
Heat Current & Thermal Resistance
00:00:00
Radiation and Prevost’s Theory of Heat Exchanges
00:00:00
Reflection, Transmission and Absorption
00:00:00
Relation Between a, r and t – Diathermanous and Athermanous Substance
00:00:00
Ferry’s Black Body
00:00:00
Emissive Power Emissivity & Absorptive Power
00:00:00
Stefan Boltzmann Law and Kirchhoff’s Law
00:00:00
Black Body Radiation Spectrum and Wien’s Displacement Law
00:00:00
Thermal Radiation Properties and Newtons Law of Cooling
00:00:00
Mathematical Expression for Newton’s Law of Cooling
00:00:00
Numericals (Level 1)
00:00:00
Numericals (Level 2)
00:00:00
Numericals (Level 3)
00:00:00
System of Particles and Rotational Motion
Perpendicular Axes Theorem
00:00:00
Kinetic Energy of a Rotating Body
00:00:00
Moment of Inertia
00:00:00
Center of Mass
00:00:00
Radius of Gyration
00:00:00
Radius of Gyration (Level 1)
00:00:00
Physical Significance of Moment of Inertia
00:00:00
Moment of Inertia of Rod and Ring
00:00:00
Moment of Inertia of Cylinder
00:00:00
Moment of Inertia of Disc
00:00:00
Moment of Inertia of Sphere
00:00:00
Parallel Axes Theorem
00:00:00
Torque Acting on a Rotating Body
00:00:00
Angular Momentum of a Rotating Body
00:00:00
Conservation of Angular Momentum
00:00:00
Rolling Down of a Body on an Inclined Plane
00:00:00
Kinetic Energy of Rolling Body
00:00:00
Comparison of Translational and Rotational Motion
00:00:00
Ratio of Types of Kinetic Energy
00:00:00
Numericals (Level 1)
00:00:00
Numericals (Level 2)
00:00:00
Numericals (Level 3)
00:00:00
Mechanical Properties of Solids & Fluids
Fluids Introduction
00:00:00
What is Fluid ?
00:00:00
Properties of Fluids
00:00:00
Pressure and It’s Applications
00:00:00
Thrust and Pressure
00:00:00
Upthrust and Apparent Weight
00:00:00
Example on Upthrust
00:00:00
Density and Specific Gravity
00:00:00
Pascal’s Law and Proof
00:00:00
Pressure Exerted by a Liquid Column
00:00:00
Variation of Pressure in an Accelerated Fluid
00:00:00
Variation of Pressure in a Non Accelerated Fluid
00:00:00
Variation of Pressure Due to Shape and Barometer
00:00:00
Manometer
00:00:00
Applications of Pascal’s Law – Hydraulic Lift
00:00:00
Law of Floatation
00:00:00
Steady Flow or Streamline Flow
00:00:00
Surface Tension and Molecular Theory
00:00:00
Cohesive, Adhesive Force and Molecular Range
00:00:00
Shape of Meniscus in a Narrow Tube
00:00:00
Angle of Contact and It’s Characteristics
00:00:00
Excess Pressure Inside a Liquid Drop
00:00:00
Ascent Formula
00:00:00
Solids Introduction
00:00:00
Elasticity & Elastic Bodies
00:00:00
Plasticity & Plastic Bodies
00:00:00
Stress
00:00:00
Types of Stress
00:00:00
Strain
00:00:00
Types of Strain
00:00:00
Elastic Limit & Hooke’s Law
00:00:00
Modulus of Elasticity
00:00:00
Young’s Modulus
00:00:00
Bulk Modulus & Compressibility
00:00:00
Modulus of Rigidity
00:00:00
Poisson’s Ratio
00:00:00
Elastic after Effect, Elastic Fatigue and Elastic Hysteresis
00:00:00
Elastic Potential Energy Per Unit Volume
00:00:00
Numericals (Level 1)
00:00:00
Numericals (Level 2)
00:00:00
Numericals (Level 3)
00:00:00
Gravitation
Newton’s Law of Gravitation
00:00:00
Kepler’s Laws
00:00:00
Gravitational and Inertial Mass
00:00:00
Orbital Critical Velocity of Satellite
00:00:00
Periodic Time of Satellite
00:00:00
Projection of a Satellite
00:00:00
Variation of ‘g’ Due to Altitude
00:00:00
Variation of ‘g’ Due to Depth
00:00:00
Variation of ‘g’ Due to Latitude
00:00:00
Gravitational Potential Energy
00:00:00
Binding Energy of a Satellite
00:00:00
Escape Velocity of a Satellite
00:00:00
Communication Satellite
00:00:00
Weightlessness
00:00:00
Numericals (Level 1)
00:00:00
Numericals (Level 2)
00:00:00
Numericals (Level 3)
00:00:00
Thermodynamics
Introduction
00:00:00
Some Important Terms
00:00:00
Equilibrium
00:00:00
Zeroth Law of Thermodynamics and Temperature
00:00:00
Heat and Work
00:00:00
Internal Energy
00:00:00
First Law of Thermodynamics
00:00:00
Applying First Law to Different Processes
00:00:00
Specific Heats of Gases and Mayer’s Formula
00:00:00
Quasi-Static Process and Isothermal Process
00:00:00
Types of Process
00:00:00
Adiabatic Relations Between P, V and T
00:00:00
Work Done in an Adiabatic Process
00:00:00
Work Done in a Cyclic Process
00:00:00
Work Done During Expansion
00:00:00
Indicator Diagram
00:00:00
Heat Engine and Second Law
00:00:00
Refrigerator
00:00:00
Reversible and Irreversible Process
00:00:00
Work Done in an Isothermal & Reversible Process
00:00:00
Work Done in an Isothermal & Irreversible Process
00:00:00
Carnot Engine
00:00:00
Carnot’s Theorem
00:00:00
Efficiency of Carnot’s Engine
00:00:00
Numericals (Level 1)
00:00:00
Kinetic Theory of Gases
Introduction
00:00:00
Perfect Gas Equation
00:00:00
Gay Lussac’s Law
00:00:00
Avogadro’s Law
00:00:00
Conventions
00:00:00
Dalton’s Law of Partial Pressure
00:00:00
Ideal Gas Equation
00:00:00
Boyles Law
00:00:00
Charles Law
00:00:00
Universal Gas Constant (R)
00:00:00
Pressure Exerted by the Gas
00:00:00
Average RMS and Probable Speeds
00:00:00
Kinetic Interpretation of Temperature
00:00:00
Energy of Gases Associated with DOF
00:00:00
Average Speed
00:00:00
Average Speed of Molecules
00:00:00
RMS Speed
00:00:00
Law of Equipartition of Energy
00:00:00
Degrees of Freedom
00:00:00
Degree of Freedom of Monoatomic, Diatomic & Triatomic Gases
00:00:00
Assumptions of Kinetic Theory of Gases
00:00:00
Specific Heat of Monoatomic and Diatomic Gases
00:00:00
Specific Heat for Triatomic & Polyatomic Gas
00:00:00
Graham’s Law of Diffusion
00:00:00
Numericals (Level 1)
00:00:00
Numericals (Level 2)
00:00:00
Numericals (Level 3)
00:00:00
Oscillations & Waves
Periodic Motion
00:00:00
Periodic Energy
00:00:00
Harmonic and Non-Harmonic Motion
00:00:00
Simple Harmonic Motion
00:00:00
Differential Equation of Linear SHM
00:00:00
Displacement in SHM
00:00:00
Velocity in SHM
00:00:00
Acceleration for SHM
00:00:00
Different Values of Displacement
00:00:00
Different Values of Velocity in SHM
00:00:00
Some Important Terms
00:00:00
Relation Between SHM and UCM
00:00:00
Potential Energy
00:00:00
Kinetic Energy
00:00:00
Total Energy
00:00:00
Graphical Representation of Displacement from Mean Position
00:00:00
Graphical Representation of Displacement from Extreme Position
00:00:00
Graphical Representation of Velocity from Mean Position
00:00:00
Graphical Representation of Velocity from Extreme Position
00:00:00
Graphical Representation of Acceleration from Mean Position
00:00:00
Graphical Representation of Acceleration from Extreme Position
00:00:00
How to Prove SHM
00:00:00
Horizontal Spring Mass System
00:00:00
Vertical Spring Mass System
00:00:00
Spring Mass System in Lift
00:00:00
Series Combination of Springs
00:00:00
Parallel Combination of Springs
00:00:00
Principle of Superposition of SHM
00:00:00
Spring Mass System in Electric Field
00:00:00
Spring Mass System in Liquid
00:00:00
Spring Mass System in Partially Immersed Liquid
00:00:00
SHM in a Tunnel at Any Random Point
00:00:00
SHM in a Tunnel that Passes Through Diameter
00:00:00
Oscillation of Liquid in a U shaped Tube
00:00:00
Anti Parallel Combination and Reduced Mass System
00:00:00
Cutting of Springs
00:00:00
Simple Pendulum
00:00:00
SHM in a Simple Pendulum
00:00:00
Time Period of a Simple Pendulum
00:00:00
Calculate Effective Acceleration Due to Gravity
00:00:00
Free Oscillations, Damped Oscillations and Forced Oscillations
00:00:00
Resonant Oscillations and Coupled Oscillations
00:00:00
Introduction to Waves
00:00:00
Newton’s Formula
00:00:00
Characteristics of Wave Motion
00:00:00
Types of Waves
00:00:00
Mechanical Waves – Transverse Wave
00:00:00
Energy of a Transverse Wave
00:00:00
Kinetic Energy of a Transverse Wave
00:00:00
Total Energy of a Transverse Wave
00:00:00
Power in a Transverse Wave
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Average Power in a Transverse Wave
00:00:00
Intensity of a Transverse Wave
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Mechanical Waves – Longitudinal Wave
00:00:00
Displacement Relation for a Progressive Harmonic Wave
00:00:00
Phase and Phase Difference
00:00:00
Particle Velocity
00:00:00
Relation Between Particle Velocity and Wave Velocity
00:00:00
Particle Acceleration
00:00:00
Speed of Transverse Wave on String
00:00:00
Speed of Transverse Waves in a Solid
00:00:00
Speed of Longitudinal Waves
00:00:00
Laplace Correction
00:00:00
Simple Harmonic Motion
00:00:00
Factors Affecting Speed of Sound – Temperature
00:00:00
Factors Affecting Speed of Sound – Pressure
00:00:00
Factors Affecting Speed of Sound – Density and Humidity
00:00:00
Factors Affecting Wind, Frequency, Amplitude
00:00:00
Characteristics of Stationary Wave
00:00:00
Analytical Treatment of Stationary Waves
00:00:00
Difference Between Progressive and Stationary Wave
00:00:00
What is a Standing Wave Part – 1
00:00:00
What is a Standing Wave Part – 2
00:00:00
Standing Waves for String Fixed at Both Ends
00:00:00
Analytical Treatment for Stationary Waves in a String Fixed at Both Ends
00:00:00
Laws of Vibrating Strings
00:00:00
Vibration of an Air Column for a Pipe Closed at One End
00:00:00
Vibrations of an Air Column for a Pipe Open at Both Ends
00:00:00
End Correction
00:00:00
Analytical Treatment for Formation of Beats
00:00:00
Application of Beats
00:00:00
Doppler Effect
00:00:00
Oscillation Numericals Level – 1
00:00:00
Oscillation Numericals Level – 2
00:00:00
Oscillation Numericals Level – 3
00:00:00
Waves Numericals Level – 2
00:00:00
Waves Numericals Level – 3
00:00:00
Electric Charges and Fields
Coulomb’s Law-in Vector Form part – 1
00:15:57
Coulomb’s Law-in Vector Form part – 2
00:00:00
Potential Energy Due to a Single Charge in an Electric Field
00:00:00
Electric Flux
00:17:03
Gauss’ Law
00:00:00
Derivation for Charged Rod
00:00:00
Electric Field Due to a Long Charged Ring
00:00:00
Torque Acting on a Dipole
00:00:00
Uniformly Charged Plane Sheet
00:00:00
Uniformly Charged Sphere
00:00:00
Uniformly Charged Cylinder
00:00:00
Derivation for Charged Quad
00:00:00
Electric Field Due to a Long Charge Rod at Distance A
00:00:00
Electric Field in General Case
00:00:00
Electric Field and Electric Field Intensity
00:00:00
Electric Field and Electric Field Intensity in Vector Form Part – 1
00:00:00
Electric Field and Electric Field Intensity in Vector Form Part – 2
00:00:00
Motion of a Charged Particle in an Electric Field
00:00:00
Electric Lines of Force
00:00:00
Electric Dipole
00:00:00
Electric Field Due to Point Charge Distribution Intro
00:00:00
Electric Field Due to Point Charge Distribution Part – 1
00:00:00
Electric Field Due to Point Charge Semi Circle
00:00:00
Derivation of Electric Field Intensity Due to a Point Charge +
00:00:00
Redistribution of Charges Part – 1
00:00:00
Redistribution of Charges Part – 2
00:00:00
MAX E for a Charged Ring
00:00:00
Neutral Point Like Charges
00:00:00
Neutral Point Unlike Charges
00:00:00
Stable and Unstable Equilibrium
00:00:00
Equilibrium of Charges Part – 1
00:00:00
Equilibrium of Charges Part – 2
00:00:00
Calculation of Third Charge
00:00:00
Triangle Problems Part – 1
00:00:00
Triangle Problems Part – 2
00:00:00
Dielectric
00:00:00
Reduction of EF Due to Polarization
00:00:00
Effect of EF on Polar Dielectrics
00:00:00
Effect of EF on Non Polar Dielectrics
00:00:00
Numericals (Level 1)
00:00:00
Numericals (Level 2)
00:00:00
Numericals (Level 3)
00:00:00
Electrostatic Potential & Capacitance
Electric Potential
00:00:00
Electrostatic Potential Energy
00:00:00
Electric Potential Due to a Point Charge
00:00:00
Electric Potential Due to System of Charges
00:00:00
Equipotential Surface
00:00:00
Relation Between Electric Field and Electric Potential
00:00:00
Electric Potential Energy for System of 2 Point Charges
00:00:00
Potential Energy of a Dipole in an External Electric Field
00:00:00
Potential Energy of 2 Charges in an External Electric Field
00:00:00
Conductors Free Charges and Bound Charges
00:00:00
Introduction to Capacitors
00:00:00
Capacitor Without Dielectric
00:00:00
Capacitor in Series
00:00:00
Capacitors in Parallel
00:00:00
Energy Stored in Capacitor
00:00:00
Effect of EF on Non Polar Dielectrics
00:00:00
Reduction of EF Due to Polarization
00:00:00
Numericals (Level 1)
00:00:00
Numericals (Level 2)
00:00:00
Numericals (Level 3)
00:00:00
Current Electricity
Current Electricity Introduction
00:00:00
Current Density
00:00:00
Drift Velocity
00:00:00
Drift Velocity Average Relaxation Time
00:00:00
Relation Between Current & Drift Velocity
00:00:00
Ohm’s Law
00:00:00
Derivation of Ohm’s Law
00:00:00
Ohm’s Law (Graph )
00:00:00
Ohmic and Non Ohmic Devices
00:00:00
Non-Ohmic Devices
00:00:00
Thermal Motion of Electrons
00:00:00
Mechanism of Flow of Electric Current
00:00:00
Average Speed of Electron
00:00:00
Average Instantaneous Current
00:00:00
Variation of Resistance with Temperature
00:00:00
Temperature Dependence of Resistance on Metals
00:00:00
Temperature Dependence of Resistance on Insulators and Semi-Conductor
00:00:00
Heating Effect of Electric Current
00:00:00
Series Connection
00:00:00
Delta to Star Method
00:00:00
Star to Delta Method
00:00:00
Mix Grouping of Cells
00:00:00
Cells in Series
00:00:00
Parallel Grouping of Cells
00:00:00
Mixed Grouping of Cells (Maximum Current)
00:00:00
Thermal Equilibrium of Heating Elements
00:00:00
Colour Code of Resistors
00:00:00
Electromotive Force
00:00:00
Electric Fuse
00:00:00
Kirchhoff Law
00:00:00
Kirchhoff’s Voltage Law
00:00:00
Example of Kirchhoff’s Voltage Law
00:00:00
Wheatstone Network
00:00:00
Meter Bridge Experiment
00:00:00
Errors Precautions of Meter Bridge Experiment
00:00:00
Kelvin’s Method
00:00:00
Galvanometer
00:00:00
Potentiometer
00:00:00
To Compare EMF Individual Cell Method
00:00:00
To Compare EMF Sum and Difference
00:00:00
Internal Resistance of a Cell
00:00:00
Potentiometer vs Voltmeter
00:00:00
Galvanometer as an Ammeter
00:00:00
Galvanometer as an Voltmeter
00:00:00
Difference between Voltmeter & Ammeter
00:00:00
Numericals (Level 1)
00:00:00
Numericals (Level 2)
00:00:00
Numericals (Level 3)
00:00:00
Magnetism & Matter
Bar Magnet – Field and Potential
00:00:00
Bar Magnet – Magnetic Dipole Moment
00:00:00
Magnetic Dipole Moment of Bar Magnet in Different Shapes
00:00:00
Examples of Magnetic Dipole Moment of a Bar Magnet
00:00:00
Cutting of Bar Magnet
00:00:00
Resultant Dipole Moment
00:00:00
Coulomb’s Law and Field
00:00:00
Potential & Torque
00:00:00
Geomagnetism : is Earth Magnetic?
00:00:00
Earth Magnetic Field
00:00:00
Geography of Earth
00:00:00
Tangent Galvanometer
00:00:00
Tangent Law
00:00:00
Neutral Point
00:00:00
Work Done and Neutral Point
00:00:00
Vibration Magnetometer
00:00:00
Application of Vibration Magnetometer
00:00:00
Some Basic Definitions
00:00:00
Magnetic Susceptibility
00:00:00
Magnetic Materials Part – 1
00:00:00
Magnetic Materials Part – 2
00:00:00
Angle of Dip
00:00:00
Relation Between False Angle of Dip and True Angle of Dip
00:00:00
Relation Between 2 False Angle of Dip in Mutually Perpendicular Plane and True Angle Dip
00:00:00
Numericals (Level 1)
00:00:00
Numericals (Level 2)
00:00:00
Numericals (Level 3)
00:00:00
Magnetic Effect of Electric Current & Magnetism
Right Hand Palm Rule
00:00:00
Magnetic Field Due to Circular Loop at Different Places
00:00:00
Magnetic Field at Center of Current Carrying Loop
00:00:00
Magnetic Field Due to Circular Coil Carrying Current
00:00:00
Fleming’s Left Hand Rule
00:00:00
Magnetic Field Due to Long Straight Current Carrying Conductor
00:00:00
Magnetic Induction Due to Long Straight Current Carrying Wire
00:00:00
Cyclotron
00:00:00
Radius Traced by a Particle Inside the Cyclotron
00:00:00
Time Taken by Particle to Trace a Circular Path Inside the Cyclotron
00:00:00
Time Taken by Charge Particle to Move in a Semicircular Path Inside the Cyclotron
00:00:00
Maximum Kinetic Energy Particle Inside the Cyclotron
00:00:00
Biot-savart’s Law
00:00:00
Ampere’s Law
00:00:00
First Application of Ampere’s Law
00:00:00
Magnetic Induction to Cylindrical Loop
00:00:00
Solenoid Derivation
00:00:00
Toroid
00:00:00
Helmholtz Coils
00:00:00
Galvanometer
00:00:00
Construction and Working of MCG
00:00:00
MCG (Derivation)
00:00:00
Sensitivity MCG
00:00:00
Accuracy of MCG
00:00:00
Oersted Experiment
00:00:00
Numericals (Level 1)
00:00:00
Numericals (Level 2)
00:00:00
Numericals (Level 3)
00:00:00
Electromagnetic Induction
Introduction
00:00:00
Faraday’s Law and Lenz’s Law
00:00:00
Electro Magnetic Induction Combination of Coils
00:00:00
Lenz’s Law Theoretical Proof
00:00:00
Motional EMI
00:00:00
Rate of Production of Heat Energy
00:00:00
Eddy Current
00:00:00
Electro Magnetic Induction Mutual Inductance
00:00:00
Electro Magnetic Induction Application of Mutual Induction
00:00:00
Self Induction Introduction
00:00:00
Electro Magnetic Induction Self Inductance Application
00:00:00
Electro Magnetic Induction Transformer Derivation
00:00:00
Electro Magnetic Induction Efficiency of Transformer
00:00:00
Electro Magnetic Induction Losses in Transformer
00:00:00
Numericals (Level 1)
00:00:00
Numericals (Level 2)
00:00:00
Alternating Current
Alternating Currents Introduction
00:00:00
Mean or Average Value of AC
00:00:00
Root Mean Square Value (RMS)
00:00:00
Average Power
00:00:00
Average Power Capacitor
00:00:00
Average Power Resistor
00:00:00
Phasor LCR
00:00:00
Average Power in a LCR Circuit
00:00:00
Derivation of AC Generator
00:00:00
Resistor
00:00:00
Series Resonance
00:00:00
Parallel Resonance
00:00:00
Quality Factor
00:00:00
LC Oscillator
00:00:00
Skin Effect
00:00:00
Types of Wave Forms
00:00:00
Capacitor
00:00:00
Impedance
00:00:00
Inductor
00:00:00
Reactance Part – 1
00:00:00
Reactance Part – 2
00:00:00
Numericals (Level 1)
00:00:00
Numericals (Level 2)
00:00:00
Numericals (Level 3)
00:00:00
Electromagnetic Waves
What are EM Waves
00:00:00
Displacement Current
00:00:00
Maxwell’s Equation
00:00:00
Transverse Nature of EM Wave
00:00:00
Energy Density
00:00:00
Magnetic Field Between Plates of a Capacitor
00:00:00
Intensity of an EM wave
00:00:00
Energy Carried by EM Wave
00:00:00
Current Threading a Loop
00:00:00
Numericals (Level 1)
00:00:00
Optics
Light
00:00:00
Newton’s Corpuscular Theory
00:00:00
Drawbacks of Newton’s Corpuscular Theory
00:00:00
Huygens Principle
00:00:00
Huygens Wave Theory of Light
00:00:00
Drawbacks Success of Huygens Wave Theory
00:00:00
Wavefront
00:00:00
Types of Wavefronts
00:00:00
Superposition Principle
00:00:00
Interference
00:00:00
Conditions for Constructive Interference
00:00:00
Conditions for Destructive Interference
00:00:00
Coherent and Incoherent Sources
00:00:00
Monochromatic Source
00:00:00
Sustained Steady Interference Pattern
00:00:00
Conditions for Sustained Interference Pattern
00:00:00
Young’s Double – Slit Experiments
00:00:00
Diffraction & Types of Diffraction
00:00:00
Fraunhofer Diffraction Due to a Single Slit
00:00:00
Polarization of light
00:00:00
Brewster’s Law
00:00:00
Rayleigh’s Criterion
00:00:00
Brewster’s Law and Dichroism
00:00:00
Resolving Power and Limit of Resolution
00:00:00
Numericals (Level 1)
00:00:00
Numericals (Level 2)
00:00:00
Numericals (Level 3)
00:00:00
Dual Nature of Matter & Radiation
Light, Corpuscles and Waves
00:00:00
Electron Emission
00:00:00
Free Electrons in Metals
00:00:00
Photoelectric Effect
00:00:00
Laws of Photoelectric Emission
00:00:00
Experimental Study of Photoelectric Effect
00:00:00
Work Function Photoelectric Equation
00:00:00
Quantum Theory of Light
00:00:00
Calculation of Various Physical Quantities Using Quantum Theory
00:00:00
Compton Effect
00:00:00
Radiation Force and Pressure
00:00:00
Matter Waves
00:00:00
De-Broglie Wavelength of an Electron
00:00:00
Photo-cells
00:00:00
Experimental Demonstration of Wave Nature of Electron (Davisson and Germer Experiment)
00:00:00
Intensity of Light
00:00:00
Failure of Classical Wave Theory – Dual Nature of Radiation
00:00:00
Numericals (Level 1)
00:00:00
Numericals (Level 2)
00:00:00
Numericals (Level 3)
00:00:00
Atoms & Nuclei
Introduction to Atoms
00:00:00
History of Atom
00:00:00
Thomson’s Model of an Atom
00:00:00
Alpha Particle Scattering Experiment Description
00:00:00
Distance of Closest Approach
00:00:00
Impact Parameter
00:00:00
Failure of Rutherford’s Model
00:00:00
Radius of Orbit
00:00:00
Speed of Electron
00:00:00
Angular Speed
00:00:00
Kinetic Energy
00:00:00
Spectral Series of Hydrogen & Bohr’s Equation
00:00:00
Bohr’s Equation
00:00:00
Bohr’s Postulates
00:00:00
Bohr’s Quantisation Condition
00:00:00
Drawbacks of Bohr’s Atomic Model
00:00:00
Limitations of Bohr’s Model & Debroglie’s Explanation
00:00:00
Nucleus and Composition of Nucleus
00:00:00
Nuclear Forces & Binding Energy
00:00:00
Radioactive Decay
00:00:00
Alpha, Beta and Gamma Decay
00:00:00
Law of Radioactive Decay
00:00:00
Half Life Period
00:00:00
Nuclear Energy – Nuclear Fission
00:00:00
Nuclear Energy – Nuclear Fusion
00:00:00
Atoms Numericals Level – 1
00:00:00
Atoms Numericals Level – 2
00:00:00
Nuclei Numericals Level – 1
00:00:00
Nuclei Numericals Level – 2
00:00:00
Nuclei Numericals Level – 3
00:00:00
Semiconductor : Electronic Materials Devices & Simple Circuits
Electronic Devices
00:00:00
Valence Band and Conduction Band for All Materials
00:00:00
Electrical Conductivity of a Semiconductor
00:00:00
Classification of Semiconductors
00:00:00
Energy Bands in Solids – Semi Conductors
00:00:00
Energy Bands in Solids – Conductors
00:00:00
Intrinsic Semi Conductor
00:00:00
Matter
00:00:00
Crystalline Solid
00:00:00
Bravais Lattice
00:00:00
Cubic Lattice
00:00:00
Simple Cubic Cell
00:00:00
Body Centered Cubic Cell
00:00:00
Face Centered Cubic Cell
00:00:00
Extrinsic Semiconductor and Doping
00:00:00
N-Type
00:00:00
P-Type
00:00:00
Energy Band of N-Type and P-Type Semiconductor
00:00:00
P-N Junction
00:00:00
P-N Junction Diode
00:00:00
Biasing of a Semi-Conductor
00:00:00
Forward Biasing of a P-N Junction Diode
00:00:00
P-N Junction Diode as a Half Wave Rectifier
00:00:00
P-N Junction Diode as a Full Wave Rectifier
00:00:00
Ripple Factor and Filter Circuit
00:00:00
Zener Diode as a Voltage Regulator
00:00:00
Photodiodes
00:00:00
LED
00:00:00
Solar Cell
00:00:00
Transistor
00:00:00
Transistor Configuration
00:00:00
CE Characteristics
00:00:00
Introduction to Logic Gates
00:00:00
Logic Gates Part – 1
00:00:00
Logic Gates Part – 2
00:00:00
Numericals (Level 1)
00:00:00
Numericals (Level 2)
00:00:00
Numericals (Level 3)
00:00:00
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