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Empowering engineering students with clear, foundational knowledge to master key concepts and succeed academically and professionally.

Beginner (Lesson 1–51)

Intermediate (Lesson 52–101)

Advanced (Lesson 102–142)

Lesson 1

What is Physics? A Comprehensive Guide to the Laws of Nature

Lesson 2

The Fundamentals of Physics: The Key to Everything in Nature

Lesson 3

Understanding Speed, Distance, Velocity, Acceleration, and Related Concepts

Lesson 4

Average Speed and Average Velocity : Explain

Lesson 5

Understanding Instantaneous Speed and Velocity

Lesson 6

Projectile Motion and Relative Motion : Explain

Lesson 7

Newton's Three Laws of Motion: Explain

Lesson 8

Free Body Diagrams Explained: Step-by-Step Examples and Solutions

Lesson 9

Friction Explained: Types, Causes, and Effects on Movement

Lesson 10

Understanding the Center of Mass and Its Motion

Lesson 11

Understanding Scalar and Vector Products

Lesson 12

What is the Work-Energy Theorem?

Lesson 13

Work and Energy : Explained

Lesson 14

The Basics of Work, Energy, and Power in Physics

Lesson 15

Work, Energy, and Power: Work-energy theorem, conservation of energy, power

Lesson 16

What is Energy Conversion?

Lesson 17

Momentum: Conservation of momentum, collisions : Explain

Lesson 18

Elastic vs. Inelastic Collisions: Understanding the Differences and Energy Conservation

Lesson 19

Understanding the Impulse-Momentum Theorem: A Simple Explanation

Lesson 20

Angular Velocity, Angular Acceleration, and Moment of Inertia : Explain

Lesson 21

Torque and Angular Momentum : Explain

Lesson 22

Understanding Rotational Motion: Torque, Angular Velocity, Moment of Inertia, and Rotational Energy

Lesson 23

Static Equilibrium in Physics: Conditions, Forces, and Torques

Lesson 24

Concepts of Central Force, Centre of Gravity, Centripetal Acceleration, and Centrifugal Force

Lesson 25

What is Centripetal Acceleration?

Lesson 26

Gravitation: Newton’s law of gravitation

Lesson 27

How Gravity Works: The Gravitational Constant and Newton's Universal Law

Lesson 28

What is Escape Velocity?

Lesson 29

What is Orbital Velocity?

Lesson 30

Explaining Kepler’s Laws: The Science Behind Planetary Orbits

Lesson 31

Understanding Archimedes' Principle: The Science of Buoyancy and Fluid Displacement

Lesson 32

Understanding Hydrostatics: Pascal's Law, Buoyancy, and Pressure at Depth Explained

Lesson 33

Understanding Pascal's Law and the Unit of Pressure (Pascal)

Lesson 34

Understanding Density: Key Concepts and Examples of Aluminum, Steel, Water, and Air

Lesson 35

What is Surface Tension?

Lesson 36

Understanding Aerodynamics: The Science Behind Airflow and Its Applications

Lesson 37

Hooke's Law Explained: The Science of Springs and Elasticity

Lesson 38

Understanding Tensile Stress, Tension, and Tension Force

Lesson 39

Understanding Oscillation and Oscillatory Motion

Lesson 40

Understanding Oscillations: Simple Harmonic Motion, Damping, and Forced Oscillations

Lesson 41

Understanding Simple Pendulum, Double Pendulum, and Coupled Oscillation Systems

Lesson 42

Damping Force Explained: How It Works and Why It Matters

Lesson 43

Understanding Resonance and Resonant Frequency

Lesson 44

Understanding Mechanical Waves: Transverse and Longitudinal Waves Explained

Lesson 45

Understanding Longitudinal Strain and Longitudinal Waves: Concepts

Lesson 46

Wave equation and wave propagation : Explain

Lesson 47

Understanding Amplitude, Frequency, Period, and Phase Shift

Lesson 48

Understanding Phase Difference and Path Difference in Wave Interference

Lesson 49

Understanding Interference: Types, Examples, and Interference Fringes

Lesson 50

Explaining Interference, Diffraction, and Polarization in Simple Terms

Lesson 51

Reflection and Refraction of Waves : Explain

Lesson 52

Reflection, Refraction, and Dispersion of Waves : Explain

Lesson 53

Snell’s Law and Total Internal Reflection : Explain

Lesson 54

Understanding the Angle of Dip, Angle of Incidence, and Angle of Inclination

Lesson 55

Understanding Critical Angle and Critical Velocity: Concepts and Applications

Lesson 56

The Fundamentals of Brewster’s Angle and Malus' Law Explained

Lesson 57

Understanding Diffraction Gratings and Resolving Power in Light Analysis

Lesson 58

The Science of Interference: Thin Films and Newton’s Rings Explained

Lesson 59

Acoustics Explained: How Sound Works and Why It Matters

Lesson 60

Speed of Sound in different medium

Lesson 61

Understanding Sound Waves and the Doppler Effect

Lesson 62

Seismic Waves Explained: The Science Behind Earth’s Vibrations

Lesson 63

Shock Waves Explained: The Impact of Rapid Pressure Changes

Lesson 64

Waveguides: Basics

Lesson 65

Understanding Group Velocity and Phase Velocity: Key Concepts in Wave Motion

Lesson 66

What is Thermodynamics?

Lesson 67

Conduction vs Convection: Explained

Lesson 68

Heat Conduction and Diffusion : Explain

Lesson 69

Understanding Dalton's Law of Partial Pressures

Lesson 70

Exploring Celsius and Fahrenheit: Key Differences and Conversions

Lesson 71

Understanding Thermodynamic Cycles: Carnot, Rankine, Otto, and Diesel Explained

Lesson 72

Understanding Adiabatic and Isothermal Processes in Thermodynamics

Lesson 73

Entropy, Free Energy, and Their Role in Natural Processes

Lesson 74

Understanding the Joule-Thomson Effect: A Simple Explanation

Lesson 75

Understanding Blackbody Radiation and Radiation Pressure

Lesson 76

Understanding Planck’s Law of Radiation: A Simple Explanation

Lesson 77

Fundamentals of Electrostatics: Coulomb’s Law, Electric Fields, Gauss’s Law, Potential, and Dielectrics

Lesson 78

Understanding Coulomb and Coulombic Force : Explain

Lesson 79

Understanding Electric Dipoles and Fields

Lesson 80

Understanding Electric Flux and Divergence: A Simple Explanation of Key Concepts

Lesson 81

Electrostatic Potential Energy: How Charges Store and Release Energy

Lesson 82

Understanding Dielectrics: Key Concepts, Properties, and Applications

Lesson 83

Understanding Electrical Conduction in Liquids and Water

Lesson 84

Magnetism : Types, Forces, and Effects

Lesson 85

Understanding Magnetic Fields: Biot-Savart Law, Ampere's Law, and Magnetic Force Explained

Lesson 86

Understanding Gauss and Tesla: Measuring Magnetic Field Strength

Lesson 87

Electromagnetic Induction: Faraday’s law, Lenz’s law, inductance : Explain

Lesson 88

Maxwell's Equations: Fundamental equations governing electromagnetism

Lesson 89

Electromagnetic Fields and Waves : Explain

Lesson 90

Electromagnetic waves and wave equations : Explain

Lesson 91

Understanding the Propagation of Electromagnetic Waves

Lesson 92

Polarization and Its Effect on Electronics : Explain

Lesson 93

Understanding Optical Rotation and the Faraday Effect: Key Concepts Explained

Lesson 94

Concave and Convex Mirrors, Lenses, and Their Applications

Lesson 95

Understanding the Parallel Axis Theorem: A Simple Explanation

Lesson 96

Understanding the Transmission, Absorption, and Reflection of Light

Lesson 97

Optical Instruments :Telescopes, Microscopes, and Spectrometers

Lesson 98

The Science of Microscopy: Exploring Various Types and Their Research Applications

Lesson 99

Understanding X-ray Diffraction and Bragg’s Law

Lesson 100

The Future of Light: Understanding Nanophotonics and Its Applications

Lesson 101

Thin Film Technology Explained: Tiny Layers, Big Impact

Lesson 102

Understanding Energy: Concepts, Conservation, and Atomic Energy Levels

Lesson 103

Planck's Constant Explained: Connecting Energy and Frequency

Lesson 104

Understanding Atomic Models: From Rutherford to Quantum Mechanics

Lesson 105

Understanding De Broglie Waves and Matter Waves: A Simple Explanation

Lesson 106

Understanding the Compton Effect and Compton Wavelength

Lesson 107

Understanding Hydrogen Atom Spectrum and Bohr's Theory: A Simple Explanation

Lesson 108

Understanding Quantum Mechanics and the Schrödinger Equation: A Simple Explanation

Lesson 109

Understanding Wave-Particle Duality and the Heisenberg Uncertainty Principle

Lesson 110

Raman Effect Explained: Transforming Science and Technology

Lesson 111

Relativity: Special relativity, time dilation, length contraction : Explain

Lesson 112

Understanding Gravitational Waves: How We Detect the Ripples in Space-Time

Lesson 113

Understanding Nuclear Structure and Binding Energy: A Simple Explanation

Lesson 114

Understanding Nuclear Physics: From Fission and Fusion to Radioactive Decay

Lesson 115

Fission vs. Fusion: The Science Behind Nuclear Reactions

Lesson 116

Understanding Radiation: Types (Alpha, Beta, Gamma) and Half-Life

Lesson 117

Understanding Radioactive Decay and Half-Life

Lesson 118

Ionizing Radiation : Explain

Lesson 119

Understanding Band Theory of Solids

Lesson 120

Band Gap and Its Importance in Material

Lesson 121

Understanding Surface Physics and Surface Energy

Lesson 122

Exploring Matter: The Connection Between Light, Particles, and Accelerators

Lesson 123

The Fundamentals of Particle Physics: From Elementary Particles to Conservation Laws

Lesson 124

The Life and Death of Stars: Understanding Stellar Evolution and Supernovae

Lesson 125

Cosmic Insights: The Cosmological Principle, Neutron Stars, and How Galaxies Form

Lesson 126

Exploring Dark Matter and Dark Energy: The Mysteries of the Universe

Lesson 127

Exploring the Cosmos: The Big Bang and the Invisible Forces of Dark Matter and Dark Energy

Lesson 128

Unveiling the Universe: Exoplanets, Supernova Explosions, and Stellar Remnants

Lesson 129

The Mysteries of the Universe: Understanding Chaos, Strings, and Higher Dimension

Lesson 130

The Science of Geophysics: Earthquakes, Tectonic Plates, and Geothermal Energy

Lesson 131

Tidal Forces Explained: How the Moon and Sun Influence Earth

Lesson 132

Understanding the Earth's Layers and Atmospheric Structure

Lesson 133

Understanding Conservation Laws: Energy, Momentum, and Angular Momentum

Lesson 134

Understanding Conventional and Non-Conventional Sources of Energy: Explain

Lesson 135

Renewable Energy and Renewable Resources : Explain

Lesson 136

Energy Explained: The Difference Between Renewable and Non-Renewable Sources

Lesson 137

Cryogenics Explained: How Cold Temperatures Impact Technology

Lesson 138

Understanding Satellite Communication: Active vs Passive Satellites

Lesson 139

Understanding the Four Fundamental Forces of Nature

Lesson 140

List of important physics formulas :

Lesson 141

List of important physics formulas : mechanics

Lesson 142

What is Drift Velocity?