Lecture 01
Intro to course
Review of Theory of Vectors
Reference Frame. Displacement. Position
Average Velocity & Instantaneous Velocity
Acceleration
Freely Falling Objects
1D Kinematics
Lecture 02
1d Kinematics (continued)
Vector Kinematics; Unit Vector
Projectile Motion
Relative Motion
Circular Motion
Harmonic Motion
Lecture 03
Relative Velocity
Circular Motion
Newton’s First Law of Motion: Force
Newton’s Second Law of Motion: Mass
Newton’s Third Law of Motion
Lecture 04
More on Free-body Diagrams
Friction
Dynamics of Circular Motion
Drag Forces
Lecture 05
Ramp, pulley and two boxes
Dynamics of Circular Motion
Conical pendulum
Banked & Unbanked curves
Nonuniform circular Motion
Drag Forces
Lecture 06
Drag Forces
Theory of Measurements
Dimensional Analysis
Errors
Fundamental Notion of Statistical Analysis
Lecture 07
Newton’s Law of Universal Gravitation
Vector Form of Universal Gravitation Law
Gravity & Geophysical Applications
Satellites
Kepler’s Law & Newton’s Synthesis
Gravitational Field
Lecture 08
Work with Constant Force
Scalar (or Dot) Product
Work with varying force
Kinetic Energy & Work
General Derivation of Work-Energy Principle
Conservation of Energy
Lecture 09
Kinetic Energy & Work
General Derivation of Work-Energy Principle
Potential Energy
Conservative Forces & Conservation of Energy
Mechanical Energy
Lecture 10
Mechanical Energy
Dissipative Froces & Law of Conservation of Energy
Gravitational Potential Energy & Escape Velocity
Linear Momentum & Momentum Conservation
Elastic & Inelastic Collisions
Centre of Mass & Translational Motion
Lecture 11
Elastic & Inelastic Collisions
Collision & Impulse
Energy & Momentum Conservation in Collinsions
Elastic & Inelastic Collisions
Linear Momentum for a System of Objects
Centre of Mass & Translational Motion
Centre of Mass & Linear Momentum
Lecture 12
Rotational Motion
Angular Quantities
Axis of Rotation
Rotational Dynamics: Torque & Inertia
Rotational Kinetic Energy
Work Done by a Torque
Rolling without Slipping
Lecture 13
Rotational Kinetic Energy
Work Done by a Torque
Power
Work-Energy Principle
Rolling
Angular Momentum
Vector Cross Product. Torque Vector & Angular Momentum Vector
Lecture 14
Vector Cross Product & Torque Vector
Angular Momentum of a Particle
Angular Momentum of a System of Particles
Angular Momentum of a Rigid Object
Statics
Stress & Strain
Fracture
Lecture 15
Fluid Statics
Pressure of Fluids at Rest
Atmospherics Pressure
Pascal’s Principle
Stevin’s Law
Buoyancy
Fluid Dynamics
Equation of Continuity
Bernoulli’s Equation
Torricelli’s Theorem
Dynamic Lift, Viscosity, Surface Tension
Lecture 16
Bernoulli’s Equation
Viscosity, Surface Tension
Atomic Theory of Matter
Brownian Motion & Random Walk
Potential Energy Curve
Temperature & Temperature Scales
Thermal Equilibrium
Thermal Expansion & Thermal Stresses
Gas Laws
The Ideal Gas Law
Avogado’s Hypothesis & Number
Kinetic Theory of Gases: Pressure
Maxwell Distribution of Molecular Speeds
Lecture 17
Kinetic Theory of Gases
Maxwell’s Distribution of Molecular Speeds
Phase Transitions
Phase Diagrams
Diffusion
Heat
Internal Energy
Calorimetry & Latent Heat
Heat Transfer: Conduction, Convection, Radiation
Lecture 18
Heat Transfer: Conduction, Convection, Radiation
Zeroth Law of Thermodynamics
First Law of Thermodynamics
Isothermal, Adiabatic, Isobaric, Isochoric Transitions
Equipartition of Energy
Adiabatic Expansion
Lecture 19
Adiabatic Expansion of Gas
Second Law of Thermodynamics
Heat Engines
Reversible & Irreversible Processes
Carnot’s Cycle, Otto’s Cycle
Refrigerators, ACs, Heat Pumps
Entropy
Absolute Temperature & Third Law of Thermodynamics
Lecture 20
Simple Harmonic Motion (SHM)
SHM vs. Circular Motion
Energy in SHM
The Simple Pendulum
Damped Harmonic Motion
Driven Harmonic Motion
Lecture 21
Two slit experiment and interference
Lecture 22