Modules
Module 1 - Units - Dimensions and Errors
2
Uses of Dimensional Analysis
Module 2 - Vectors
1
Importance of Maths in Physics
2
Visualisation of Triangle Law
3
Polygon Law of Vector Addition
4
Components and Resolution of Vector
Module 3 - Mathematical Tools
Module 4 - Motion in a Straight Line
Module 5 - Motion in a Plane
1
Introduction to 2D Motion
3
Projectile Motion on an Inclined Plane
Module 6 - Newton’s Laws of Motion
3
Concept of System and FBD
5
Constraint Relations Part 1
6
Constraint Relations Part 2
Module 7 - Friction
1
Understanding of Friction
Module 8 - Work - Power and Energy
2
Conservative Forces and Potential Energy
4
Law of Conservation of Mechanical Energy
Module 9 - Linear Momentum Conservation and Collisions
1
Principle of conservation of linear momentum
2
Master 1 D Collision in 15 mins only
Module 10 - Centre of Mass
1
Introduction to Centre of Mass
2
Definition of COM for System of Particles and Continuous Mass Distribution
4
COM of Rigid Bodies using Integration – Part 1
5
COM of Rigid Bodies using Integration – Part 2
Module 11 - Circular Motion
1
Kinematics of Circular Motion
2
Dynamics of Circular Motion
5
Horizontal Circular Motion
Module 12 - Rotational Mechanics
1
Torque and its Calculation
3
Angular Momentum Conservation
6
Rolling on an Inclined Plane
Module 13 - Gravitation
1
Origin of Gravitation Law
4
Variation in the value of ‘g’
8
Gravitational Field due to a Point Mass
9
Potential due to a point Mass
10
Field and due to a Sphere and Shell
11
Field and Potential due to a Ring
12
Field and Potential due to a Disc
Module 14 - Fluid Mechanics
1
Misconceptions (very imp)
8
Reynold’s Number and Critical Velocity
10
Viscous Force and Stoke’s Law
Module 15 - Mechanical Properties of Solids
8
Factors affecting Elasticity
10
Breaking Stress and Breaking Force
11
Average distance b/w molecules and Potential Energy
15
Comparison between hollow shaft and solid cylinder
Module 16 - Surface Tension and Capillarity
2
Applications of Surface Tension
3
Applications of Surface Energy
5
Applications of Excess Pressure
6
Work done in splitting and combination of drops
Module 17 - Simple Harmonic Motion
3
Displacement, Velocity, Acceleration in SHM
4
Kinetic, Potential, Total Energies in SHM
6
Series and Parallel Combination of Springs
Module 18 - Waves
3
Equation of a Traveling Wave
4
Pressure Wave Vs Displacement Wave Equations
6
Calculation of Loudness (in db)
7
Interference and Superposition
8
Constructive and Destructive Interference
9
Reflections and Transmission of Waves
10
Energy Density and Power Transmitted by a Wave
13
Stationary Wave on a Stretched Wire (Sonometer)
14
Organ Pipes – Closed and Open
Module 19 - Thermal Properties of Matter
1
Celsius, Fahrenheit and Kelvin Scales
Module 20 - Thermodynamics
1
Zeroth and First Law of Thermodynamics
2
First Law of Thermodynamics
4
Second Law of Thermodynamics
Module 21 - Specific Heat and KTG
1
Different types of Specific Heat Capacities
2
Kinetic Energy of Gas Molecules
3
Velocities of Gas Molecules
4
Law of Equipartition of Energy
Module 22 - Electric Field and Potential
2
Electric Field Due to a Point Charge
5
Field Due to a Line Charge
8
Electric Potential Energy
10
Relation between Field and Potential
13
Conducting Sphere or Shell
15
Field due to Ring of Charge
16
Field due to Disc of Charge
Module 23 - Capacitors
5
Energy Stored in Capacitor
6
Energy Loss Capacitor to Battery Connections
7
Capacitor to Capacitor Connections
8
Series and Parallel Combination
9
Simplifying Complicated Circuits
11
Introduction of Dielectrics
12
Combination of Dielectrics
Module 24 - Current Electricity
8
Finding resistance of different shapes of conductor
9
Color Coding of Resistors
12
Variation of drift velocity through a conductor of variable cross section
13
Variation of resistivity with temperature
14
Series and Parallel Combination of Resistors
15
Simplifying circuits using Symmtery
16
Balanced Wheatstone bridge
17
Unbalanced Wheatstone bridge
19
Potentiometer Part 1 – Comparison of EMFs of cells
20
Potentiometer Part 2 – Finding internal resistance of Cell
21
Series and Parallel Combination of Batteries
22
Mixed combination of batteries
23
Maximum Power Transfer Theorem
24
RC Circuits (Charging and Discharging)
Module 25 - Thermal Effects of Current
1
Heating Effects of Current (Joule’s Law)
Module 26 - Magnetic Effects of Current and Moving Charges
3
Magnetic Field Due to Current Carrying Wire
4
Magnetic Field Due to Coil
5
Magnetic Field Due to an Arc
7
Magnetic Force on a moving Charge
8
Magnetic Force on a Current Carrying Conductor
9
Magnetic Force Between two parallel current carrying conductors
10
Magnetic Force between two moving charges
13
Current Carrying Loop as a Dipole
Module 27 - Magnetism and Matter
3
Coulomb’s Law for Magnetism
4
Field due to Magnetic Dipole or Bar Magnet
5
Bar Magnet in a Uniform Magnetic Field
6
Elements of Earth’s Magnetism
Module 28 - Magnetic Induction and Magnetic Materials
1
Dia, Para and Ferromagnetic substances
2
Atomic model for Dia, Para and Ferro materials
8
Relation between permeability, susceptibility and relative permeability
Module 29 - EMI
4
Charge flowing through loop (in Faraday’s Law)
6
EMF due to rotation of rod in magnetic field
7
Induced EMF in a rotating disc
10
Combination of Inductances
11
Self induction of Solenoid
12
Mutual Induction of Solenoid
Module 30 - Alternating Current
1
Mean or Average Value of AC
15
Eddy Current and Induced Electric Field
Module 31 - Electromagnetic Waves
Module 32 - Wave Optics
1
Shape of Wavefront – Part 1
2
Shape of Wavefront – Part 2
5
Shape of Interference Pattern
6
Interference due to Glass Slab
7
Path Difference due to reflection
8
Young’s Double Slit Experiment
10
Use of thin glass in YDSE
Module 33 - Ray Optics
1
Reflection by a Plane Mirror
4
Magnification due to Reflection
7
Refraction at a Plane Surface
8
Refraction through a Glass Slab
9
Refraction at Spherical Surfaces
11
Lens Maker’s Formula and Lens Formula
16
Combination of Lens and Mirrors
26
Resolving Power of Microscope and Telescope
Module 34 - Dual Nature of Radiation and Matter
1
Master Photoelectric Emission in 15 mins
3
Matter Waves DeBroglie Equation
4
Davission and Germer Experiment
Module 35 - X Rays
Module 36 - Atoms
1
Thomson and Rutherford’s Atomic Models
3
Bohr’s Atomic Model and Calculations
Module 37 - Nuclei And Radioactivity
4
Isotypes, Isotones and Isobars
9
Parallel Radioactive Disintegration
Module 38 - Semiconductors
5
Analog and digital Circuits