Topics
Units and Measurement
- Physical Quantities
- System of Units
- The International System of Units (SI)
- Significant Figures
- Rules for Arithmetic Operations with Significant Figures
- Rounding off the Uncertain Digits
- Rules for Determining the Uncertainty in the Results of Arithmetic Calculations
- Dimensions of Physical Quantities
- Dimensional Formulae and Dimensional Equations
- Dimensional Analysis and Its Applications
- Checking the Dimensional Consistency of Equations
- Deducing Relation among the Physical Quantities
- Accuracy, Precision and Least Count of Measuring Instruments
- Errors in measurement
- Errors in Measurements>Random Errors
- Errors in Measurements>Systematic Errors
- Estimation of Errors
Class 11
Class 12
Motion in a Straight Line
Concept of Vector and Motion in a Plane
- Motion in Two Dimensions - Motion in a Plane
- Scalars and Vectors
- Position and Displacement Vectors
- Equality of Vectors
- Multiplication of Vectors by a Real Number or Scalar
- Vector Operations>Addition and Subtraction of Vectors
- Resolution of Vectors
- Vector Addition – Analytical Method
- Motion in a Plane
- Equations of Motion in a Plane with Constant Acceleration
- Projectile Motion
- Uniform Circular Motion (UCM)
- Vector
- Relative Velocity in Two Dimensions
- Scalar Product(Dot Product)
- Vector Product (Cross Product)
Laws of Motion and Friction
- Concept of Force
- Aristotle’s Fallacy
- The Law of Inertia
- Newton's First Law of Motion
- Newton’s Second Law of Motion
- Impulse of a Force
- Newton's Third Law of Motion
- Conservation of Momentum
- Equilibrium of a Particle
- Common Forces in Mechanics
- Friction
- Types of Friction>Rolling Friction
- Circular Motion and Its Characteristics
- Solving Problems in Mechanics
- Types of Friction>Kinetic Friction
- Types of Friction>Static Friction
- Frame of Reference
- Centripetal Force
- Types of Forces>Real and Pseudo Forces
- Uniform Circular Motion (UCM)
Mechanical Energy Dynamics, Power, and Collisions
- Introduction of Work, Energy and Power
- Scalar Product(Dot Product)
- Notions of Work and Kinetic Energy: the Work-energy Theorem
- Mechanical Energy > Kinetic Energy (K)
- Concept of Work
- Types of Forces>Work Done by a Variable Force
- Work Energy Theorem
- Mechanical Energy > Potential Energy (U)
- Conservation of Mechanical Energy
- Potential Energy of a Spring
- Concept of Power
- Collisions
- Elastic and Inelastic Collisions
- Collisions in One Dimension
- Collision in Two Dimensions
- Types of Forces>Conservative and Non-Conservative Forces
- Motion in a Vertical Circle
- States of Equilibrium
Rotational Motion
- Motion - Rigid Body
- Centre of Mass>Mathematical Understanding of Centre of Mass
- Motion of Centre of Mass
- Linear Momentum of a System of Particles
- Vector Product of two vectors in Algebra (Cross Product)
- Angular Velocity and Its Relation with Linear Velocity
- Torque, Kinetic Energy, Angular Momentum and Its Conservation
- Conservation of Angular Momentum
- Equilibrium of Rigid Body
- Principle of Moments
- Centre of Gravity
- Moment of Inertia
- Kinematics of Rotational Motion About a Fixed Axis
- Dynamics of Rotational Motion About a Fixed Axis
- Angular Momentum in Case of Rotation About a Fixed Axis
- Centre of Mass of Two-particle System
- Centre of Mass of Some Regular Shaped Bodies
- Rigid Body Rotation
- Equations of Rotational Motion
- Comparison of Linear and Rotational Motions
- Rolling Motion
- Theorems of Perpendicular and Parallel Axes
- Radius of Gyration
- Values of Moments of Inertia for Geometrical Objects
Gravitational Phenomena: Laws, Effects and Applications
- Concept of Gravitation
- Kepler’s Laws
- Law of Orbit or Kepler's First Law
- Law of Areas or Kepler's Second Law
- Law of Periods or Kepler's Third Law
- Newton's Universal Law of Gravitation
- The Gravitational Constant
- Acceleration Due to Gravity of the Earth
- Acceleration Due to Gravity Below and Above the Earth's Surface
- Gravitational Potential Energy
- Escape Speed
- Earth Satellites
- Binding Energy of an Orbiting Satellite
- Escape Velocity
- Geostationary and Polar Satellites
- Time Period of Satellite
- Weightlessness
Mechanical Properties of Solids
- Elastic Behavior of Solids
- Stress and Strain
- Hooke’s Law
- Stress-strain Curve
- Elastic Modulus>Young’s Modulus
- Elastic Modulus>Shear Modulus
- Elastic Modulus>Bulk Modulus
- Elastic Modulus>Poisson’s Ratio
- Elastic Potential Energy in a Stretched Wire
- Application of Elastic Behaviour of Materials
- Elastic Modulus>Modulus of Rigidity
- Elastic Energy
Mechanical Properties of Fluids
- Introduction of Mechanical Properties of Fluids
- Thrust and Pressure
- Pascal’s Law
- Variation of Pressure with Depth
- Atmospheric Pressure
- Hydraulic Machines
- Streamline and Turbulent Flow
- Bernoulli's Equation
- Torricelli's Law
- Dynamic Lift
- Viscous Force or Viscosity
- Stoke's Law
- Surface Tension
- Surface Energy
- Surface Tension and Surface Energy
- Angle of Contact
- Drops and Bubbles
- Capillary Rise
- Pressure Exerted by a Liquid Column
- Application of Pascal’s Law
- Buoyancy Force (Upthrust Force)
- Archimedes' Principle
- Principle of Floatation (Laws of Flotation)
- Terminal Velocity
- Critical Velocity
- Reynold's Number
- Applications of Bernoulli’s Equation
Thermal Properties of Matter
- Thermal Properties of Matter
- Temperature and Heat
- Measurement of Temperature
- Ideal Gas Equation
- Absolute Zero and Absolute Temperature
- Thermal Expansion
- Expansion of Liquids
- Expansion of Solids
- Expansion of Gases
- Specific Heat Capacity
- Calorimetry
- Change of State
- Latent Heat
- Heat Transfer
- Conduction
- Convection
- Radiation
- Blackbody Radiation
- Newton’s Law of Cooling
Thermodynamics
- Thermodynamics
- Thermal Equilibrium
- Zeroth Law of Thermodynamics
- Heat, Internal Energy and Work
- First Law of Thermodynamics
- Specific Heat Capacity
- Thermodynamic State Variables and Equation of State
- Thermodynamic Process
- Quasi-static process
- Isothermal Processes
- Adiabatic Processes
- Isochoric process
- Isobaric process
- Cyclic Process
- Entropy and Second Law of Thermodynamics
- Reversible and Irreversible Processes
- Carnot Engine
Kinetic Theory of Gases
- Introduction of Kinetic Theory of Gases
- Molecular Nature of Matter
- Behaviour of Real Gases: Deviation from Ideal Gas Behaviour
- Kinetic Theory of Gases - Concept of Pressure
- Interpretation of Temperature in Kinetic Theory
- Pressure of an Ideal Gas
- Law of Equipartition of Energy
- Specific Heat Capacities - Gases
- Mean Free Path
- Specific Heat Capacity of Solids and Liquids
- Equation of State of a Perfect Gas
- Assumptions of Kinetic Theory of Gases
- Degrees of Freedom
- Boyle’s Law (Pressure - Volume Relationship)
- Gay-Lussac's Law
- Avogadro's Law
Oscillations
- Periodic and Oscillatory Motion
- Period and Frequency
- Displacement
- Simple Harmonic Motion (S.H.M.)
- Simple Harmonic Motion and Uniform Circular Motion
- Velocity and Acceleration in Simple Harmonic Motion
- Force Law for Simple Harmonic Motion
- Energy in Simple Harmonic Motion
- Simple Pendulum
- Oscillations Due to a Spring
- Forced Oscillations and Resonance
- Damped Simple Harmonic Motion
- Some Systems Executing Simple Harmonic Motion
Wave
- Introduction of Wave Mechanics
- Wave Motion
- Reflection of Transverse and Longitudinal Waves
- Displacement Relation for a Progressive Wave
- The Speed of a Travelling Wave
- Principle of Superposition of Waves
- Reflection of Waves
- Standing Waves and Normal Modes
- Beats
- Doppler Effect
- Laplace’s Correction
- Standing Waves on String and Organ Pipes
Electric Charges and Fields
- Concept of Electrostatics
- Electric Charge
- Conductors and Insulators
- Basic Properties of Electric Charge
- Coulomb’s Law
- Force between Charges
- Electric Field
- Electric Lines of Force
- Electric Flux
- Electric Dipole
- Dipole in a Uniform External Field
- Continuous Charge Distribution
- Gauss’s Law
- Application of Gauss' Law
- Electrical Potential Energy of a System of Two Point Charges and of Electric Dipole in an Electrostatic Field
- Conservation of Charge
- Principle of Superposition
Motion in One Dimension
- Introduction of Motion in One Dimension
- Elementary Concept of Differentiation and Integration for Describing Motion
- Motion in a Straight Line
- Average Speed
- Average Velocity
- Instantaneous Speed
- Instantaneous Velocity
- Acceleration in Linear Motion
- Uniform and Non-uniform Motion
- Uniformly Accelerated Motion
- Position - Time Graph
- Velocity - Time Graphs
- Relative Velocity
Motion in Two Dimension
- Motion in a Plane
- Relative Velocity in Two Dimensions
- Projectile Motion
- Uniform Circular Motion (UCM)
- Motion in a Vertical Circle
Electrostatic Potential and Capacitance
- Periodic and Oscillatory Motion
- Electrostatic Potential
- Potential Due to a Point Charge
- Potential Due to an Electric Dipole
- Potential Energy of a System of Charges
- Equipotential Surfaces
- Potential Energy of a System of Charges
- Potential Energy in an External Field
- Electrostatics of Conductors
- Dielectrics
- Polarisation
- Capacitors and Capacitance
- The Parallel Plate Capacitor
- Effect of Dielectric on Capacity
- Combination of Capacitors
- Energy Stored in a Charged Capacitor
Principles of Electrical Circuits and their Applications
- Electric Current
- Concept of Electric Currents in Conductors
- Ohm's Law
- Drift of Electrons and the Origin of Resistivity
- Limitations of Ohm’s Law
- Resistivity of Various Materials
- Temperature Dependence of Resistance
- Forms of Energy > Electrical Energy
- Electrical Power
- Cells, Emf, Internal Resistance
- Cells in Series
- Cells in Parallel
- Kirchhoff’s Laws
- Wheatstone Bridge
- Ohmic and Non-ohmic Resistors
- Electromotive Force (emf)
- Metre Bridge: Slide-Wire Bridge
Mechanical Properties of Fluids: Surface Tension
- Intermolecular Force of Attraction
- Surface Tension
- Surface Energy
- Surface Tension and Surface Energy
- Angle of Contact
- Drops and Bubbles
- Capillarity and Capillary Action
Magnetic Effect of Current
- Introduction to Moving Charges and Magnetism
- Magnetic force
- Motion in a Magnetic Field
- Biot-Savart Law
- Magnetic Field on the Axis of a Circular Current Loop
- Ampere’s Circuital Law
- Solenoid and the Toroid - the Solenoid
- Force Between Two Parallel Currents, the Ampere
- Torque on a Rectangular Current Loop in a Uniform Magnetic Field
- Circular Current Loop as a Magnetic Dipole
- Moving Coil Galvanometer
- Applications of Ampere’s Circuital Law > Magnetic Field of a Toroidal Solenoid
- Conversion of a Galvanometer into a Voltmeter
Magnetism and Magnetic Matter
- Concept of Magnetism
- The Bar Magnet
- Magnetism and Gauss’s Law
- Magnetisation and Magnetic Intensity
- Magnetic Properties of Materials
- Diamagnetism
- Paramagnetism
- Ferromagnetism
- Current Loop as a Magnetic Dipole: Magnetic Dipole Moment of Current Loop
- Torque on a Magnetic Dipole (Bar Magnet) in a Uniform Magnetic Field
- Curie Temperature
Electromagnetic Induction
Alternating Current
- Alternating Current (Ac): an Introduction
- Different Types of AC Circuits: AC Voltage Applied to a Resistor
- Representation of AC Current and Voltage by Rotating Vectors - Phasors
- Different Types of AC Circuits: AC Voltage Applied to an Inductor
- Different Types of AC Circuits: AC Voltage Applied to a Capacitor
- Different Types of AC Circuits: AC Voltage Applied to a Series LCR Circuit
- Power and Power Factor
- Transformers
- Resonance
- Reactance and Impedance
Displacement current and Electromagnetic Waves
- EM Wave
- Displacement Current
- Sources of Electromagnetic Waves
- Nature of Electromagnetic Waves
- Electromagnetic Spectrum
- Transverse Nature of Electromagnetic Waves
- Electromagnetic Spectrum Regions
Ray Optics and Optical Instruments
- Fundamental Concepts of Light
- Reflection of Light by Spherical Mirrors
- Sign Convention
- Focal Length of Spherical Mirrors
- Mirror Equation/Formula
- Refraction of Light
- Total Internal Reflection
- Refraction at a Spherical Surface and Lenses
- Refraction at Spherical Surfaces
- Refraction by a Lens
- Power of a Lens
- Thin Lenses and Their Combination
- Refraction of Light Through a Prism
- Optical Instruments
- Microscope and it’s types
- Telescope
- Law of Reflection of Light
- Laws of Refraction
- Lens Formula
- Power of a Lens
Diffraction and Polarisation of Light
- Diffraction of Light
- Types of Diffraction
- Fraunhofer Diffraction Due to a Single Slit
- Resolving Power of Microscope and Astronomical Telescope
- Polarisation of Light
- Polarisation
- Brewster's Law
- Law of Malus
- Polaroids
Wave Optics
- Introduction of Wave Optics
- Huygens' Principle
- Refraction of a Plane Wave
- Refraction at a Rarer Medium
- Reflection of a Plane Wave by a Plane Surface
- Coherent and Incoherent Addition of Waves
- Interference of Light Waves and Young’s Experiment
- Diffraction of Light
- Polarisation
- Brewster's Law
Communication System
- Communication System
- Propagation of EM Waves
- Basic Terminology Used in Electronic Communication Systems
- Modulation and Its Necessity
- Carrier Waves and Their Types
- Amplitude Modulation (AM)
- Frequency Modulation (FM)
- Bandwidth of Signals
- Bandwidth of Transmission Medium
Photo Electric Effect and Matter Waves
- Dual Nature of Radiation
- Electric Discharge Through Gases
- Electron Emission
- Photoelectric Effect - Hertz’s Observations
- Photoelectric Effect - Hallwachs’ and Lenard’s Observations
- Experimental Study of Photoelectric Effect
- Photoelectric Effect and Wave Theory of Light
- Einstein’s Photoelectric Equation: Energy Quantum of Radiation
- Particle Nature of Light: The Photon
- Wave Nature of Matter
- De Broglie's Explanation
Atoms
- Atoms: Building Blocks of Matter
- Alpha-particle Scattering and Rutherford’s Nuclear Model of Atom
- Atomic Spectra
- Neils Bohr’s Model of an Atom
- Energy Levels
- The Line Spectra of the Hydrogen Atom
- De Broglie’s Explanation of Bohr’s Second Postulate of Quantisation
- Hydrogen Spectrum
- Size of the Nucleus
- Atomic Mass, Mass - Energy Relation and Mass Defect
- Nuclear Binding Energy
- Nuclear Fission
- Nuclear Fusion
Nuclei
- Structure of the Atom and Nucleus
- Atomic Masses and Composition of Nucleus
- Size of the Nucleus
- Mass-energy and Nuclear Binding Energy
- Mass - Energy
- Nuclear Binding Energy
- Nuclear Force
- Radioactivity
- Forms of Energy > Nuclear Energy
- Nuclear Fission
- Nuclear Fusion – Energy Generation in Stars
- Controlled Thermonuclear Fusion
Electronic Devices
- Energy Bands in Solids
- Classification of Metals, Conductors and Semiconductors
- Intrinsic Semiconductor
- Extrinsic Semiconductor
- p-type semiconductor
- n-type semiconductor
- p-n Junction
- Semiconductor Diode
- Application of Junction Diode as a Rectifier
- Special Purpose P-n Junction Diodes
- Zener Diode as a Voltage Regulator
- Digital Electronics and Logic Gates
Experimental Skills
- Vernier Callipers
- Screw Gauge
- Simple Pendulum
- Metre Scale
- Young's Modulus of Elasticity
- Surface Tension of Water
- Coefficient of viscosity
- Experimental Determination of Speed of Sound in Air
- Specific Heat Capacity
- Resistivity Measurement
- Resistance Measurement
- Focal Length Measurement Using the Parallax Method
- Plot of Angle of Deviation Vs Angle of Incidence for a Triangular Prism
- Fractive Index of a Glass Slab Using a Travelling Microscopе
- Characteristic Curves of a p-n Junction Diode
- Identification of Diode, Led, Resistor, and Capacitor
Estimated time: 6 minutes
- Moment of force (Torque)
- Work done by a torque
- Kinetic energy of a rotating body
- Angular momentum of a particle
- Conservation of angular momentum
- Applications of conservation of angular momentum
CBSE: Class 12
Definition: Angular Displacement
The change in the angle traced by the position vector of a particle about a fixed point when the particle moves along a curved path is called Angular Displacement. Its unit is radian (rad).
CBSE: Class 12
Definition: Angular Velocity
The angular displacement per unit time, i.e., \[\overline ω\] = Δθ/Δt, is called Angular Velocity. It is a vector quantity whose direction is normal to the rotational plane given by the right-hand screw rule.
CBSE: Class 12
Definition: Angular Acceleration
The rate of change of angular velocity, i.e., α = dω/dt, is called Angular Acceleration. Average angular acceleration is \[\overline α\] = (ω2 − ω1)/(t2 − t1).
CBSE: Class 12
Definition: Torque (τ) — Moment of Force
The turning effect of a force about an axis of rotation, given as the product of the magnitude of force and the perpendicular distance of the line of action of the force from the axis of rotation, is called Torque (or Moment of Force).
\[\vec{\tau}=\vec{r}\times\vec{F},\quad\tau=rF\sin\theta\]
CBSE: Class 12
Definition: Angular Momentum
The product of the linear momentum of a body and the perpendicular distance of the line of action of the linear momentum vector from the axis of rotation is called Angular Momentum.
CBSE: Class 12
Formula: Angular Momentum
L = Iω = mvr sin θ
