-> Scope of Physics

-> Physics, Technology and Society

-> Forces of nature

-> Measurement

-> Derived quantities and their units

-> SI standards

-> Rules and conventions for writing SI units and their symbols

-> Expressing larger and smaller physical quantities

-> Determination of distance, mass, time

-> Accuracy and precision of measuring instruments

-> Measurement: Significant figures

-> Measurement: Rounding off

-> Classification of Errors in Measurement

-> Dimensional Analysis

-> Uses and Limitations of Dimensional Analysis

-> Kinematics - Rest and Motion

-> Motion in one dimension (rectilinear motion)

-> Equations of motion

-> Graphical representations - displacement, velocity,acceleration with time graph

-> Representation of a vector quantities

-> Different types of vectors

-> Addition of vectors: Triangle and Parallelogram law of vectors

-> Subtraction of vectors

-> Resolution of vectors and rectangular components

-> Multiplication of two vectors

-> Projectile motion

-> Motion of a projectile thrown horizontally

-> Motion of a projectile projected at an angle with the horizontal (oblique projection)

-> Newton's first law of motion

-> Three types of the inertia

-> Examples for Newton's first law of motion

-> Newton's second law of motion

-> Impulsive force and Impulse of a force

-> Newton's third Law of motion

-> Applications of Newton s third law of motion

-> Proof and Applications of Law of conservation of momentum

-> Concurrent forces and Coplanar forces

-> Parallelogram and Triangle law of forces

-> Experimental verification of triangle law, parallelogram law and Lami's theorem

-> Uniform circular motion

-> Relation between linear velocity and angular velocity

-> Centripetal acceleration, Centripetal force and Centripetal reaction

-> Applications of centripetal forces

-> Banking of curved roads and tracks and Condition for skidding

-> Motion in a vertical circle

-> Motion on a level circular road

-> Work : Work done by a constant force and variable force

-> Potential energy and Kinetic energy

-> Principle of work and energy (work - energy theorem) Statement

-> Conservative forces and non-conservative forces

-> Collision: Types - Elastic collision and Inelastic collision

-> Centre of mass

-> Centre of gravity

-> Equilibrium of bodies and types of equilibrium

-> Rotational motion of rigid bodies

-> Rotational kinetic energy and moment of inertia of a rigid body

-> Theorems of moment of inertia : Perpendicular and Parallel axes theorem

-> Moment of a force

-> Couple and moment of the couple (Torque)

-> Angular momentum of a rigid body

-> Relation between torque and angular acceleration

-> Conservation of angular momentum with Illustration

-> Newton’s law of gravitation

-> Acceleration due to gravity

-> Acceleration due to gravity at the surface of the Earth

-> Variation of acceleration due to gravity

-> Gravitational field: potential difference and potential energy

-> Inertial mass and Gravitational mass

-> Escape speed derivation and with the atmosphere of a planet

-> Satellites: Orbital velocity, Time period and Energy

-> Geo–stationary satellites and Polar satellites

-> Uses of satellites

-> Indian space programme: List of Indian satellites and Indian Launch Vehicles (Rockets)

-> Weightlessness, Rockets - principle and Types of fuels

-> The Solar system

-> Kepler’s laws of planetary motion: The law of orbits, areas, periods

-> Size, Surface temperatures, Mass, Atmosphere of the planets

-> Conditions for life on any planet

-> Asteroids, Comets, Meteors and Meteorites inthe Solar system

-> Stars, Constellations, Galaxy in the Solar system

-> Milky Way galaxy

-> Origin of the Universe

-> Mechanics of Solids and Fluids

-> Intermolecular or interatomic forces

-> Elasticity: Stress, strain Elastic limit, Hooke’s law

-> Experimental verification of Hooke’s law

-> Study of stress - strain relationship

-> Three moduli of elasticity

-> Relation between the three moduli of elasticity

-> Determination of Young’s modulusby Searle’s method

-> Applications of modulus of elasticity

-> Pressure due to a liquid column

-> Pascal’s law and effect of gravity

-> Applications of Pascal’s law: Hydraulic lift and brake

-> Co-efficient of viscosity

-> Viscosity: Streamline flow and Turbulent flow

-> Stoke’s law (for highly viscous liquids)

-> Determination of coefficient of viscosity of water by Poiseuille’s flow method

-> Surface tension: Intermolecular, Cohesive, Adhesive force

-> Experiments to demonstrate surface tension

-> Molecular theory of surface tension

-> Fluid Surface energy and surface tension

-> Pressure difference and pressure inside a liquid drop and a soap bubble

-> Capillarity and Illustrations of capillarity

-> Experimental determination of surface tension of water by capillary rise method

-> Factors affecting and Applications surface tension

-> Total energy of a liquid: Pressure, Kineti, Potential energy

-> Fluid Equation of continuity

-> Bernoulli’s theorem

-> Application of Bernoulli’s theorem

-> The projection of uniform circular motion on a diameter is SHM

-> Important terms in simple harmonic motion

-> Dynamics of harmonic oscillations

-> Angular harmonic oscillator

-> Horizontal and Vertical oscillations of spring

-> Oscillation of liquid column in a U - tube

-> Oscillations of a simple pendulum

-> Laws of pendulum

-> Kinetic and Potential in simple harmonic motion

-> Types of oscillations

-> Characteristics of wave motion

-> Mechanical wave motion - Transverse and Longitudinal wave motion

-> Relationship between velocity, frequency and wavelength of a wave

-> Velocity of wave in different media

-> Laplace?s correction

-> Factors affecting velocity of sound in gases

-> Equation of a plane progressive wave

-> Characteristics of progressive wave

-> Progressive wave : Intensity and sound level

-> Applications of reflection of sound waves

-> Applications of refraction of sound

-> Superposition principle of waves

-> Interference of waves

-> Experimental demonstration of interference of sound

-> Beats - Analytical method and Uses of beats

-> Analytical method and Characteristics of stationary waves

-> Standing waves in strings - Sonometer

-> Vibrations of air column in Organ pipes

-> Resonance air column apparatus

-> Doppler effect : Different cases and Applications

-> Heat and Thermodynamics - Introduction

-> Postulates of Kinetic theory of gases

-> Pressure exerted by a gas

-> Degrees of freedom of molecule

-> Law of equipartition of energy

-> Thermal equilibrium

-> Molar specific heat capacity of a gas

-> First law of thermodynamics

-> Relation between Cp and Cv (Meyer's relation)

-> Indicator diagram (P-V diagram)

-> Isothermal process and Workdone in an isothermal expansion

-> Adiabatic process and Work done in an adiabatic expansion

-> Thermodynamic : Reversible and irreversible processes

-> Second law of thermodynamics- Kelvin's, Clausius, Kelvin - Planck's statement

-> Carnot engine - Essential parts, Working, four stages of operations

-> Refrigerator : Coefficient of performance and Inferences

-> Transfer of heat - Conduction, Convection, Radiation

-> Perfect black body

-> Experimental verification of Newton's law of cooling

-> Surface temperature of the Sun

-> Angstrom pyrheliometer

-> Reflection of light

-> Image in a plane mirror

-> Reflection at curved surfaces

-> Total internal reflection

-> Applications of Total internal reflection

-> Michelson's method

-> Importance of velocity of light

-> Refraction of light

-> Refraction at a spherical surface

-> Lens maker's formula and lens formula and Magnification

-> Combination of thin lenses in contact

-> Refraction of light through a prism

-> Dispersion of light and Dispersive power

-> Spectrometer

-> Basic Parts and Adjustments of the spectrometer

-> Determination of the refractive index of the material of the prism

-> Formation of rainbows

-> Earth?s magnetic field and magnetic elements

-> Basic properties of magnets

-> Force between two magnetic poles

-> Magnetic induction at a point along the axial line due to a magnetic dipole (Bar magnet)

-> Magnetic induction at a point along the equatorial line of a bar magnet

-> Mapping of magnetic field due to a bar magnet

-> Torque on a bar magnet placed in a uniform magnetic field

-> Tangent law

-> End-on (or) Tan A position- Deflection magnetometer

-> Broad?side on (or) Tan B position - Deflection magnetometer

-> Magnetic properties of materials

-> Properties of diamagnetic, paramagnetic, ferromagnetic substances

-> Hysteresis and Hysteresis loss

-> Uses of ferromagnetic materials

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