Physics (JEE Advanced)
General
Units and dimensions
Dimensional analysis
Least count and significant figures
Measurement and error analysis
Vernier calipers and screw gauge experiments
Determination of g using simple pendulum
Elasticity and Young’s modulus experiment
Surface tension by capillary rise
Specific heat using calorimeter
Focal length of mirror and lens
Speed of sound using resonance column
Verification of Ohm’s law
Determination of resistivity using meter bridge
Mechanics – Kinematics
Motion in one dimension
Motion in two dimensions
Position, velocity and acceleration vectors
Projectile motion
Uniform circular motion
Relative velocity
Mechanics – Laws of Motion
Newton’s laws of motion
Inertial and non-inertial frames
Static and kinetic friction
Free body diagrams
Applications of Newton’s laws
Mechanics – Work, Energy and Power
Work done by forces
Kinetic and potential energy
Work–energy theorem
Conservative and non-conservative forces
Power
Conservation of mechanical energy
Mechanics – System of Particles and Collisions
Centre of mass and its motion
Linear momentum
Impulse
Conservation of linear momentum
Elastic and inelastic collisions
Mechanics – Rotational Motion
Rigid body and rotational motion
Moment of inertia
Parallel and perpendicular axis theorems
Torque and angular momentum
Conservation of angular momentum
Rotational kinetic energy
Dynamics of rigid bodies
Rolling motion without slipping
Equilibrium of rigid bodies
Oscillations and Waves
Simple harmonic motion
Linear and angular SHM
Energy in SHM
Forced and damped oscillations
Resonance
Wave motion
Longitudinal and transverse waves
Superposition of waves
Progressive and stationary waves
Vibrations of strings and air columns
Beats
Speed of sound
Doppler effect
Gravitation
Law of gravitation
Gravitational field and potential
Acceleration due to gravity
Motion of planets and satellites
Kepler’s laws
Geostationary satellites
Escape velocity
Properties of Matter and Fluid Mechanics
Pressure in fluids
Pascal’s law
Buoyancy
Surface tension and surface energy
Capillary rise
Viscosity
Stoke’s law
Terminal velocity
Streamline flow
Equation of continuity
Bernoulli’s theorem and applications
Elastic moduli
Bulk modulus
Modulus of rigidity
Thermal Physics
Thermal expansion of solids, liquids and gases
Calorimetry and latent heat
Heat conduction
Convection and radiation
Newton’s law of cooling
Ideal gas laws
Specific heats of gases
Isothermal and adiabatic processes
First law of thermodynamics
Second law of thermodynamics
Carnot engine and efficiency
Blackbody radiation
Kirchhoff’s law
Wien’s displacement law
Stefan–Boltzmann law
Electrostatics
Coulomb’s law
Electric field and electric field lines
Electric flux
Gauss’s law and applications
Electric potential and potential energy
Dipoles in uniform electric field
Capacitance
Capacitance of conductors
Parallel plate capacitor
Effect of dielectrics
Capacitors in series and parallel
Energy stored in a capacitor
Current Electricity
Electric current and drift velocity
Ohm’s law
Resistance and resistivity
Combination of resistors
Kirchhoff’s laws
Heating effect of electric current
Magnetism
Biot–Savart law
Ampere’s circuital law
Magnetic field due to current-carrying conductors
Lorentz force
Force on current-carrying conductor
Motion of charged particle in magnetic field
Magnetic dipole
Earth’s magnetic field
Electromagnetic Induction and AC
Faraday’s laws of electromagnetic induction
Lenz’s law
Induced emf
Self and mutual inductance
RC, LR, LC and LCR circuits
Alternating current and AC circuits
Electromagnetic Waves
Nature of electromagnetic waves
Electromagnetic spectrum
Uses of electromagnetic waves
Optics
Rectilinear propagation of light
Reflection at plane and spherical surfaces
Refraction and Snell’s law
Total internal reflection
Dispersion by prism
Thin lenses and mirrors
Combination of lenses and mirrors
Magnification
Huygens’ principle
Young’s double slit experiment
Single slit diffraction
Polarisation
Brewster’s law
Polaroids
Modern Physics
Atomic nucleus
Radioactive decay laws
Alpha, beta and gamma radiation
Half-life and mean life
Binding energy
Nuclear fission and fusion
Photoelectric effect
Bohr model of hydrogen atom
X-rays and Moseley’s law
de Broglie wavelength
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