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JEE / NEET Physics

? P0. Mathematics in Physics

◻️T1. Trigonometry
◻️T2. Algebra
◼️ T2.1. Quadratic Equations
◼️ T2.2. Binomial Theorem
◼️ T2.3. AP, GP, HP
◻️T3. Coordinate Geometry
◼️T3.1. Straight Line and it's graphs
◼️T3.2. General Graphs
◻️T4. Calculus
◼️T4.1. Differential Calculus
◼️T4.2. Integral Calculus

? P1. ️Units and Dimensions, Errors and Measurements

◻️T1. Units and Dimensions
◻️T2. Significant Figures
◻️T3. Errors in Measuerment

? P2. Vectors

◻️T1. Introduction and Types of Vectors
◻️T2. Addition of Vectors
◻️T3. Product of two Vectors

? P3. One Dimensional Motion

◻️T1. Distance and Displacement
◻️T2. Speed and Velocity
◻️T3. Acceleration
◻️T4. Three Equations of Uniformly Accelerated Motion
◻️T5. Motion under Gravity
◻️T6. Graphs

? P4. Two Dimensional Motion

◻️T1.1. Projectile Motion
◼️T1.2. Projectile Motion from a Height
◼️T1.3. Projectile Motion on an Inclined Plane

◻️T2. General Motion in 2D

◻️T3. Relative Velocity
T3.1. River - Boat
T3.2. Rain - Man
T3.3. Airplane - Wind

◻️T4. Kinematics of Circular Motion

? P5. NLM, Friction and Circular Motion Dynamics

◻️T1.0. Systems and Newton's 3 Laws of Motion
◼️T1.1. Blocks
◼️T1.2. Strings
◼️T1.3. Pulleys
◼️T1.4. Wedges
◼️T1.5. Springs
◼️T1.6. Equilibrium
◻️T2. Pseudo Force
◻️T3. Constrained Motion and Connected Bodies
◻️T4. Friction
◻️T5. Circular Motion Dynamics

? P6. Work, Power, Energy

◻️T1. Work Done
◼️T1.1. Work Done by Constant Force
◼️T1.2. Work Done by Variable Force
◼️T1.3. Work Energy Theorem
◻️T2. Energy
◻️T3. Power
◻️T4. Vertical Circular Motion

? P7. Center of Mass, Impulse - Momentum and Collisions

◻️T1. Position of Centre of Mass
◻️T2. Motion of Centre of Mass
◻️T3. Energy of Centre of Mass
◻️T4. Collisions
◼️T4.1. 1 D Collisions
◼️T4.2. 2 D Collisions

? P8. Rotational Motion and Rigid Body Dynamics

◻️T1. Moment of Inertia
◻️T2. Rotational Kinematics
◻️T3. Torque, Angular Momentum and Rotational Dynamics
◻️T4. Rotational Kinetic Energy
◻️T5. Rolling
◻️T6. Toppling
◻️T7. Equilibrium

? P9. Gravitation

▫️T1. Newton's Law and Kepler's Laws of Gravitation
▫️T2. Variation of g
▫️T3. Gravitational Field and Potential
▫️T4. Gravitational Potential Energy
▫️T5. Escape Velocity and Escape Energy
▫️T6. Motion of Satellites

? P10. Fluid Mechanics and Properties of Fluids

◻️T1. Fluid Statics
◻️T2. Fluid Flow
◻️T3. Viscocity
◻️T4. Surface Tension

? P11. Properties of Solids

◻️T1. Linear Stress and Strain
◻️T2. Sheer Stress and Strain
◻️T3. Volume - Bulk Stress and Strain
◻️T4. Hooke's Law, Stress Strain Curve, Poisson's Ratio and Applications

? P12. SHM (Simple Harmonic Motion)

◻️T1. Kinematics of SHM
◻️T2. Energy of SHM
◻️T3. Dynamics of SHM
◻️T4. Forced, Damped, Oscillations

? P13. Wave Motion

▫️T1. Wave Motion and Speed of Waves, Intensity of Sound Waves.
▫️T2. Progresive Wave, Energy in a Wave- Decible Scale Intensities.
▫️T3. Gravitational Field and Potential
▫️T4. Superposition of Waves
- Interference
- Beats
▫️T5. Standing Waves
▫️T6. Doppler's Effect

? P14. Heat and Thermodynamics

◻️T1. Temperature Scales
◻️T2. Thermal Expansion
◻️T3. Calorimetry
◻️T4. Kinetic Theory of Gases
◻️T5. Laws of Thermodynamics
◻️T6. Heat Engines
◻️T7.1. Conduction
◼️T7.2. Radiation

? P15. Electrostatics

◻️T1. Charges
◻️T2.1. Coulomb's Law
◼️T2.2. Electric Fields - Various Configurations
◻️T3.1. Electric Potential - Basics
◼️T3.2. Electric Potential - Various Configurations
◼️T3.3. Electrostatic Potential Energy
◻️T4. Dipole
◻️T5.1. Electric Flux
◻️T5.2. Gauss' Law

? P16. Capacitors
◻️T1.1. Dielectrics
◼️T1.2. Conductors

◻️T2.1. Types of Capacitors
◼️T2.2. Combination of Capacitors
◼️T2.3. Kirchoff's Law for Capacitor Circuits, Charging and Discharging of Capacitors
◻️T2.4. Energy of Capacitors
◻️T2.5. Redistribution of Charges
◻️T2.6. Van De Graaff Generator

? P17. Current Electricity

◻️T1. Electric Current, Current Density and Ohm's Law
◻️T2. Resistors and Combination of Resistors
◻️T3. Kirchoff's Laws
◻️T4. Measuring Instruments

? P18. Magnetism

◻️T1. Biot Savart's and Ampere's Law
◻️T2. Lorentz Force on Moving Charge
◻️T3. Force on Current carrying conductor, Magnetic Dipole Moment, Moving Coil Galvanometer
◻️T4. Bar Magnet
◻️T5. Earth's Magnetism
◻️T6. Magnetic Materials

? P19. ElectroMagnetic Induction

◻️T1. Faraday's Law and Lenz Law
◻️T2. Motional EMF, Induced non-conservative Electric Field
◻️T3. Self Induction
◻️T4. Mutual Inductance and LR Circuits

? P20. Alternating Current

◻️T1. Basics of AC, RMS Values
◻️T2. R, L, C in AC circuits, Series LRC Circuit, Resonance, Quality Factor
◻️T3. Power in AC Circuit
◻️T4. LC Oscillations
◻️T5. AC Devices
◼️T5.1. Choke Coil
◼️T5.2. Transformer
◼️T5.3. AC Generator

? P21. Ray Optics

◻️T1. Plane Surface Reflection
◻️T2. Curved Surface Reflection
◻️T3. Plane Surface Refraction, Total Internal Reflection
◻️T4. Curved Surface Refraction and Lenses
◻️T5. Prisms
◻️T6. Optical Instruments
◻️T7. Defects of Vision, Rainbow and Scattering

? P22. Wave Optics (Interference, Diffraction, Polarization and EM Waves)

◻️T1. Wave Theories of Light
◻️T2. Young's Double Slit Experiment
◻️T3. Diffraction of Light
◻️T4. Polarization of Light
◻️T5. Displacement Current
◻️T6. EM Waves and Electromagnetic Spectrum

? P23. Dual Nature of Matter and Radiation [PhotoElectric Effect and X Rays]

◻️T1. Photoelectric Effect
◻️T2. Quantum Theory of Light and Radiation Pressure
◻️T3. Dual Nature of Matter and Radiation
◼️T3.1. Matter Waves
◼️T3.2. Davisson Germer Experiment

? P24. Atoms

◻️T1. Rutherford and Bohr's Model
◻️T2. Energy and Atomic Spectrum
◻️T3. X-Rays

? P25. Nuclei and Radioactivity

◻️T1. Nucleus
◻️T2. Nuclear Stability and Binding Energy
◻️T3. Radioactivity

? P26. Semiconductors

◻️T1. Semiconductors
◻️T2. P-N Junction, Diodes
◻️T3. Transistors
◻️T4. Logic Gates

? P27. Communication Systems

◻️No Topics
◻️ T1. Trigonometry
◻️ T2. Algebra
◼️ T2.1. Quadratic Equations
◼️ T2.2. Binomial Theorem
◼️ T2.3. AP, GP, HP
◻️ T3. Coordinate Geometry
◼️ T3.1. Straight Line and it’s graphs
◼️ T3.2. General Graphs
◻️ T4. Calculus
◼️ T4.1. Differential Calculus
◼️ T4.2. Integral Calculus