Introduction (for NEET Physics Syllabus)
Preparing for NEET? Physics is one of the most critical subjects that demands a clear understanding of fundamental concepts and problem-solving skills. This comprehensive guide covers the full NEET Physics syllabus, topic-wise breakdowns, and important subtopics to help you prepare effectively for the exam.
The NEET Physics syllabus is divided into two sections: Class 11 and Class 12 topics. A thorough understanding of each concept is essential for scoring well in the exam. Let’s explore the detailed syllabus below!
NEET Physics Syllabus – Topic and Subtopic Breakdown
Class 11 Syllabus
- Physical World and Measurement
- The scope of physics
- Nature of physical laws
- Units and measurements (SI units, significant figures)
- Dimensions and dimensional analysis
- Kinematics
- Motion in a straight line
- Uniform and non-uniform motion
- Motion in a plane
- Velocity, acceleration, and relative motion
- Laws of Motion
- Newton’s Laws of Motion
- Force, friction, and circular motion
- Inertial and non-inertial frames of reference
- Work, Energy, and Power
- Work done by a constant and variable force
- Kinetic and potential energy
- Power and the work-energy theorem
- System of Particles and Rotational Motion
- Center of mass
- Torque and angular momentum
- Moment of inertia
- Rotational dynamics
- Gravitation
- Universal law of gravitation
- Kepler’s laws
- Satellite motion and escape velocity
- Properties of Bulk Matter
- Elasticity and stress-strain relationships
- Fluid mechanics: Bernoulli’s theorem, surface tension
- Viscosity, buoyancy, and properties of solids and liquids
- Thermodynamics
- Heat, work, and internal energy
- Laws of thermodynamics
- Reversible and irreversible processes
- Carnot engine, heat engines, and refrigerators
- Waves and Oscillations
- Simple harmonic motion
- Wave motion, sound waves, and Doppler effect
- Superposition of waves and resonance
Class 12 Syllabus
- Electrostatics
- Coulomb’s law, electric field, and electric dipole
- Gauss’s law and its applications
- Electric potential and capacitance
- Current Electricity
- Electric current and Ohm’s law
- Kirchhoff’s laws
- Electrical resistivity and conductivity
- Potentiometer and Wheatstone bridge
- Magnetic Effects of Current and Magnetism
- Biot-Savart law
- Ampere’s law and electromagnetic induction
- Magnetic properties of materials
- Bar magnets and Earth’s magnetism
- Electromagnetic Induction and Alternating Currents
- Faraday’s laws of electromagnetic induction
- Lenz’s law and eddy currents
- AC circuits and electromagnetic waves
- Optics
- Reflection and refraction
- Mirrors, lenses, and optical instruments
- Wave optics: diffraction, interference, and polarization
- Dual Nature of Matter and Radiation
- Photoelectric effect
- Matter waves and de Broglie hypothesis
- Einstein’s photoelectric equation
- Atoms and Nuclei
- Atomic models and spectra
- Radioactivity, half-life, and nuclear fission/fusion
- Electronic Devices
- Semiconductors: Diodes and transistors
- Logic gates, circuits, and amplifiers
- Solar cells and Zener diodes
- Communication Systems
- Basics of communication
- Modulation and demodulation
- Satellite and optical fiber communications