Mastering Physics for NEET UG 2025: Key Chapters and Preparation Strategy

The process followed to qualify for higher learning institutions in particularly in the field of Medicine the National Eligibility cum Entrance Test (NEET). Specifically, for the learners setting their sights on the next NEET UG examination set in the year 2025, it can be noteworthy that they enhance their knowledge of physics as much as they can. As stated previously, the following article contains information about the important chapters, their official syllabus, as well as common techniques to prepare for the physics section of NEET UG 2025.

Chapters to be Covered and BluePrint

1. Physical World and Measurement

Syllabus: Scope and interest of physics; role and character of physical laws; relation of physics, technology, and society; system international (SI) units; fundamental units and derived Units; least count, accuracy, and precision; error in measurements; significant figure; physical dimension; dimensional analysis and its utility.

2. Kinematics

Syllabus: Reference frames, motion in a straight line: position-time graph, speed, and velocity; uniform and nonuniform motion, mean speed and instantaneous velocity; uniformly accelerated motion, velocity-time, and position-time graphs; relations for uniformly accelerated motion; elementary ideas of differentiation and integration in the study of motion; scalar and vector quantities; position and displacement vectors; general vectors and…equality of vectors; multiplication of vectors by a scalar; addition and subtraction of vectors; relative

3. Laws of Motion

Syllabus: Correlation between force and acceleration/inertia; Newton’s first law of motion/Inertia; Newton’s second law of momentum and; Impulse; Newton’s third law of motion; conservation of linear momentum; Countenance of concurrent forces: stable and kinetic force, types of frictional force; rolling friction; lubrication; circular motion: centripetal force, illustrations of circular motion ( Car along a circular level road, Car along a circular bank)

4. Work, Energy, and Power 

Syllabus: Different types of work done by a constant force and a variable force; energy-kinetic energy; work energy theorem; power, concept of potential energy; potential energy of a spring; Conservative and non-conservative force; introduction to the concept of mechanical energy, conservation mechanical energy kinetic and potential energy; non-conservation of mechanical energy; motion in a vertical circle, elastic and inelastic collision in one and two dimensions. 

5. Motion of a System of Particles & A Rigid Body 

Syllabus: Centre of Mass of two-particle systems; Conservation of the center of Mass Velocity; Center of Mass of a rigid, symmetric rigid body; Center of Mass of a uniform Rod; Moment of a force; Moment of Inertia; the radius of gyration; Some standard values of the moment of inertia; Statement of parallel and perpendicular axis theorem; couple and angular momentum; conservation of angular momentum; conditions of stable or unstable equilibrium of a rigid body; rotation 

6. Gravitation 

Syllabus: Kepler’s laws of planetary motion; Newton’s universal law of gravitation; acceleration due to gravity and their variation with height and depth. Energy in a gravitational field, gravitational potential energy; escape velocity, the minimum velocity with which an object has to be projected to escape from the force of gravity of the earth; velocity required to launch a satellite to enable it to circle the earth; geostationary satellites.

 7. Properties of Bulk Matter 

Syllabus: Melasticity; Stress-strain diagram; Hooke’s law solid; Young’s module; Knoop hardness; modulus of yarn; bar; coefficient of elasticity; energy of elasticity. The pressure exerted by a fluid column; Pascal’s law, examples: hydraulic lift and hydraulic brakes; how gravity influences the pressure of a liquid on an object; viscosity; Stoke’s law; terminal velocity; streamline and turbulent flow; critical velocity; Bernoulli’s theorem and it uses; surface energy & surface tension; angle of contact; excess pressure across a curved surface; involvement of the portion of surface tension idea with regards to droplets, bubbles, & capillary rise. 

 8. Thermodynamics 

Syllabus: Thermal equilibrium, the definition of temperature (zeroth law); Heat, work, and internal energy; The first law of thermodynamics- isotherm and adiabatic process; The second law of thermodynamics-reversible and irreversible process; Heat engine refrigerator. 

 9. Perfection and behavior of gas and Kinetic Molecular Theory of gas 

Syllabus: Van der Waals equation, work done in compressing a gas; assumptions and concept of pressure; different kinetic interpretation of temperature, RMS speed of gas molecules; degrees of freedom; LOL and its application to Cp/Cv ratio of a gas. 

10. Oscillations and Waves 

Syllabus: Periodic motion; graphs, features of mechanical vibrations – periodic functions; Simple harmonic motion (S. H. M) and its formula; phase; oscillations of a loaded spring, spring’s restoring force & force constant; Mechanical energy in S. H. M. – Kinetic energy & potential energy; Simple pendulum; its period derived. Vibrations and oscillations free, forced, and damped oscillations; resonance; types of waves motion; transverse and longitudinal waves; the speed of wave motion; the relation between displacement for a progressive wave; Superposition of waves, a reflection of waves, standing waves in strings and organ pipes, first note or fundamental note and over the note, beat, Doppler’s effect.