AP EAMCET Physics Syllabus 2026 – Unit-wise Topics and Weightage
AP EAMCET Physics Syllabus 2026 covers Class 11 and 12 topics for the MPC stream, including Mechanics, Thermodynamics, Electrodynamics, Optics, Modern Physics, and Semiconductors. Focus on high-weightage chapters like Thermodynamics, Current Electricity, and Optics, use Telugu Academy textbooks, practice numerical problems, and revise regularly to excel in the exam.
AP EAMCET Physics Syllabus 2026 plays a crucial role in shaping a student’s preparation for the engineering entrance exam conducted by APSCHE. Covering important concepts from Class 11 and Class 12 Physics, the syllabus focuses on testing both theoretical understanding and numerical problem-solving skills.
A clear knowledge of the AP EAMCET Physics syllabus 2026 helps candidates identify high-weightage chapters, plan their study schedule wisely, and avoid unnecessary topics. By aligning preparation with the official syllabus, students can improve accuracy, boost confidence, and maximize their overall score in AP EAMCET 2026.
AP EAMCET Physics Syllabus 2026 Overview
EAMCET 2026 syllabus for Physics is designed to test a candidate's grasp of theoretical principles and their application in problem-solving. It is divided into two major sections: First-year (Class 11) and Second-year (Class 12) topics.
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AP EAMCET Physics Syllabus 2026 Overview |
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Category |
Key Details |
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Exam Name |
AP EAMCET (EAPCET) 2026 |
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Subject |
Physics |
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Total Questions |
40 Questions (1 mark each) |
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Syllabus Level |
Intermediate (Class 11 & 12) |
Unit Wise AP EAMCET 2026 Syllabus for Physics
The table below provides a unit-wise breakdown of the AP EAMCET 2026 Physics syllabus, prepared by analyzing previous years’ exam trends. It helps candidates understand all important topics and plan their preparation in a structured and focused manner.
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Unit Wise AP EAMCET 2026 Syllabus for Physics |
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Unit |
Topics Covered |
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Physical World |
Nature and scope of Physics, Physics and technology, Physics and society, fundamental forces of nature, basic physical laws |
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Units & Measurements |
SI units, measurement of length, mass, time, errors in measurement, significant figures, dimensions, dimensional analysis |
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Motion in a Straight Line |
Position, displacement, speed, velocity, acceleration, kinematic equations, relative motion |
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Motion in a Plane |
Scalars and vectors, vector addition and resolution, projectile motion, uniform circular motion |
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Laws of Motion |
Inertia, Newton’s laws, momentum conservation, friction (static, kinetic, rolling), circular motion applications |
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Work, Energy & Power |
Work-energy theorem, kinetic and potential energy, conservation of energy, collisions, power |
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System of Particles & Rotational Motion |
Centre of mass, torque, angular momentum, moment of inertia, rolling motion |
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Oscillations |
Periodic motion, simple harmonic motion (SHM), energy in SHM, pendulum, damped and forced oscillations |
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Gravitation |
Universal law of gravitation, Kepler’s laws, satellites, escape velocity, gravitational potential energy |
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Mechanical Properties of Solids |
Stress, strain, Hooke’s law, elastic moduli, Poisson’s ratio, applications of elasticity |
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Mechanical Properties of Fluids |
Pressure, buoyancy, Bernoulli’s principle, viscosity, surface tension, applications |
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Thermal Properties of Matter |
Heat and temperature, thermal expansion, calorimetry, heat transfer, Newton’s law of cooling |
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Thermodynamics |
Laws of thermodynamics, heat engines, refrigerators, Carnot engine, thermodynamic processes |
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Kinetic Theory |
Molecular nature of matter, gas laws, kinetic interpretation of temperature, mean free path |
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Waves |
Wave motion, longitudinal and transverse waves, superposition, standing waves, Doppler effect |
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Ray Optics & Optical Instruments |
Reflection and refraction, mirrors, lenses, prism, microscopes, telescopes |
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Wave Optics |
Huygens’ principle, interference, diffraction, polarization, Young’s double-slit experiment |
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Electric Charges & Fields |
Coulomb’s law, electric field, field lines, Gauss’s law and applications |
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Electrostatic Potential & Capacitance |
Potential, capacitors, dielectric effect, energy stored in capacitors |
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Current Electricity |
Ohm’s law, resistivity, circuits, Kirchhoff’s laws, Wheatstone bridge, potentiometer |
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Moving Charges & Magnetism |
Lorentz force, cyclotron, Biot–Savart law, Ampere’s law, magnetic dipole |
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Magnetism & Matter |
Magnetic properties, Earth’s magnetism, bar magnet, magnetization |
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Electromagnetic Induction |
Faraday’s laws, Lenz’s law, inductance, AC generator, eddy currents |
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Alternating Current |
AC circuits, LCR circuit, resonance, power in AC circuits |
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Electromagnetic Waves |
Maxwell’s equations, EM spectrum, properties and uses |
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Dual Nature of Matter & Radiation |
Photoelectric effect, Einstein’s equation, wave–particle duality |
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Atoms |
Rutherford model, Bohr model, atomic spectra, energy levels |
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Nuclei |
Nuclear structure, radioactivity, nuclear reactions, fission and fusion |
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Semiconductor Electronics |
Diodes, transistors, rectifiers, logic gates, ICs |
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Communication Systems |
Communication elements, modulation, bandwidth, propagation of waves, antennas |
AP EAMCET Syllabus 2026 MPC Weightage
Analyzing the AP EAMCET 2026 Syllabus weightage helps in identifying "Must-Do" chapters. Historically, certain topics consistently carry more marks in the MPC stream.
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AP EAMCET Syllabus 2026 MPC Weightage |
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Chapter/Topic |
Expected Weightage (No. of Questions) |
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Thermodynamics & Heat |
4-5 Questions |
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System of Particles & Rotational Motion |
3-4 Questions |
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Current Electricity |
3 Questions |
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Electrostatics |
2-3 Questions |
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Optics (Ray & Wave) |
3-4 Questions |
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Modern Physics |
3-4 Questions |
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Moving Charges & Magnetism |
2-3 Questions |
How to Prepare for AP EAMCET Physics 2026?
A smart and planned approach is essential to score well in the AP EAMCET Physics 2026 exam. Following the right preparation strategy will help students improve conceptual clarity, accuracy, and confidence.
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Understand the AP EAMCET Physics syllabus 2026 clearly and plan your study schedule accordingly.
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Focus more on high-weightage chapters like Thermodynamics, Current Electricity, Optics, and Modern Physics.
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Study mainly from Telugu Academy textbooks, as the exam follows the state board syllabus.
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Strengthen concepts first, then practice numerical problems regularly.
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Prepare a formula notebook for quick and daily revision.
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Solve previous years’ question papers to understand the exam pattern and difficulty level.
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Take mock tests frequently to improve time management and accuracy.
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Revise important topics multiple times and avoid learning new concepts at the last moment.