AP EAMCET Syllabus 2026 for MPC- JNTU Kakinada has released the AP EAMCET 2026 MPC syllabus along with the brochure. Candidates can check the AP EAMCET syllabus 2026 for MPC on the official website, cets.apsche.ap.gov.in/EAPCET. The authority will conduct the AP EAMCET 2026 engineering exam in three subjects, Maths, Physics and Chemistry. The AP EAMCET question paper will be based on the syllabus. Candidates can find the complete AP EAMCET 2026 syllabus here. The AP EAPCET exam is to be held on May 12, 13, 14, 15 and 18 (engineering) and on May 19, 20 (Agriculture and Pharmacy).
Direct link to download the AP EAMCET 2026 syllabus for MPC
The authority has released the AP EAMCET MPC 2026 syllabus on the official website. Candidates can check the syllabus for AP EAMCET syllabus for MPC in the table below.
| Unit | Topics |
|---|---|
Functions, Mathematical Induction, Matrices, Complex Numbers, De Moivre’s Theorem, Quadratic Expressions, Theory of Equations, Permutations & Combinations, Binomial Theorem, Partial Fractions | |
Trigonometric Ratios & Transformations, Trigonometric Equations, Inverse Trigonometric Functions, Hyperbolic Functions, Properties of Triangles | |
Vector Algebra | Addition, Scalar Multiplication, Dot & Cross Products, Vector equations of lines and planes |
Random experiments, Independent/Dependent events, Bayes theorem, Probability distributions | |
Locus, Straight Line, Pair of Straight Lines, Circle, System of Circles, Parabola, Ellipse, Hyperbola | |
Limits & Continuity, Differentiation, Applications of Derivatives, Integration, Definite Integrals, Differential Equations |
| Unit | Sub-Topics |
|---|---|
What is Physics, scope & excitement; Physics, technology & society; Fundamental forces in nature; Physical laws | |
Units & Measurements | SI units, length, mass, time measurement; Accuracy, precision, errors; Significant figures; Dimensional analysis & applications |
Position, displacement, path length; Average & instantaneous velocity; Acceleration; Kinematic equations; Relative velocity | |
Scalars & vectors; Resolution & addition of vectors; Projectile motion; Uniform circular motion | |
Newton’s 3 laws; Momentum & impulse; Conservation of momentum; Friction (static, kinetic, rolling); Motion on level & banked roads | |
Work-energy theorem; Kinetic & potential energy; Conservation of energy; Elastic & inelastic collisions; Power | |
Centre of mass; Torque; Angular momentum; Conservation of angular momentum; Moment of inertia; Rolling motion | |
SHM definition & equations; Energy in SHM; Spring oscillator; Simple pendulum; Damped & forced oscillations; Resonance | |
Universal law; Acceleration due to gravity (above/below earth); Gravitational potential; Escape velocity; Satellites (geostationary, polar) | |
Elastic behavior; Stress & strain; Hooke’s law; Elastic moduli; Energy stored in wire | |
Pressure, Pascal’s law; Buoyancy & Archimedes’ principle; Bernoulli’s principle; Viscosity, Stokes law; Surface tension, capillarity | |
Temperature & heat; Expansion; Specific heat, calorimetry; Change of state; Heat transfer; Black body radiation; Newton’s cooling | |
Zeroth law; First law; Work, heat, internal energy; Enthalpy; Isothermal & adiabatic processes; Heat engines; Second law; Carnot engine | |
Molecular theory; Gas laws; Kinetic energy & pressure; Equipartition of energy; Mean free path; Specific heat | |
Types of waves; Wave equation; Speed of sound; Standing waves; Beats; Doppler effect | |
Ray Optics & Optical Instruments | Reflection & refraction; TIR; Lenses, mirrors; Prism & dispersion; Human eye; Microscopes & telescopes |
Huygens’ principle; Interference; Young’s experiment; Diffraction; Polarization | |
Electric Charges & Fields | Coulomb’s law; Electric field & flux; Gauss’s law & applications; Electric dipole |
Electrostatic Potential & Capacitance | Potential & potential energy; Equipotential surfaces; Capacitors; Energy stored; Van de Graaff generator |
Ohm’s law; Resistivity; Series & parallel circuits; EMF & cells; Kirchhoff’s rules; Wheatstone bridge; Potentiometer | |
Lorentz force; Cyclotron; Biot-Savart law; Ampere’s law; Solenoid & toroid; Torque on current loop; Galvanometer | |
Magnetism & Matter | Earth’s magnetism; Magnetic dipole; Properties of materials (dia-, para-, ferro-magnetism) |
Faraday’s & Lenz’s laws; Eddy currents; Self & mutual induction; AC generator | |
AC voltage; Phasors; LCR circuits; Resonance; Power & power factor; Transformers | |
Maxwell’s equations; Spectrum (radio to gamma rays) | |
Photoelectric effect; Einstein’s equation; Wave-particle duality; Davisson–Germer experiment | |
Rutherford & Bohr models; Hydrogen spectrum; Franck–Hertz experiment | |
Nuclear composition; Binding energy; Radioactivity; Fission & fusion; Nuclear reactor | |
Band theory; p–n junction; Diodes; Zener diode; LED, photodiode, solar cell; Transistors; Logic gates | |
Elements of communication; Propagation; Modulation; AM & detection |
Unit | Sub-Topics |
|---|---|
Sub-atomic particles; Bohr’s model; Quantum mechanics; Orbitals & quantum numbers; Aufbau, Hund’s rule, Pauli principle | |
Modern periodic table; s, p, d, f blocks; Periodic trends in properties | |
Ionic & covalent bonding; VSEPR theory; Hybridisation; MOT; Hydrogen bonding | |
Gases & liquids; Gas laws; Kinetic theory; Real gases; Liquefaction; Surface tension & viscosity | |
Laws of combination; Mole concept; Empirical/molecular formula; Limiting reagent; Concentration terms | |
First law, enthalpy, calorimetry; Hess’s law; Bond enthalpy; Entropy; Gibbs free energy | |
Dynamic equilibrium; Equilibrium constant (Kc, Kp); Le Chatelier’s principle | |
Acids & bases (Arrhenius, Bronsted, Lewis); pH; Buffers; Solubility product | |
Hydrides; Water & H₂O₂; Hardness of water; Uses | |
Alkali & alkaline earth metals; General properties; Important compounds (Na, Ca, etc.) | |
Boron & aluminium compounds; Carbon allotropes; Silicates, zeolites | |
N, P, O, S, halogens, noble gases & their compounds | |
Transition elements; Lanthanoids & actinoids; Important compounds; Coordination chemistry | |
Types of solids; Unit cells; Packing efficiency; Defects; Conductivity; Magnetic properties | |
Concentration terms; Solubility; Colligative properties; Van’t Hoff factor | |
Galvanic & electrolytic cells; Nernst equation; Batteries; Fuel cells; Corrosion | |
Rate laws; Order & molecularity; Integrated rate equations; Arrhenius equation | |
Adsorption; Catalysis; Colloids; Emulsions | |
Ores; Extraction methods; Thermodynamics; Electrochemical principles; Refining | |
Hybridisation in carbon; Nomenclature; Isomerism; Reaction mechanisms; Purification | |
Alkanes, alkenes, alkynes; Aromatic hydrocarbons (benzene, electrophilic substitution) | |
Properties, reactions, uses | |
Nomenclature; Preparation & reactions | |
Classification; Preparation; Reactions | |
Carbohydrates, proteins, nucleic acids, vitamins | |
Types & methods; Examples (Nylon, Bakelite, rubber, etc.) | |
Air, water & soil pollution; Green chemistry |
Get expert advice on college selection, admission chances, and career path in a personalized counselling session.
On Question asked by student community
Hello Dear Student,
You can check, find and access more information here:
https://engineering.careers360.com/articles/ap-eamcet-2026-results-link-how-download-scorecard
Hope it helps!
Hello, with 64 marks in AP EAMCET 2026 and 598/600 marks in IPE, you may get a good rank in AP EAMCET. However, it depends on factors such as your exam score, normalisation process, and overall competition level.
You can check the rank-wise college list here: AP EAMCET Rank-Wise Colleges
Hello Dear Student,
Based on previous-year AP EAMCET trends, a score of 46 marks out of 160 is expected to correspond to a rank in the range of 50,001–1,50,000 .
Expected Rank Range by Marks
| AP EAMCET Marks | Expected Rank Range |
|---|---|
| 50–59 | 15,001–50,000 |
| 40–49 | 50,001–1,50,000 |
| 30–39 | Above 1,50,000 |
Your IPE
Hello, to suggest colleges for CSE admission, please mention your AP EAMCET rank and category. College allotment is based on factors such as your rank, category, seat availability, and counselling cutoff.
You can also check your possible college options with this link: AP EAMCET College Predictor 2026
Hello Dear Student,
With an 80,000 rank in AP EAPCET, securing a seat in the AIML branch at SRKR Engineering College or Vishnu Institute of Technology is highly unlikely, as cutoffs for these top-tier institutions typically close well under 10,000
You can get directly find, check, get more information here:
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