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The AEEE 2025 syllabus, developed by Amrita University, is based on subjects from Class 11 and 12. It includes four sections: Physics, Chemistry, English, and Mathematics. To achieve a high score on the AEEE 2025 exam, candidates should focus exclusively on this prescribed curriculum. Familiarity with the syllabus in advance will aid in better preparation and strategic planning for the entrance exam.
The syllabus for the AEEE exam typically remains consistent each year, so candidates can use the previous year’s syllabus for their preparation until the 2025 syllabus is officially released. To effectively prepare, candidates should focus on the topics outlined in the AEEE syllabus, as these will be the basis for the questions in the AEEE CBT exam. Candidates need to download the AEEE 2025 syllabus to ensure they are studying the correct material.
Students should be familiar with both the exam pattern and syllabus for AEEE. Additionally, practising with sample papers is an effective strategy to achieve high scores on the exam. Candidates can download the AEEE 2025 syllabus and sample papers, including answers, from online resources. For comprehensive preparation, aspirants should review the syllabus, sample papers, and exam patterns available on this page.
AEEE Syllabus 2025
Candidates can review the previous year’s AEEE syllabus in the table below. The updated syllabus for AEEE 2025 will be posted here as soon as it becomes available. The authority will provide a downloadable PDF link for the AEEE 2025 syllabus online. Understanding the syllabus is essential before beginning preparation, as it helps candidates identify the key chapters and concepts for the AEEE 2025 exam.
Download AEEE 2025 Syllabus PDF
Download the AEEE 2025 Syllabus PDF here. The AEEE 2024 syllabus PDF will be available soon. In the meantime, candidates can access the syllabus from the previous year for their preparation.
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Click to Download Previous Year Syllabus PDF.
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AEEE 2025 Mathematics Syllabus
Unit | Syllabus |
Unit 1: Complex Numbers | Complex numbers in the form a+ib and their representation on the Argand diagram; algebra of complex numbers, modulus, argument (or amplitude), and square roots; cube roots of unity, triangle inequality. |
Unit 2: Linear Inequalities | Solutions of linear inequalities in one variable and their representation on the number line. |
Unit 3: Permutations and Combinations | The fundamental principle of counting; permutations and combinations; the meaning of P(n,r) and C(n,r); simple applications. |
Unit 4: Binomial Theorem | Binomial theorem for positive integral indices; Pascal’s triangle; general and middle terms in binomial expansions; simple applications. |
Unit 5: Sequences and Series | Arithmetic, Geometric, and Harmonic progressions; insertion of means between numbers; relationships between A.M., G.M., and H.M.; special series n, n2, n3; Arithmetico-Geometric Series, Exponential and Logarithmic Series. |
Unit 6: Matrices and Determinants | Determinants and matrices of order two and three; properties and evaluation; addition, multiplication, adjoint, and inverse of matrices; solution of simultaneous linear equations using determinants. |
Unit 7: Quadratic Equations | Quadratic equations in real and complex number systems; relationship between roots and coefficients; nature of roots; formation of equations with given roots. |
Unit 8: Relations and Functions | Definition of relations; domain, codomain, and range; functions: constant, identity, polynomial, rational, modulus, signum, and greatest integer functions; types of relations: reflexive, symmetric, transitive, equivalence relations; one-to-one and onto functions; composite functions, and inverses. |
Unit 9: Trigonometry | Trigonometric identities and equations; inverse trigonometric functions and properties; properties of triangles, including centroid, incentre, circumcentre, orthocentre; solution of triangles, heights, and distances. |
Unit 10: Measures of Central Tendency and Dispersion | Calculation of mean, median, and mode; standard deviation, variance, and mean deviation for grouped and ungrouped data. |
Unit 11: Probability | Probability of events; addition and multiplication theorems; conditional probability and Bayes’ theorem; probability distributions: Binomial and Poisson distributions and their properties. |
Unit 12: Differential Calculus | Functions: polynomials, rational, trigonometric, logarithmic, exponential; limits, continuity, differentiation of various functions; applications: maxima and minima, tangents, normals, Rolle’s and Lagrange’s Mean Value Theorems. |
Unit 13: Integral Calculus | Integrals as antiderivatives; fundamental integrals involving algebraic, trigonometric, exponential, and logarithmic functions; integration by substitution, by parts, and by partial fractions; properties of definite integrals; evaluation and finding areas bounded by curves. |
Unit 14: Differential Equations | Ordinary differential equations: order, degree, formation, and solution methods; solutions of homogeneous and linear differential equations. |
Unit 15: Two-Dimensional Geometry | Cartesian coordinate system: distance formula, area of a triangle, collinearity, slope of a line; parallel and perpendicular lines, intercepts. |
Unit 16: The Straight Line and Pair of Straight Lines | Forms of line equations, intersection, angles between lines; conditions for concurrency; distance from a point to a line; internal and external bisectors, equations of families of lines. |
Unit 17: Circles and Family of Circles | Standard and general forms of circle equations, radius, and centre; parametric form, the intersection of lines and circles, tangents; family of circles through intersections, orthogonal circles. |
Unit 18: Conic Sections | Equations and properties of parabolas, ellipses, and hyperbolas; conditions for tangents and points of tangency. |
Unit 19: Vector Algebra | Vectors and scalars; addition, components in 2D and 3D; scalar and vector products, triple products; applications to plane geometry. |
Unit 20: Three-Dimensional Geometry | Distance between points, direction cosines, Cartesian and vector equations of lines and planes; coplanar and skew lines, shortest distance between lines; angles between lines, planes, and line-plane; distance of a point from a plane. |
AEEE 2025 Physics Syllabus
Unit | Syllabus |
Unit 1: Units and Dimensions | Units for measurement, system of units, SI units, fundamental and derived units, dimensions and their applications. |
Unit 2: Mechanics | Motion in a straight line; uniform and non-uniform motion; uniformly accelerated motion and its applications; Scalars and Vectors; resolution of vectors; scalar and vector products; uniform circular motion; projectile motion; Newton’s Laws of motion; conservation of linear momentum; laws of friction; work, energy, and power; kinetic and potential energy; conservation of energy; elastic collisions; center of mass; rotational motion and torque; angular momentum; moments of inertia; parallel and perpendicular axes theorem; moments of inertia for various bodies; gravitation; acceleration due to gravity; universal law of gravitation; planetary motion; Kepler’s laws; geostationary satellites; gravitational potential energy; escape velocity. |
Unit 3: Solids and Fluids | Solids: Elastic properties; Hooke’s law; Young’s modulus; bulk modulus; modulus of rigidity. Liquids: Cohesion and adhesion; surface tension; flow of fluids; Bernoulli’s theorem; viscosity; Stoke’s Law; terminal velocity. |
Unit 4: Oscillations and Waves | Periodic motion; simple harmonic motion (SHM) and its equation; oscillations of a spring and pendulum; wave motion; properties of waves; longitudinal and transverse waves; superposition of waves; progressive and standing waves; free and forced oscillations; resonance; vibration of strings and air columns; beats; Doppler effect. |
Unit 5: Heat and Thermodynamics | Thermal expansion of solids, liquids, and gases; specific heats; relationship between Cp and Cv for gases; first and second laws of thermodynamics; Carnot cycle; efficiency of heat engines; thermal conductivity; black body radiation; Kirchhoff’s law; Wein’s Law; Stefan’s law; Newton’s law of cooling. |
Unit 6: Electrostatics, Current Electricity, and Magnetostatics | Electrostatics: Coulomb’s law; dielectric constant; electric field; lines of force; field due to a dipole; electric flux; Gauss’s theorem; electric potential; conductors and insulators; capacitance; parallel plate capacitor; combination of capacitors; energy stored in a capacitor. Current Electricity: Cells; resistance; Ohm’s law; Kirchhoff’s Laws; series and parallel circuits; Wheatstone’s Bridge; potentiometer; heating effects of current; thermoelectricity; chemical effects of current; Faraday’s laws of electrolysis. Magnetostatics: Oersted’s experiment; Biot-Savart law; magnetic field due to a wire, loop, and solenoid; Lorentz force; forces on a current-carrying conductor; moving coil galvanometer; bar magnet; magnetic field lines; torque on a bar magnet; Earth’s magnetic field; para, dia, and ferromagnetism; magnetic induction; magnetic susceptibility. |
Unit 7: Electromagnetic Induction and Electromagnetic Waves | Induced e.m.f.; Faraday’s law; Lenz’s law; self and mutual inductance; alternating currents; impedance; reactance; power in AC circuits; resonant circuits; transformer; AC generator; electromagnetic waves; electromagnetic spectrum (gamma to radio waves). |
Unit 8: Ray and Wave Optics | Reflection and refraction of light; total internal reflection; optical fibre; deviation and dispersion of light by a prism; lens formula; magnification; resolving power; microscope; telescope; wave nature of light; interference; Young’s double slit experiment; thin films; Newton’s rings; diffraction; diffraction grating; polarization and applications. |
Unit 9: Modern Physics | Dual nature of radiation; De Broglie relation; photoelectric effect; alpha particle scattering experiment; atomic masses; size of the nucleus; radioactivity; alpha, beta, and gamma particles/rays; radioactive decay law; half-life and mean life of radioactive nuclei; nuclear binding energy; mass-energy relationship; nuclear fission and fusion; energy bands in solids; conductors, insulators, and semiconductors; pn junction; diode and rectifier; transistor action; transistor as an amplifier. |
AEEE 2025 Chemistry Syllabus
Unit | Syllabus |
Unit 1: Basic Concepts | Atomic and molecular masses; mole concept and molar mass; percentage composition; empirical and molecular formulas; chemical reactions; stoichiometry and calculations. |
Unit 2: Atomic Structure, Chemical Bonding, and Molecular Structure | Bohr’s model; de Broglie’s and Heisenberg’s principles; Quantum mechanical model; Orbital concept; Bond formation and parameters; Valence bond and molecular orbital theory; VSEPR theory; Hybridization; Hydrogen bonding. |
Unit 3: Equilibrium and Thermodynamics | Law of chemical equilibrium; Equilibrium Constant; Homogeneous and Heterogeneous equilibria; LeChatelier’s principle; Ionic equilibrium; Acids, Bases, Salts, Buffers; Solubility product; Thermodynamic state; Enthalpy, Entropy, and Gibbs free energy; Heats of reactions; Spontaneous and non-spontaneous processes. |
Unit 4: Electrochemistry, Kinetics, and Surface Chemistry | Conductance of electrolytes; Kohlrausch law; Electrochemical cells; Nernst equation; Batteries; Fuel cells; Corrosion; Rate of reactions; Factors affecting rate; Rate constant, order, and molecularity; Collision theory; Physisorption and chemisorption; Colloids and emulsions; Catalysis. |
Unit 5: Solid State and Solutions | Molecular, ionic, covalent, and metallic solids; Amorphous and crystalline solids; Crystal lattices; Unit cells; Packing efficiency; Electrical and magnetic properties; Solution concentration (Normality, Molarity, Molality); Vapour pressure of solutions; Colligative properties. |
Unit 6: Hydrogen | Position in the periodic table; Dihydrogen and hydrides; Preparation and properties; Water, hydrogen peroxide, heavy water; Hydrogen as fuel. |
Unit 7: S – Block Elements | Group 1 and 2 elements; General characteristics of compounds; Anomalous behaviour of the first element; Compounds like sodium and calcium carbonates, sodium chloride, sodium hydroxide; Biological importance of sodium, potassium, and calcium. |
Unit 8: P – Block Elements | Groups 13 to 17 elements: Electronic configuration; Occurrence; Oxidation states; Trends in physical and chemical properties; Compounds of boron (e.g., borax, boron hydrides); Allotropes of carbon; Compounds of nitrogen, phosphorus, oxygen, sulfur; Oxides and oxyacids of halogens. |
Unit 9: D, F – Block Elements | Transition metals: Electronic configuration; Characteristics; Ionization enthalpy; Ionic radii; Oxidation states; Magnetic properties; Interstitial compounds; Alloy formation; Lanthanides and actinoids; Their applications. |
Unit 10: Coordination Compounds | Werner’s theory; IUPAC nomenclature; Coordination number; Isomerism; Bonding in coordination compounds; Metal carbonyls; Stability; Applications in analytical methods, metal extraction, biological systems. |
Unit 11: Basic Organic Chemistry and Techniques | Tetravalence of carbon; Shapes of organic compounds; Electronic displacement in covalent bonds (inductive, electromeric effects); Resonance; Hyperconjugation; Cleavage of covalent bonds; Free radicals, carbocations, carbanions; Electrophiles and nucleophiles; Methods of purification; Qualitative and quantitative analysis. |
Unit 12: Hydrocarbons, Haloalkanes, and Haloarenes | Alkanes, alkenes, alkynes, aromatic hydrocarbons; IUPAC nomenclature; Isomerism; Confirmation of ethane; Geometric isomerism; Preparation and properties; Free radical mechanism of halogenations; Markownikoff’s addition; Benzene, resonance, and aromaticity; Substitution reactions; C-X bond in haloalkanes and haloarenes; Mechanism of substitution reactions. |
Unit 13: Alcohols, Phenols, and Ethers | IUPAC nomenclature; General methods of preparation; Physical and chemical properties; Identification of primary, secondary, tertiary alcohols; Mechanism of dehydration; Electrophilic substitution reactions. |
Unit 14: Aldehydes, Ketones, Carboxylic Acids, and Amines | Nomenclature; Preparation; Physical and chemical properties; Nucleophilic addition mechanism; Reactivity of alpha hydrogen in aldehydes; Mono and dicarboxylic acids; Preparation and reactions of diazonium salts; Importance in synthesis. |
Unit 15: Polymers and Biomolecules | Natural and synthetic polymers; Methods of polymerization; Copolymerization; Molecular weight of polymers; Commercially important polymers; Carbohydrates: mono, oligo, polysaccharides; Proteins: Alpha-amino acids, peptide linkage, polypeptides; Enzymes, vitamins; Nucleic acids (DNA and RNA). |
Unit 16: Environmental Chemistry | Air, water, and soil pollution; Chemical reactions in the atmosphere; Acid rain; Ozone depletion; Greenhouse effect; Global warming; Pollution control. |
Unit 17: Chemistry in Everyday Life | Drugs and their interactions; Chemicals as analgesics, tranquillizers, antiseptics, antibiotics, antacids, antihistamines; Chemicals in food: preservatives, artificial sweeteners; Cleansing agents: soaps, detergents. |
AEEE 2025 English Syllabus
Unit | Syllabus |
Articles | Understanding and usage of definite and indefinite articles. |
Synonyms | Identifying and using words with similar meanings. |
Antonyms | Identifying and using words with opposite meanings. |
Prepositions | Correct usage of prepositions in different contexts. |
Verbs | Verb forms, tenses, and their correct usage in sentences. |
Best Books for AEEE 2025 Syllabus
Choosing the right books is crucial for AEEE 2025 preparation. Begin by mastering the Class XI and XII textbooks, as they form the foundation of the syllabus. Supplement your study with reference books that align with the syllabus. Focus on resources that include objective-type questions for regular practice. It’s also important to create notes on key topics and keep a list of formulas. Regularly apply these formulas in practice questions to reinforce your understanding.
Here is a list of recommended books for AEEE preparation, organized by subject:
Subject | Book Title | Author/Publisher |
Physics | Objective Physics | Arihant Publications |
Concept of Physics Volume 1 & 2 | HC Verma | |
Fundamentals of Physics | Halliday, Resnick, and Walker | |
Problems in Physics | A.A. Pinsky | |
Chemistry | Organic Chemistry | O.P. Tandon |
Inorganic Chemistry | O.P. Tandon | |
NCERT Chemistry (Class 11 & 12) | NCERT | |
Organic Chemistry | Arihant Prakashan | |
Numerical Chemistry | P. Bahadur | |
Mathematics | Mathematics for Class 11 and 12 | R.D. Sharma |
Higher Algebra | Hall and Knight | |
NCERT Mathematics | NCERT | |
Complete Mathematics | McGraw Hills |
AEEE 2025 Exam Pattern
Amrita University has published the official AEEE 2025 exam pattern on its website. In addition to reviewing the AEEE syllabus for 2025, candidates should familiarize themselves with the exam pattern to grasp the section-wise weightage, marking scheme, and duration of the test. Refer to the AEEE 2025 exam pattern outlined below.
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- KL University | Admissions Open for All Courses 2024. Apply Now
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Particulars | Details |
Exam Mode | Computer-based test |
Exam Duration | 2 hours 30 minutes |
Type and Number of Questions | Multiple Choice Questions (MCQs) |
Physics | 30 questions |
Chemistry | 25 questions |
Mathematics | 40 questions |
English | 5 questions |
Total Number of Questions | 100 questions |
Total Marks | 300 |
Marking Scheme | 3 marks for each correct answer, 1 mark deducted for each incorrect response |
AEEE Sample Paper 2025
Practising with AEEE sample papers and solutions is beneficial for enhancing time management, accuracy, speed, and efficiency. These sample papers, based on the AEEE 2025 exam pattern and syllabus, serve as model question papers. They offer valuable insight into the exam format and help candidates assess their current preparation levels. By working through these papers, candidates can identify and focus on weaker areas of the syllabus.
AEEE 2025 Sample Papers PDF
Years | Download Pdf |
2019 | Download Sample Paper PDF |
2018 | Download Sample Paper PDF |
2017 | Download Sample Paper PDF |
2016 | Download Sample Paper PDF |
2015 | Download Sample Paper PDF |
2014 | Download Sample Paper PDF |
AEEE 2025 Sample Paper and Syllabus – Importance
- Understanding the Syllabus and Exam Pattern: Familiarity with the syllabus and AEEE question paper pattern helps candidates know the essential topics and units to focus on for the entrance exam.
- Concept Clarity: Working with AEEE 2025 sample papers aids in gaining a clear understanding of the concepts and topics.
- Familiarity with Exam Format: Sample papers provide insight into the exam pattern and process, helping candidates become accustomed to the format before the actual test.
- Identifying Strengths and Weaknesses: Solving sample papers helps students pinpoint their strong and weak areas. Reviewing mistakes in previous years’ papers allows for a better assessment of preparation levels.
- Improving Time Management: Practicing with model papers within the given time frame enhances candidates’ ability to manage their time effectively during the exam.
AEEE Exam Related Quick links
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AEEE Syllabus 2025 FAQs
What is AEEE?
AEEE (Amrita Entrance Examination – Engineering) is an entrance test conducted by Amrita Vishwa Vidyapeetham for admission to its B.Tech programs across its campuses.
What is the exam mode for AEEE 2025?
AEEE 2025 will be conducted as a computer-based test.
How many questions are there in AEEE 2025?
The AEEE 2025 exam will consist of 100 multiple-choice questions (MCQs).
What is the duration of the AEEE 2025 exam?
The duration of the AEEE 2025 exam is 2 hours and 30 minutes.
What subjects are covered in AEEE 2025?
The AEEE 2025 exam will cover four subjects: Physics, Chemistry, Mathematics, and English.
How is the AEEE 2025 exam scored?
For each correct answer, 3 marks will be awarded. For each incorrect answer, 1 mark will be deducted.
What are the total marks for the AEEE 2025 exam?
The total marks for the AEEE 2025 exam are 300.
How can I improve my preparation for AEEE 2025?
To improve preparation, study the syllabus thoroughly, solve sample papers and previous years’ question papers, and focus on time management and accuracy.
Where can I find AEEE 2025 sample papers?
Sample papers for AEEE 2025 can be found on the official Amrita University website or in preparation books and online resources designed for AEEE.
What are the key topics to focus on for AEEE 2025?
Key topics include concepts from Physics, Chemistry, Mathematics, and English as outlined in the AEEE syllabus. Focus on understanding fundamental principles, solving problems, and practising sample questions.
If you have any queries regarding AEEE 2025 Syllabus, you can ask your query and leave comments below.
As a dedicated Biology Science graduate, I’m passionate about sharing the latest updates in national and state entrance exams through my blog. I aim to keep aspiring students informed about exam trends, important dates, and changes in syllabi. With a keen interest in education, I strive to offer valuable insights for students navigating the competitive landscape of entrance examinations and admission tests. Stay updated with me.