SRMJEEE Chapter Wise Weightage 2026 for Physics, Chemistry, Maths

SRMJEEE 2026 - The Ultimate Chapter-Wise Weightage Strategy

SRMJEEE Chapter-Wise Weightage 2026 Physics

Physics in SRMJEEE is intended to test the basic as well as advanced knowledge of the candidates. It ranges from approximately 35 questions to Below is a breakdown of important topics covered in the SRMJEEE 2026 syllabus:

Unit-wise Topics:

• Units and Measurement: Systems of units, significant figures, dimensional analysis

• Laws of Motion: Newton's laws, projectile motion, friction

• Gravitation: Universal law of gravitation, escape velocity, geostationary satellites

• Electrostatics: Coulomb's law, electric field, potential energy, capacitors

• Current Electricity: Ohm's law, Kirchhoff's laws, potentiometer

• Magnetism: Earth’s magnetic field, Biot-Savart’s law, Ampere’s law

• Optics: Reflection, refraction, lenses, interference, diffraction

• Dual Nature of Matter: Photoelectric effect, de Broglie relation

• Atomic and Nuclear Physics: Rutherford's model, Bohr model, nuclear fission and fusion

• Electronic Devices: Semiconductors, PN junctions, transistors, logic gates

SRMJEEE Topic-Wise Weightage for Physics

SRMJEEE Chapter-Wise Weightage 2026 Chemistry

Chemistry in SRMJEEE consists of approximately 35 questions, which are divided into three major branches; this typology of chemistry includes Physical, Organic, and Inorganic Chemistry. Although the format of the questions is similar in all sections, each of those sections has to be studied thoroughly since most of the questions provide the theoretical concept and its practical use in one question.

Unit-wise Topics:

• Solutions: Concentration, colligative properties, Raoult's law

• Electrochemistry: Redox reactions, galvanic cells, Nernst equation

• Chemical Kinetics: Rate of reaction, collision theory, Arrhenius equation

• Surface Chemistry: Adsorption, colloidal state, Tyndall effect

• p-Block Elements: Group 16-18 elements, compounds, and oxides

• d- and f-Block Elements: Transition metals, oxidation states, catalytic properties

• Coordination Compounds: Ligands, coordination number, isomerism, bonding theories

• Organic Chemistry Basics: Nomenclature, preparation, reactions of hydrocarbons

• Biomolecules: Carbohydrates, proteins, DNA/RNA

SRMJEEE Topic-Wise Weightage for Chemistry

SRMJEEE Chapter-Wise Weightage 2026 Math

Mathematics in SRMJEEE has a total of 40 questions, based on the prerequisite and advanced knowledge necessary for engineering courses. This element estimates logical thinking, problem-solving skills, and the use of mathematics in solving problems.

Unit-wise Topics:

• Sets, Relations, and Functions: Union, intersection, mappings

• Complex Numbers: Algebra of complex numbers, polar representation

• Matrices and Determinants: Types of matrices, inverse, applications in linear equations

• Permutations and Combinations: Counting principles, applications in probability

• Calculus: Limits, continuity, differentiation, integration

• Analytical Geometry: Lines, circles, conic sections in two dimensions

• Vector Algebra: Vectors, scalar, and vector products

• Probability: Bayes’ theorem, probability distributions

• Trigonometry: Identities, solutions of triangles, heights, and distances

SRMJEEE Topic-Wise Weightage for Maths

SRMJEEE 2026 Preparation Tips

1. Master the syllabus and exam pattern: Try to conduct a detailed review of the SRMJEEE syllabus and exam pattern. It is needed to identify the topics within Physics, Chemistry, and Mathematics/Biology that carry the highest weightage. This enables you to allocate your study time efficiently; prioritizing areas of low weightage will impact your performance.

2. Focus on conceptual understanding: Conceptual clarity should be your main goal in the early stages of preparation. Do not just depend completely on memorization of formulas; focus on understanding the fundamental principles behind each topic. Start with NCERT textbooks to achieve a strong foundation, then go for advanced reference materials and application-based exercises to deepen your knowledge and problem-solving skills.

3. Build a consistent daily study routine: Establishing a consistent daily study routine is important. Divide specific study hours for each subject, and try to stick to this schedule. Divide your time between learning theoretical concepts, practicing problems, and trying self-assessment properly. Daily study sessions are usually more effective.

4. Mock tests and previous exam papers: Practice day after day with the help of SRMJEEE mock tests and past exam papers, a golden opportunity wasted to further sharpen knowledge. By practicing under exam-like conditions, you will learn how to get used to the exam conditions. After each mock test you take, you should also reflect on how you did, what you could have improved on, and ensure you reflect on possible changes or adjustments to your study methods, respectively. It is important to repeat this mechanism to help condition you for the actual exam and your confidence levels.

5. Revise prior to the exam: In the last month before the exam, completely focus on detailed revision; don’t go for covering new topics. Go for chapters with high weightage, study formula-based and repetitive questions, and create detailed revision notes for last-minute review. Smart revision will help you improve your performance in the examination.