Top 10 Most Repeated Topics to Study for SRMJEEE 2026

The 10 topics you must study for SRMJEEE 2026 are Electrostatics , Current Electricity , Magnetic Effects of Current , Calculus , Coordinate Geometry , Probability and Statistics , Matrices and Determinants , Organic Chemistry Reaction Mechanisms , Chemical Bonding and Molecular Structure , and Electrochemistry and Chemical Kinetics . SRMJEEE Phase 1 is scheduled from Apr 23-28, 2026 .

These chapters have appeared with the highest consistency across SRMJEEE papers from 2021 to 2025, drawn from all three core sections. The paper carries 130 questions across Physics, Chemistry, and Mathematics with no negative marking, which means every question should be attempted and every mark from high-frequency topics counts twice over. Students who anchor their SRMJEEE preparation on these ten chapters and back it with previous year paper practice are in a significantly stronger position than those spreading effort uniformly across the entire SRMJEEE 2026 syllabus .

Also Check - Does Appearing in SRMJEEE Phase 1 Give You an Edge with Early Ranks & Scholarships?

SRMJEEE 2026: 10 Topics That Appear Every Year Without Fail

Across the last five SRMJEEE exam cycles, the same ten topics have appeared in the paper with near-total consistency and together, these chapters account for a majority of the 110 marks available across the three core sections.

1. Electrostatics (Physics)

Electrostatics is the single most consistently tested Physics topic in SRMJEEE. Coulomb's law, electric field and potential, capacitors, and energy stored in a capacitor come up almost every year in some form. Questions are typically formula-based and direct, which makes this one of the most mark-efficient topics to prepare. Two to three questions from this chapter alone are a reasonable expectation in most years.

Questions You Can Expect

Q1: Calculate the net force or electric field at a point due to a system of point charges arranged in a geometric shape (like a triangle or square).

Q2. Determining the work done in moving a charge between two points in a uniform electric field.

2. Current Electricity (Physics)

Ohm's law, Kirchhoff's laws, Wheatstone bridge, and potentiometer problems appear regularly. The questions are usually numerical and test whether a candidate can apply circuit analysis principles cleanly. This pairs well with Electrostatics, preparation in one reinforces the other.

Questions You Can Expect

Q1: Applying Kirchhoff’s Voltage Law (KVL) to find the current flowing through a specific branch in a multi-loop circuit.

Q2. Problems involving the "null point" in a Meter Bridge or Potentiometer to find an unknown resistance or EMF.

3. Magnetic Effects of Current (Physics)

The force on a current-carrying conductor, magnetic field due to a solenoid, and the Biot-Savart law are recurring themes. Combined with Electromagnetic Induction, which often appears alongside it in the paper, this unit accounts for a meaningful chunk of the Physics section year after year.

Questions You Can Expect

Q1: Calculating the magnetic field (B) at the center of a circular current-carrying loop or at a distance from a long straight wire.

Q2. Determining the force on a charge moving with velocity 'v' entering a uniform magnetic field (Lorentz Force) or the radius of its circular path.

4. Calculus: Differentiation and Integration (Mathematics)

Calculus is the highest-weightage topic in the Mathematics section and the one that most reliably separates strong scorers from average ones. Differentiation, integration, limits and continuity, and applications of derivatives are all tested. Given that Mathematics carries 40 marks, the heaviest single section in the paper, Calculus alone can account for 8 to 10 questions across a typical SRMJEEE paper.

Questions You Can Expect

Q1: Finding the derivative of a composite function using the Chain Rule or logarithmic differentiation.

Q2. Finding the equation of a tangent or normal to a curve at a given point using application of derivatives.

5. Coordinate Geometry (Mathematics)

Straight lines, circles, conic sections, parabola, ellipse, and hyperbola are tested every year without exception. Questions range from finding equations of tangents and normals to intersection problems. This is a high-confidence topic for most Class 12 students and one where complete preparation is realistically achievable within a few weeks.

Questions You Can Expect

Q1: Finding the length of the tangent from an external point to a circle or the condition for a line to be a tangent.

Q2. Determining the eccentricity or the length of the latus rectum for a given equation of an ellipse or hyperbola.

Also Check - What is a Good Score & Rank in SRMJEEE 2026?

6. Probability and Statistics (Mathematics)

Probability through Bayes' theorem, probability distributions, and basic statistics questions appear consistently. The questions are usually of moderate difficulty and reward candidates who have practised standard problem types rather than those who understand only the theory. Permutations and Combinations questions frequently appear alongside probability problems, so preparing both together makes sense.

Questions You Can Expect

Q1: Finding conditional probability using Bayes' Theorem.

Q2. Calculating Mean, Variance, or Standard Deviation for a discrete frequency distribution.

7. Algebra: Matrices and Determinants (Mathematics)

Matrix operations, inverse of a matrix, and solving systems of linear equations using determinants are tested every year. This is a structured topic where all question types are predictable, and complete preparation is possible without spending disproportionate time on it.

Questions You Can Expect

Q1: Solving a system of linear equations using Cramer’s Rule or finding the value of a variable for which the system has "no solution."

Q2. Finding the inverse of a 2 X 2 or 3 X 3 matrix or using properties of determinants.

8. Organic Chemistry: Reaction Mechanisms (Chemistry)

General organic chemistry, reaction mechanisms, and named reactions form the backbone of the Chemistry section's organic component. Students who understand the logic behind reactions like nucleophilic substitution, elimination, addition, etc rather than memorising individual reactions as isolated facts consistently do better here. This topic rewards understanding over rote preparation.

Questions You Can Expect

Q1: Identifying the major product in an S _N 1 or S _N 2 reaction, specifically focusing on carbocation stability and inversion of configuration.

Q2. Predicting the product for Reimer-Tiemann, Aldol Condensation, or Cannizzaro reactions.

9. Chemical Bonding and Molecular Structure (Chemistry)

VSEPR theory, hybridisation, bond polarity, and molecular orbital theory are tested across most SRMJEEE papers. This is a theory-heavy chapter that benefits from visual learning, drawing out structures and orbital diagrams is more effective than reading through notes. Paired with Periodic Properties, which also appears regularly, this forms the conceptual foundation of the Inorganic Chemistry section.

Questions You Can Expect

Q1: Predicting the shape and hybridization (sp ³ d, sp ³ d ² ) of molecules like SF ₆ , PCl ₅ , or XeF ₄ using VSEPR theory.

Q2. Comparing bond angles or bond lengths in molecules like NH ₃ , H ₂ O, and CH ₄ .

10. Electrochemistry and Chemical Kinetics (Chemistry)

Faraday's laws of electrolysis, cell potential and EMF, Nernst equation, rate laws, and the Arrhenius equation all appear with notable frequency. These are calculation-heavy chapters where formula fluency matters. Both topics are Class 12 staples that most candidates have already covered in board preparation and what SRMJEEE demands is sharper numerical application rather than deeper theory.

Questions You Can Expect

Q1: Calculating the half-life or the rate constant (k) for a first-order reaction given initial and final concentrations.

Q2. Determining the quantity of a substance deposited at an electrode using Faraday's first law (w = ZIt).

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SRMJEEE Top 10 Important Topics Subject-Wise Priority

The ten topics listed above do not carry equal weight in the paper. Some appear in a 40-mark section with no negative marking where every correctly answered question has an outsized impact on rank while others appear in sections where the question style is more formula-dependent and rewards faster recall over deeper understanding.

Before building a revision schedule, it helps to see which subject deserves the most preparation time and why, and the table below gives that picture clearly.

How to Approach These Topics in the Final Weeks

A few practical notes on using this list effectively:

• Solve at least three to four previous year SRMJEEE papers: The paper's style becomes very familiar after two or three full practice sessions, which reduces time pressure on exam day significantly

• Focus on Mathematics: With 40 marks on offer and no negative marking, a candidate who is strong in Calculus and Coordinate Geometry alone is already at a meaningful scoring advantage

• Do not ignore English and Aptitude: Twenty marks from passage comprehension and basic reasoning questions is essentially free scoring for a well-prepared candidate; these twenty marks can separate candidates with similar subject scores

• Chemistry revision should prioritise Organic over Inorganic: Reaction mechanisms reward understanding in a way that pays off across multiple question types, while Inorganic is largely fact-based and best handled through focused short revision in the final two weeks

The SRMJEEE important ten topics listed above have been consistent across multiple exam cycles and collectively cover the majority of marks available in Physics, Chemistry, and Mathematics. Students who build a preparation plan anchored on these chapters, backed by SRMJEEE previous year question papers practice and full-length SRMJEEE 2026 mock test attempts are in a significantly stronger position than those spreading effort equally across everything. The exam is achievable only when the strategy matters more than the hours.

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