For those students who are dreaming of becoming an engineer in India, the JEE Exam is their first step and one of the toughest entrance examinations in the world. The JEE Exam is not just a test but it is a door for many engineering students to enter into top engineering colleges. The JEE i.e, Joint Entrance Examination is conducted by NTA (National Testing Agency) and is the primary door for admission into some of India’s most prestigious engineering institutes such as IITs, NITs as well as IIITs.
The JEE Full Form is Joint Entrance Examination and this exam has two sections, first one is JEE Main Exam and another one is JEE Advanced exam. JEE Main exam is still a qualifying exam for many premiere institutes like IIITs and NITs as this exam also acts as an eligibility criteria for JEE Advanced exam which is the second phase of the JEE exam. And the JEE Advanced exam is the main eligibility to secure the dream seat of IITs for many engineering aspirants. Due to the high difficulty level of the JEE Exam, exam syllabus as well as strict eligibility criteria, JEE exam demands proper preparation with strategy, and continues to be best for problem solving skills as well as the right exam preparation strategy.
In this blog we will be talking about everything that you need to know about the JEE exam, JEE full form, Types of JEE Exam (JEE Main Exam vs JEE Advanced Exam), JEE exam pattern, syllabus, preparation strategy, important dates and career opportunities after JEE exam. So, whether you are a beginner or just starting your JEE exam preparation or a dropper who are aiming to improve your rank, this guide will definitely help you to cover detailed information about this exam.
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What is JEE Exam?
The JEE Exam is a national-level competitive entrance exam conducted in India for those students who are aspiring to pursue their undergraduate engineering program from a top engineering college. This exam is well conducted by the authority NTA (National Testing Agency) and is one of the challenging and toughest examinations due to its wide syllabus and competitive nature.
Well, the JEE Exam itself is covered in two phases : JEE Main Exam and JEE Advanced Exam. The JEE Main Exam is the first phase and is required for admission into top engineering institutes like NITs, GFTIs as well as IIITs and also works as an eligibility criteria to sit for a JEE Advanced exam. And the JEE Advanced Exam is the second stage that is an extremely difficult stage for the students who are dreaming of taking admission and want to secure a seat in top engineering institutes and these are IITs (Indian Institutes of Technology), a dream or first priority of engineering aspirants.
Every year there are more than 12 lakhs (approx,) students who register for the dream exam that is JEE Exam but only a small percentage of students are able to manage their qualification part and be able to qualify for the JEE Advanced exam and will secure seats in IITs. This exam well tests students on core subjects like Mathematics, Physics and Chemistry at an advanced level which is very important for problem solving skills, and the right JEE preparation strategy.
JEE Exam Overview 2026
| Particulars | Details |
| Exam Name | Joint Entrance Examination (JEE) |
| JEE Full Form | Joint Entrance Examination |
| Conducting Body | National Testing Agency (NTA) |
| Exam Levels | JEE Main and JEE Advanced |
| Purpose of Exam | Admission into IITs, NITs, IIITs, and other top engineering institutes |
| Mode of Exam | Computer-Based Test (CBT) |
| Subjects Covered | Physics, Chemistry, Mathematics (PCM) |
| Frequency | JEE Main – Twice a year; JEE Advanced – Once a year |
| Courses Offered | B.E., B.Tech, B.Arch, B.Planning |
| Eligibility | Class 12 (PCM) students meeting age and attempt criteria |
JEE Full Form: What Does JEE Stands For?
The full form of the JEE Exam is Joint Entrance Examination and is a dream for lakhs of engineering aspirants but very few aspirants are able to make it to the top institutes and especially talking about the top 8 older IITs in their favourite branches that is Computer Science and Engineering. This exam is well organized by the National Testing Agency (NTA). The JEE Exam is for those who want to pursue their dream engineering degrees like B.Arch, B.Tech, B.E., as well as B.Planning courses. There are two sections of the JEE exam and those are JEE Advanced exam and JEE Main exam. JEE Main is accepted by engineering institutions like NITs, GFTIs and IIITs.
JEE 2026: JEE Exam Highlights
Here is a table mentioned below that covers the overview and clear details about the JEE Exam information that covers JEE Full Form, conducting body, mode of JEE exam, what all are the subjects included, participating institutes and many more.
| Features | Details |
| Exam Full Form | Joint Entrance Examination (JEE) |
| Conducted By | National Testing Agency (NTA) |
| Exam Stages | JEE Main (Stage 1) and JEE Advanced (Stage 2) |
| Purpose of Exam | Admission into IITs, NITs, IIITs, and other top engineering institutes |
| Mode of Exam | Online, Computer Based Test (CBT) |
| Exam Frequency | JEE Main – Twice a year (Jan & Apr) JEE Advanced – Once a year |
| Subjects Tested | Physics Chemistry Mathematics |
| Difficulty Level | JEE Main – Moderate JEE Advanced – Very High |
| Eligibility | Class 12 PCM students (with specific age and attempt limits) |
| Number of Attempts | JEE Main – 6 attempts (across 3 years) JEE Advanced – 2 attempts |
| Participating Institutes | IITs, NITs, IIITs, GFTIs (100+ institutes across India) |
| Courses Offered | B.E., B.Tech, B.Arch, B.Planning |
| Official Website | https://jeemain.nta.ac.in |
Types of JEE Exam (JEE Main vs JEE Advanced)
The JEE Exam is conducted in two phases that are JEE Main Exam and JEE Advanced Exam. Both exams are connected with each other because without clearing JEE Main exam you are not eligible to sit for the JEE Advanced exam. So, JEE Main exam is the first phase and with the help of this you will enter into engineering institutes like NITs, IIITs as well as GFTIs after clearing and the second phase is the JEE Advanced exam as JEE Main itself is a qualifying stage for JEE Advanced.
The table mentioned below shows the difference between the JEE Main exam and JEE Advanced exam along with their difficulty levels, number of attempts, eligibility criteria, along with the institutes that open doors to which we have highlighted properly below.
| Aspects | JEE Main Exam | JEE Advanced Exam |
| Conducting Body | National Testing Agency (NTA) | One of the IITs (on a rotational basis) |
| Purpose | Admission to NITs, IIITs, GFTIs + Eligibility test for JEE Advanced | Admission to Indian Institutes of Technology (IITs) |
| Eligibility | Class 12 with Physics, Chemistry, Mathematics (PCM) | Top 2.5 lakh rankers from JEE Main |
| Number of Attempts | 2 times a year, maximum 6 attempts in 3 consecutive years | 2 attempts in 2 consecutive years |
| Mode of Exam | Computer-Based Test (CBT) | Computer-Based Test (CBT) |
| Papers | Paper 1 (B.E./B.Tech), Paper 2A (B.Arch), Paper 2B (B.Planning) | 2 compulsory papers (Paper 1 & Paper 2) |
| Difficulty Level | Moderate to High | Very High (tougher than JEE Main) |
| Exam Frequency | Twice a year (January & April sessions) | Once a year |
| Accepted By | NITs, IIITs, GFTIs, and other participating institutes | IITs (Indian Institutes of Technology) |
JEE Exam Pattern and JEE Marking Scheme
The JEE marking scheme and the JEE exam pattern is very important for aspirants to understand before starting their JEE exam preparation. While JEE Main majorly focuses on objective-type questions from major core subjects like Chemistry, Mathematics as well as Physics. JEE Advanced exam is considered as difficult in comparison to the JEE Main exam and covers question types such as multiple correct, single correct and numerical value based problems. The difficulty level of the JEE Advanced exam is completely varying based on the question type. It is important for engineering aspirants to stay updated with the latest exam pattern.
JEE Exam Pattern 2026 & JEE Marking Scheme
| Particulars | Details |
| Mode of Exam | Computer-Based Test (CBT) |
| Papers | Paper 1: B.E./B.Tech Paper 2A: B.Arch Paper 2B: B.Planning |
| Duration | 3 Hours (180 Minutes) |
| Subjects Covered | Physics, Chemistry, Mathematics |
| Total Questions | 90 (30 each in PCM; attempt 75) |
| Total Marks | 300 |
| JEE Marking Scheme | +4 for each correct answer -1 for each wrong answer 0 for Unattempted questions |
JEE Main Exam Syllabus Detailed Overview
In this we are covering detailed syllabus of JEE Main 2026 for paper 1 that is for B.E / B.Tech engineering programs.
JEE Main Paper 1- Syllabus ( B.E./B.Tech)
Mathematics
| Unit No. | Topics |
| 1 | Sets, Relations and Functions |
| 2 | Complex Numbers, Quadratic Equations |
| 3 | Matrices and Determinants |
| 4 | Permutations and Combinations |
| 5 | Binomial Theorem and Its Simple Applications |
| 6 | Sequence and Series |
| 7 | Limit and Continuity, Differentiability |
| 8 | Integral Calculus |
| 9 | Differential Equations |
| 10 | Coordinate Geometry |
| 11 | Three-Dimensional Geometry |
| 12 | Vector Algebra |
| 13 | Statistics and Probability |
| 14 | Trigonometry |
Physics
| Unit No. | Topics |
| 1 | Units and Measurement |
| 2 | Kinematics |
| 3 | Laws of Motion |
| 4 | Work, Energy, and Power |
| 5 | Rotational Motion |
| 6 | Gravitation |
| 7 | Properties of Solids and Liquids |
| 8 | Thermodynamics |
| 9 | Kinetic Theory of Gases |
| 10 | Oscillations and Waves |
| 11 | Electrostatics |
| 12 | Current Electricity |
| 13 | Magnetic Effects of Current and Magnetism |
| 14 | Electromagnetic Induction and Alternating Currents |
| 15 | Electromagnetic Waves |
| 16 | Optics, Wave Optics |
| 17 | Dual Nature of Matter and Radiation |
| 18 | Atoms and Nuclei |
| 19 | Electronic Devices |
| S. No. | Experiment |
| 1 | Vernier Caliper – Measure internal, external diameter and depth of a vessel. |
| 2 | Screw Gauge – Determine thickness/diameter of thin sheet/wire. |
| 3 | Simple Pendulum – Study dissipation of energy by plotting amplitude² vs time graph. |
| 4 | Metre Scale – Find the mass of a given object using the principle of moments. |
| 5 | Determine Young’s modulus of a metallic wire. |
| 6 | Measure surface tension of water by capillary rise and observe the effect of detergents. |
| 7 | Determine coefficient of viscosity of a liquid using terminal velocity of a spherical body. |
| 8 | Find speed of sound in air at room temperature using a resonance tube. |
| 9 | Calculate specific heat capacity of a (i) solid and (ii) liquid using method of mixtures. |
| 10 | Find resistivity of a wire material using a metre bridge. |
| 11 | Determine resistance of a wire using Ohm’s Law. |
| 12 | Measure resistance and figure of merit of a galvanometer by half deflection method. |
| 13 | Find focal length of: (i) Convex mirror, (ii) Concave mirror, and (iii) Convex lens by parallax. |
| 14 | Plot angle of deviation vs angle of incidence for a triangular prism. |
| 15 | Determine refractive index of a glass slab using a travelling microscope. |
| 16 | Study characteristic curves of a p-n junction diode in forward and reverse bias. |
| 17 | Study characteristic curves of a Zener diode and find reverse breakdown voltage. |
| 18 | Identify diode, LED, resistor, capacitor from a mixed collection of components. |
Chemistry
| Unit | Branch | Topic |
| 1 | Physical Chemistry | Some Basic Concepts in Chemistry |
| 2 | Physical Chemistry | Atomic Structure |
| 3 | Physical Chemistry | Chemical Bonding and Molecular Structure |
| 4 | Physical Chemistry | Chemical Thermodynamics |
| 5 | Physical Chemistry | Solutions |
| 6 | Physical Chemistry | Equilibrium |
| 7 | Physical Chemistry | Redox Reactions and Electrochemistry |
| 8 | Physical Chemistry | Chemical Kinetics |
| 9 | Inorganic Chemistry | Classification of Elements and Periodicity in Properties (Periodic Table) |
| 10 | Inorganic Chemistry | p-block Elements |
| 11 | Inorganic Chemistry | d-block and f-block Elements |
| 12 | Inorganic Chemistry | Coordination Compounds |
| 13 | Organic Chemistry | Purification and Characterisation of Organic Compounds |
| 14 | Organic Chemistry | Some Basic Principles of Organic Chemistry |
| 15 | Organic Chemistry | Hydrocarbons |
| 16 | Organic Chemistry | Organic Compounds Containing Halogens |
| 17 | Organic Chemistry | Organic Compounds Containing Oxygen |
| 18 | Organic Chemistry | Organic Compounds Containing Nitrogen |
| 19 | Organic Chemistry | Biomolecules |
| S. No. | Topic | Details |
| 20 (i) | Detection of Extra Elements | Identification of nitrogen, sulphur, and halogens in organic compounds. |
| 20 (ii) | Functional Group Detection | Detection of hydroxyl (alcoholic and phenolic), carbonyl (aldehyde and ketone), carboxyl, and amino groups in organic compounds. |
| 20 (iii) | Chemistry of Compound Preparation | – Inorganic Compounds: Mohr’s salt, potash alum- Organic Compounds: Acetanilide, p-nitro acetanilide, aniline yellow, iodoform |
| 20 (iv) | Titrimetric Chemistry | Chemistry involved in acid-base titrations using indicators, titrations like oxalic acid vs KMnO₄, and Mohr’s salt vs KMnO₄. |
| 20 (v) | Qualitative Salt Analysis | Chemical principles in detecting:- Cations: Pb²⁺, Cu²⁺, Al³⁺, Fe³⁺, Zn²⁺, Ni²⁺, Ca²⁺, Ba²⁺, Mg²⁺, NH₄⁺- Anions: CO₃²⁻, S²⁻, SO₄²⁻, NO₃⁻, NO₂⁻, Cl⁻, Br⁻, I⁻ |
| 20 (vi) | Chemistry of Experiments | – Enthalpy of solution of CuSO₄- Enthalpy of neutralization (strong acid & base)- Preparation of lyophilic & lyophobic sols- Kinetic study of iodide + H₂O₂ |
Also Read: JEE Main Syllabus Detailed Information
JEE Advanced Syllabus 2026 Section-Wise
In this section we are covering JEE Advanced syllabus section-wise that are Physics, Chemistry and Mathematics.
Physics
| Unit | Topics Covered |
| General | Dimensions and units, significant figures, error analysis. Experiments: Vernier calipers, screw gauge, simple pendulum (g), Searle’s method (Young’s modulus), calorimeter (specific heat), u-v method for focal length (mirrors/lenses), resonance column (sound speed), Ohm’s law verification, meter bridge/post office box (resistance). |
| Mechanics | Kinematics (1D & 2D), projectiles, circular motion, relative velocity. Newton’s laws, frames of reference, friction. Work, energy, power, conservation laws. Centre of mass, impulse, collisions. Gravitation laws, satellite motion, escape velocity. Rigid body motion, torque, angular momentum, rotational dynamics, SHM. Hooke’s law, Young’s modulus. |
| Fluids | Pressure, Pascal’s law, buoyancy. Surface tension, capillarity. Viscosity (excluding Poiseuille’s law), Stoke’s law, terminal velocity, continuity equation, Bernoulli’s theorem. |
| Waves | Longitudinal & transverse waves, superposition, stationary waves, beats, resonance in strings & air columns, Doppler effect (sound only), sound speed in gases. |
| Thermal Physics | Expansion (solids, liquids, gases), calorimetry, latent heat. Heat transfer: conduction, convection, radiation. Newton’s cooling. Ideal gases, specific heats (mono & diatomic), thermodynamic processes (isothermal, adiabatic), 1st law of thermodynamics. Blackbody radiation, Stefan’s law, Wien’s law, Kirchhoff’s law. |
| Electricity | Electrostatics: Coulomb’s law, fields, potentials, dipoles, Gauss’s law (applications). Capacitors: types, series/parallel, energy. DC circuits: Ohm’s law, resistors/cells in series/parallel, Kirchhoff’s laws, heating effects. |
| Magnetism | Biot–Savart, Ampere’s law, magnetic fields (wire, coil, solenoid), forces on charges/wires, torque on loops, galvanometers, ammeters, voltmeters. Electromagnetic induction: Faraday’s and Lenz’s laws, inductance, RC/LR/LC circuits (AC/DC). |
| Optics | Ray optics: reflection/refraction (plane/spherical), TIR, prisms, lenses, mirror-lens combinations, magnification. Wave optics: interference (Young’s double-slit), Huygens’ principle. |
| Modern Physics | Nucleus: radiation types, decay laws, half-life, binding energy, nuclear fission/fusion. Quantum physics: photoelectric effect, Bohr’s model, X-rays (characteristic/continuous), Moseley’s law, de Broglie waves. |
Chemistry
| Chapters (Physical Chemistry) | Topics Covered |
| General Topics | Atoms and molecules, Dalton’s atomic theory, mole concept, chemical formulae, balanced equations, mole-based calculations for redox, neutralisation, displacement reactions, concentration: mole fraction, molarity, molality, normality. |
| Gaseous & Liquid States | Ideal gas equation, deviation from ideality, van der Waals equation, kinetic theory, velocity types, partial pressure, vapor pressure, gas diffusion. |
| Atomic Structure & Bonding | Bohr model, hydrogen spectrum, quantum numbers, wave-particle duality, uncertainty principle, atomic orbitals (s, p, d), electronic configuration (up to Z=36), bonding theories, VSEPR theory, hybridisation, polarity, hydrogen bonding. |
| Energetics | First and second law of thermodynamics, internal energy, work, heat, enthalpy, Hess’s law, entropy, free energy, spontaneity conditions. |
| Chemical Equilibrium | Law of mass action, equilibrium constant, Le Chatelier’s principle, ΔG and ΔG⁰ significance, solubility product, pH, buffer solutions, acid-base theories, salt hydrolysis. |
| Electrochemistry | Electrochemical cells, Nernst equation, emf, standard electrode potentials, Faraday’s laws, electrolytic conductance, conductivity types, Kohlrausch’s law, concentration cells. |
| Chemical Kinetics | Reaction rates, order, rate constant, first order reactions, Arrhenius equation and temperature dependence. |
| Solid State | Types of solids, crystal systems (parameters: a, b, c, α, β, γ), cubic packing (fcc, bcc, hcp), ionic radii, point defects. |
| Solutions | Raoult’s law, colligative properties, molecular weight determination through boiling point elevation, freezing point depression, vapor pressure lowering. |
| Surface Chemistry | Basics of adsorption (excluding isotherms), colloids and types, preparation, properties, emulsions, micelles, surfactants (definitions/examples only). |
| Nuclear Chemistry | Radioactivity: isotopes, isobars, alpha, beta, gamma radiation, decay kinetics (excluding decay series), carbon dating, nuclear stability, basics of fission and fusion. |
| Topic (Inorganic Chemistry) | Details Covered |
| Non-metals: Isolation & Properties | Boron, silicon, nitrogen, phosphorus, oxygen, sulphur, halogens; Allotropes of carbon (diamond, graphite), phosphorus, sulphur. |
| Compounds of s- and p-Block Elements | – Alkali & Alkaline Earth Metals: Oxides, peroxides, hydroxides, carbonates, bicarbonates, chlorides, sulphates of Na, K, Mg, Ca.- Boron: Diborane, boric acid, borax.- Aluminium: Alumina, aluminium chloride, alums.- Carbon: Oxides, carbonic acid.- Silicon: Silicones, silicates, silicon carbide.- Nitrogen: Oxides, oxyacids, ammonia.- Phosphorus: Oxides, phosphorus acid, phosphoric acid, phosphine.- Oxygen: Ozone, hydrogen peroxide.- Sulphur: H₂S, oxides, sulphurous acid, sulphuric acid, sodium thiosulphate.- Halogens: Hydrohalic acids, oxides/oxyacids of chlorine, bleaching powder.- Xenon: Xenon fluorides. |
| Transition Elements (3d series) | Definition, general characteristics, oxidation states and stability, colour (without electronic transition details), spin-only magnetic moment calculation. |
| Coordination Compounds | Nomenclature, cis-trans and ionisation isomerisms, hybridisation, geometries (linear, tetrahedral, square planar, octahedral). |
| Compounds of d-Block Elements | Oxides, chlorides of Sn, Pb; Oxides, chlorides, sulphates of Fe²⁺, Cu²⁺, Zn²⁺; KMnO₄, K₂Cr₂O₇, Ag₂O, AgNO₃, Ag₂S₂O₃. |
| Ores and Minerals | Common ores and minerals of iron, copper, tin, lead, magnesium, aluminium, zinc, silver. |
| Extractive Metallurgy | – Carbon Reduction: Iron, tin.- Self-Reduction: Copper, lead.- Electrolytic Reduction: Magnesium, aluminium.- Cyanide Process: Silver, gold. |
| Qualitative Analysis (Salt Analysis) | Cations (Groups I to V): Ag⁺, Hg₂²⁺, Cu²⁺, Pb²⁺, Bi³⁺, Fe³⁺, Cr³⁺, Al³⁺, Ca²⁺, Ba²⁺, Zn²⁺, Mn²⁺, Mg²⁺Anions: Nitrate, halides (except fluoride), sulphate, sulphide. |
| Topics (Organic Chemistry) | Details Covered |
| Basic Concepts | Hybridisation of carbon, bond types, shapes of organic molecules; Structural, geometrical, and optical isomerism (up to 2 asymmetric centers); IUPAC nomenclature (hydrocarbons, mono- and bi-functional compounds); Conformations of ethane and butane (Newman projection); Resonance, hyperconjugation, keto-enol tautomerism; Empirical/molecular formulas; Hydrogen bonding; Acid-base behavior; Reaction intermediates. |
| Alkanes | Physical properties (MP, BP, density), combustion, halogenation; Preparation via Wurtz reaction and decarboxylation. |
| Alkenes & Alkynes | Physical properties, acidity of alkynes; Acid-catalyzed hydration; Reactions with KMnO₄, ozone; Reduction; Elimination-based preparation; Electrophilic additions (X₂, HX, HOX, H₂O); Alkynes addition reactions; Metal acetylides. |
| Benzene & Aromatic Compounds | Structure, aromaticity, electrophilic substitution (halogenation, nitration, sulphonation, Friedel–Crafts alkylation/acylation); o-, m-, p-directing effects in monosubstituted benzenes. |
| Phenols | Acidity, electrophilic substitutions (halogenation, nitration, sulphonation); Reimer-Tiemann and Kolbe reactions. |
| Functional Group Reactions | – Alkyl Halides: Carbocation rearrangements, Grignard reagent, nucleophilic substitutions.- Alcohols: Esterification, dehydration, oxidation, reactions with Na, PX₃, ZnCl₂/HCl, conversion to aldehydes/ketones.- Ethers: Williamson synthesis.- Aldehydes/Ketones: Oxidation, reduction, oxime/hydrazone formation, aldol, Perkin, Cannizzaro, haloform, nucleophilic addition (Grignard).- Carboxylic Acids: Formation of esters, acid chlorides/amides, hydrolysis of esters.- Amines: Basicity, preparation from nitro compounds, nitrous acid reaction, azo coupling, Sandmeyer, carbylamine reaction.- Haloarenes: Nucleophilic substitution (excluding Benzyne/Cine mechanisms). |
| Carbohydrates | Classification of mono- and disaccharides (glucose, sucrose); Oxidation, reduction, glycoside formation, hydrolysis. |
| Amino Acids & Peptides | General structure (primary only) and physical properties. |
| Polymers | Natural rubber, cellulose, nylon, Teflon, PVC – properties and uses. |
| Practical Organic Chemistry | Detection of elements (N, S, halogens); Identification of functional groups (hydroxyl, carbonyl, carboxyl, amino, nitro); Separation of monofunctional organic compounds from binary mixtures. |
Mathematics
| Chapters | Units/Topics |
| Algebra | Complex numbers: Algebra, geometric interpretation, cube roots of unity. Quadratic equations: Relations between roots and coefficients, formation of equations. Sequences and series: AP, GP, HP, sums, means, squares/cubes. Logarithms: Properties. Permutations and Combinations. Binomial Theorem: Positive integral index, properties. |
| Matrices | Definition, operations (addition, multiplication), transpose, determinant (up to 3×3), inverse, types (diagonal, symmetric, skew-symmetric), solving linear equations (2 or 3 variables). |
| Probability | Addition/multiplication rules, conditional probability, Bayes’ Theorem, independence, using P&C for probability calculation. |
| Trigonometry | Functions, graphs, periodicity, formulas (addition, multiple angles), general solutions. Triangle relations: Sine rule, cosine rule, area, inverse trigonometric functions (principal value only). |
| Analytical Geometry | 2D Geometry: Cartesian coordinates, distance, section formula, straight lines (forms, angle, bisectors, concurrency), triangle centers. Circles: General/standard equations, tangent, normal, chord, parametric form, intersections. Conic Sections: Parabola, ellipse, hyperbola – standard forms, foci, directrices, eccentricity, tangents/normals, loci. 3D Geometry: Direction cosines/ratios, line and plane equations, point-plane distance. |
| Differential Calculus | Functions: Types, operations, continuity, limits (including L’Hospital’s Rule), inverse, even/odd. Derivatives: Rules (sum, product, chain), implicit functions, order up to 2, geometrical interpretation, tangents/normals, increasing/decreasing, maxima/minima, Rolle’s and Lagrange’s theorems. |
| Integral Calculus | Integration: Inverse of differentiation, standard/definite integrals, properties, fundamental theorem. Techniques: Substitution, parts, partial fractions. Applications: Area under curves. Differential Equations: Formation, homogeneous, separation of variables, linear first-order. |
| Vectors | Vector addition, scalar multiplication, dot and cross products, geometrical applications in 2D and 3D. |
JEE Eligibility Criteria: JEE 2026 Exam (Expected)
| Criteria | JEE Main 2026 Eligibility | JEE Advanced 2026 Eligibility |
| Educational Qualification | Class 12 (10+2) passed in 2024/2025 or appearing in 2026 with Physics, Chemistry, and Mathematics (PCM) as compulsory subjects. | Must have qualified JEE Main 2026 and be among the top 2.5 lakh candidates across categories. |
| Minimum Marks | 75% aggregate in Class 12 (65% for SC/ST) OR top 20 percentile in respective board exams. | Same as JEE Main – 75% (65% for SC/ST) or top 20 percentile. |
| Age Limit | No upper age limit (as per NTA). | Born on or after October 1, 2000 (5-year relaxation for SC/ST/PwD). |
| Attempts Allowed | Maximum 6 attempts (2 per year over 3 consecutive years). | Maximum 2 attempts in 2 consecutive years. |
| Year of Passing 12th | Candidates must have passed 12th in 2024/2025 or appear in 2026. | Only candidates who passed Class 12 in 2024 or 2025 are eligible. |
| Nationality | Indian citizens + Foreign nationals are eligible. | Indian citizens + Foreign nationals (as per IIT admission rules). |
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JEE Exam Registration Process
- First you have to visit the official NTA JEE website and there you need to click on the JEE Main 2026 registration link.
- Enter some basic details like name, your mobile number, Email-ID to generate login credentials to proceed further with the process.
- Then you need to login and provide academic, exam related and personal details and aspirants need to be very careful during filling it.
- Upload all the required documents like scanned signature, passport sized photographs and relevant information.
- Then completing all the information, pay the fee using your preferred payment method and download the respective confirmation page.
JEE Exam: JEE Important Dates 2026 (Tentative)
| JEE Exam Events | Tentative Dates |
| JEE Main 2026 Registration | Nov – Dec 2025 |
| JEE Main 2026 Session 1 Exam | Jan 2026 (last week) |
| JEE Main 2026 Session 2 Exam | Apr 2026 (first week) |
| JEE Main 2026 Results | Within 1 week of each session |
| JEE Advanced 2026 Exam | May/June 2026 |
JEE Exam Preparation Tips & Strategy
- Candidates need to understand the syllabus carefully and focus on the major subjects like Mathematics, Chemistry and Physics as per the JEE Main exam and JEE Advanced Syllabus.
- Then create a proper study plan and divide the whole plan weekly so that you will be able to cover weak as well as strong concepts of yours.
- Solve PYQs and mock papers of all the three subjects so that you will able to prepare for the real exam environment with a proper speed and accuracy
Conclusion: JEE Exam & JEE Full Form
The JEE Exam is the first and very important step for the engineering aspirants who are looking to build their dream career of studying in top colleges like IITs that stands for Indian institutes of Technology. Understanding the JEE Exam pattern, JEE Full Form, its syllabus, registration process, eligibility criteria as well as preparation strategy is very important for engineering students to secure a good rank in the JEE Exam. It is very important for engineering students to stay updated with the official notifications of the JEE Exam along with the proper JEE preparation strategy plan.
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