Mastering the CUET Chemistry Syllabus 2026 is the most crucial step for students aiming to join prestigious undergraduate programs in Central Universities across India. The National Testing Agency (NTA) has structured the CUET UG Chemistry exam to evaluate candidates on Physical, Organic, and Inorganic Chemistry. With a paper pattern that requires answering 40 out of 50 questions, having a clear grasp of high-weightage units like Solutions, Electrochemistry, and Organic Compounds is essential. This guide provides the complete unit-wise syllabus, official exam pattern, and verified preparation resources to help you secure a top percentile in the 2026 entrance cycle.
Download Official Syllabus Direct Link CUET Chemistry Syllabus PDF: Click Here
CUET UG 2026 Chemistry Exam Overview
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| Feature | Details |
|---|---|
| Exam Name | Common University Entrance Test (CUET UG) |
| Conducting Body | National Testing Agency (NTA) |
| Subject Code | 306 |
| Total Units | 10 Units |
| Official Website | cuet.nta.nic.in |
CUET Chemistry Exam Pattern 2026
| Exam Mode | Computer-Based Test (CBT) |
| Type of Questions | Objective Type Multiple Choice Questions (MCQs) |
| Total Questions | 50 Questions |
| Questions to Attempt | All 50 Questions |
| Exam Duration | 60 Minutes |
| Marking Scheme | +5 Marks for each correct answer |
| Negative Marking | -1 Mark for each incorrect answer |
| Total Marks | 250 Marks |
CUET Chemistry Syllabus 2026 (Official Unit-wise)
| Unit No. | Detailed Syllabus Content |
|---|---|
| Unit I: Solutions | Introduction to solution and its type, expressing concentration of solutions, solubility of a solid in liquid, solubility of a gas in a liquid, Henry’s Law, vapour pressure of liquid-liquid solutions, Raoult’s law Vapour Pressure of Solutions of Solids in Liquids, Ideal & Non Ideal Solutions, Azeotropes (elementary idea only), Colligative properties and Determination of Molar Mass: Relative Lowering of Vapour Pressure, Elevation of Boiling Point, Depression of Freezing point, Osmosis and Osmotic Pressure, Reverse Osmosis & Water Purification, Abnormal Molar Masses, Van’t Hoff factor. |
| Unit II: Electrochemistry | Electrochemical Cells, Galvanic Cells, Standard Electrode potential and its measurement, EMF of cell, Nernst Equation & its applications (calculation of equilibrium constant and Ecell calculations), Electrochemical Cell & Gibbs Energy of the reaction, Conductance of electrolytic Solutions, Measurement of the conductivity of Ionic Solutions, Specific & Molar Conductivity, Variation of Conductivity and molar conductivity with Concentration, Kohlrausch law & its applications, Electrolytic Cells & Electrolysis, Faraday’s Laws of Electrolysis, Products of Electrolysis, Batteries- Primary & Secondary batteries, fuel cell, Corrosion. |
| Unit III: Chemical Kinetics | Introduction to chemical kinetics, Rate of a chemical reaction (Average and instantaneous rate of reactions), factors influencing rate of reaction: concentration, temperature, catalyst, Rate law and rate constant, order and molecularity of a reaction, integrated rate equations and half-life of a reaction (for zero and first order reactions only), pseudo first order reactions, Arrhenius equation, activation energy, collision theory for a bimolecular elementary chemical reactions and its limitations. |
| Unit IV: d and f Block Elements | General introduction to d and f-block elements, Position of d- and f-block elements in the periodic Table, Electronic configurations of the d- and f-block elements, general properties of the transition elements & their trends:- Physical properties, atomic & ionic sizes- lanthanoid contraction, Ionisation Enthalpies, Oxidation states, Standard electrode potential trends for M2+ /M & M3+/M2+, Stability of Higher oxidation states, Chemical reactivity and E° values, Magnetic properties, Formation of coloured Ions, Formation of Complex compounds, Catalytic properties, Formation of Interstitial Compounds, Alloy Formation, Nature of Oxides & Oxanions of d-block Metals, Some important compounds of transition elements- K2Cr2O7 and KMnO4, f-block elements: Lanthanoids & actinoids: general properties, Atomic & Ionic sizes, Oxidation States, Comparison of actinoids with Lanthanoids, Applications of d-and f- Block elements. |
| Unit V: Coordination Compounds | General Introduction to Coordination/complex compounds, Werner’s theory, double salts, Basic definitions: coordination entity, central atom/ion, Ligands, coordination number, coordination sphere, coordination polyhedron, oxidation number of central atom, homoleptic and heteroleptic complexes, IUPAC nomenclature of coordination compounds, Isomerism in coordination compounds, Bonding in coordination compounds- Valence Bond theory (VBT) and its limitations, crystal field theory (CFT): applications (magnetic properties and colour of complex compounds) and limitations, spectrochemical series, Shape and Bonding in metal carbonyls, Importance & Applications of coordination compounds. |
| Unit VI: Haloalkanes and Haloarenes | Introduction, Classification of haloalkanes and Haloarenes, Nomenclature of Haloalkanes & Haloarenes, nature of C-X Bond, Methods of preparation of Haloalkanes & Haloarenes, Physical properties of Haloalkanes & Haloarenes (like Melting & boiling Point, Density and Solubility), Chemical Properties of Haloalkanes and Haloarenes, Stereochemical aspects (optical activity, Chirality, retention, inversion, racemization etc) of SN- Reactions of Haloalkanes, Important Polyhalogen Compounds (CH₂Cl₂, CHCl₃,CHI₃, CCl₄, freons & DDT). |
| Unit VII: Alcohols, Phenols and Ethers | Classification & nomenclature of alcohols, phenols & Ethers, Structures of functional groups (alcohol, phenols & ethers), Methods of preparation of alcohols, Phenols and Ethers, Physical properties of alcohols, phenols and Ethers (boiling point & solubility), Chemical properties of alcohols involving cleavage of –C-OH bond & -CO-H bond, Chemical properties of phenols including oxidation & Reduction, Chemical properties of Ethers, Some Commercially important Alcohols like methanol & Ethanol. |
| Unit VIII: Aldehydes, Ketones and Carboxylic Acids | General introduction to carbonyl compounds, Nomenclature of Aldehydes, Ketones and carboxylic acids, structure of Carbonyl group, Methods of preparation of Aldehydes & Ketones, Physical properties of aldehydes & ketones (boiling point & solubility), Chemical properties of aldehydes & ketones, Uses of Aldehydes & Ketones, Structure of Carboxyl group, Methods of preparation of Carboxylic Acids, Physical properties (Boiling point & Solubility) and Chemical properties of carboxylic acids, Uses of Carboxylic Acids. |
| Unit IX: Amines | General Introduction, Structure of Amines, Classification & Nomenclature of amines, Methods of preparation of Amines, Physical properties of amines (Boiling point & solubility), Basic Character & Chemical properties of amines, Aliphatic & aromatic Diazonium salts: Method of preparation, Physical and chemical properties, Importance of Diazonium Salts in Synthesis of aromatic Compounds. |
| Unit X: Biomolecules | Carbohydrates: Classification of carbohydrates, Methods of preparation of glucose, Structure of Glucose, D&L configuration of monosaccharides, method of preparation of fructose, structure of fructose, disaccharides: sucrose, maltose and lactose, polysaccharides: starch, cellulose and glycogen, importance of carbohydrates, amino acids and their classifications, structure and types of proteins, denaturation of proteins, enzymes, mechanism of enzyme action (elementary idea), Vitamins: Types, sources and deficiency diseases, Nucleic acids: types, composition, structure and biological importance, Hormones: classification, biological importance and deficiency diseases. |
CUET Chemistry Eligibility & Prep Tips
- Eligibility: Candidates must have passed or be appearing in Class 12 with Chemistry as a core subject.
- Strategy: Focus on NCERT Chemistry line by line. Organic chemistry requires practicing named reactions (Unit VI-IX), while Physical chemistry (Unit I-III) requires formula practice.
