RUHS CUET Syllabus 2026, Check Exam Pattern and Detailed Syllabus

The Rajasthan University of Health Sciences (RUHS) has released the official syllabus and exam pattern for the RUHS CUET 2026, the Common Undergraduate Entrance Test for admission to Nursing, Pharmacy, and Allied Health courses. Aspirants must thoroughly understand the RUHS CUET Syllabus 2026 and exam structure to plan their preparation strategically, focusing on high-weightage topics across Physics, Chemistry, Biology, and Mathematics.

With the exam being conducted offline using OMR sheets, candidates are advised to practice previous years’ questions and mock tests to strengthen both conceptual understanding and time management.

RUHS CUET Syllabus 2026

The RUHS CUET 2026 is a single common entrance test replacing multiple entrance exams for various undergraduate programs in Nursing, Allied Healthcare, and Pharmacy. It provides a uniform evaluation pattern across courses while allowing specialization in the final section, where candidates answer questions either in Biology or Mathematics depending on their chosen stream.

The test ensures a fair, standardized assessment of candidates’ knowledge as per the Rajasthan Board of Secondary Education (RBSE) Class XII curriculum.

RUHS CUET Exam Pattern 2026

The RUHS CUET Exam Pattern 2026 provides a clear framework for the test, ensuring candidates understand the structure and distribution of marks. This uniform pattern applies to all Nursing, Pharmacy, and Allied Health courses, with slight variation only in the final section (Biology/Mathematics).

Exam Pattern Details

• Mode of Examination: Offline OMR-based MCQs.
• Exam Duration: 120 minutes.
• Medium: English and Hindi (English version is final in case of discrepancy).
• Total Questions: 100 multiple-choice questions with four options each.
• Marking Scheme: +1 for correct answer; no negative marking.
• Question Paper: Candidates can retain the OMR carbon copy after the exam.

RUHS CUET Syllabus 2026 Section-Wise

The Rajasthan CUET Syllabus 2026 is divided into Physics, Chemistry, and Biology/Mathematics. The syllabus is aligned with RBSE Class XII curriculum to test students on fundamental concepts and application-based knowledge.

RUHS CUET Syllabus 2026: Mathematics

The RUHS CUET Mathematics Syllabus 2026 covers algebra, calculus, vectors, probability, and linear programming. Candidates must have a strong grasp of theoretical concepts and problem-solving techniques.

Unit 1: Relations and Functions

• Relations and Functions: Introduction, Types of relations, Types of functions, Composition of Functions and Invertible function.
• Inverse Trigonometric Functions: Introduction, Basic Concepts, Properties of Inverse Trigonometric Functions.

Unit 2: Algebra

• Matrices: Introduction, Matrix, Types of matrices, Operations on Matrices, Transpose of a Matrix, Symmetric and Skew Symmetric Matrices, Invertible Matrices.
• Determinants: Introduction, Determinant, Area of a Triangle, Minors and Co-Factors, Adjoint and inverse of a matrix, Applications of Determinants and Matrices.

Unit 3: Calculus

• Continuity and Differentiability: Introduction, Continuity, Differentiability, Exponential and Logarithmic Functions, Logarithmic Differentiation, Derivatives of Functions in Parametric Forms, Second Order Derivative.
• Application of Derivatives: Introduction, Rate of change of Quantities, Increasing and Decreasing Functions, Maxima and Minima.
• Integrals: Introduction, Integration as inverse process of differentiation, Methods of Integration, Integrals of Some Particular Functions, Integration by Partial Fractions, Integration by Parts, Definite Integral, Fundamental Theorem of Calculus, Evaluation of Definite Integrals by Substitution, Some Properties of Definite Integrals.
• Applications of the Integrals: Introduction, area under simple curves.
• Differential Equations: Introduction, Basic Concepts, General and Particular Solutions of a differential Equation, Methods of solving first order, first degree differential Equations.

Unit 4: Vectors and Three-Dimensional Geometry

• Vector Algebra: Introduction, Some Basic Concepts, Types of Vectors, Addition of Vectors, Multiplication of a Vector by a Scalar, Product of Two Vectors.
• Three Dimensional Geometry: Introduction, Direction Cosines and Direction Ratios of a Line, Equation of a Line in Space, Angle between two lines, Shortest Distance between two lines.

Unit 5: Linear Programming

• Linear Programming: Introduction, Linear programming problems and its mathematical formulation.

Unit 6: Probability

• Probability: Introduction Probability, Conditional probability, Multiplication Theorem on probability, Independent Events, Baye’s theorem.

RUHS CUET Syllabus 2026: Physics

The RUHS CUET Physics Syllabus 2026 evaluates candidates on mechanics, electromagnetism, optics, modern physics, and electronics. Core concepts are tested through problem-solving MCQs.

• Electric Charges and Fields: Introduction, Electric Charge, Conductors and Insulators, Basic properties of electric charge (Additivity of charges, Charge is conserved, Quantisation of Charge), Coulomb’s Law, Forces between multiple charges, Electric Field (Electric field due to a system of charges, Physical significance of electric field), Electric Field Lines, Electric Flux, Electric Dipole (The field of an electric dipole i. For points on the axis (ii) For points on the equatorial plane, Physical significance of dipoles), Dipole in a uniform external field, Continuous charge distribution, Gauss’s Law, Applications of Gauss’s Law (Field due to an infinitely long straight uniformly charged wire, Field due to a uniformly charged infinite plane sheet, Field due to a uniformly charged thin spherical shell).
• Electrostatic Potential and Capacitance: Introduction, Electrostatic Potential, Potential due to a point charge, Potential due to an electric dipole, Potential due to a system of charges, Equipotential Surfaces (Relation between field and potential), Potential Energy of a system of charges, Potential Energy in an external field (Potential energy of a single charge, Potential energy of a system of two charges in an external field, Potential energy of a dipole in an external field), Electrostatics of Conductors (Inside a conductor electrostatic field is zero, At the surface of a charged conductor electrostatic field must be normal to the surface at every point, The interior of a conductor can have no excess charge in the static situation, Electrostatic potential is constant throughout the volume of the conductor and has the same value on its surface, Electric field at the surface of a charged conductor, Electrostatic shielding), Dielectrics and Polarisation, Capacitors and Capacitance, The Parallel Plate Capacitor, Effect of dielectric on capacitance, Combination of Capacitors (Capacitors in series, Capacitors in parallel), Energy stored in a capacitor (only Formula).
• Current Electricity: Introduction, Electric Current, Electric currents in conductors, Ohm’s law, Drift of electrons and the origin of resistivity (Mobility), Limitations of Ohm’s law, Resistivity of various materials, Temperature dependence of resistivity, Electrical energy-power, Cells, EMF, Internal resistance, Cells in series and in parallel, Kirchhoff’s rules, Wheatstone Bridge.
• Moving Charges and Magnetism: Introduction, Magnetic Force (Sources and fields, Magnetic Field Lorentz Force, Magnetic force on a current carrying conductor), Motion in a magnetic field, Magnetic field due to a current element Biot Savart law, Magnetic field on the axis of a circular current loop, Ampere’s circuital law, The Solenoid, Force between two parallel currents – the Ampere, Torque on current loop – Magnetic Dipole (Torque on a rectangular current loop in a uniform magnetic field, circular current loop as a magnetic dipole), The moving coil galvanometer.
• Magnetism and Matter: Introduction, The Bar Magnet (The magnetic field lines, Bar magnet as an equivalent solenoid- only qualitative study. The dipole in a uniform magnetic field, The electrostatic analog), Magnetism and Gauss’s Law, Magnetisation and Magnetic Intensity, Magnetic properties of materials (Diamagnetism, Paramagnetism, Ferromagnetism).
• Electromagnetic Induction: Introduction, The experiments of Faraday and Henry, Magnetic Flux, Faraday’s Law of Induction, Lenz’s Law and Conservation of Energy, Motional Electromotive force, Inductance (Mutual Inductance, self-Inductance), AC Generator.
• Alternating Current: Introduction, AC voltage applied to a resistor, Representation of AC current and voltage by rotating vectors – phasors, AC voltage applied to an inductor, AC voltage applied to a capacitor, AC voltage applied to a series LCR circuit (Phaser diagram solution, Resonance), Power in AC circuit: The power factor, Transformers.
• Electromagnetic Waves: Introduction, Displacement Current, Electromagnetic Waves (sources of electromagnetic waves, Nature of electromagnetic waves), Electromagnetic Spectrum (Radio waves, Microwaves, Infrared waves, visible rays, ultraviolet rays, x-rays, Gamma rays).
• Ray Optics and Optical Instruments: Introduction, Reflection of light by spherical mirrors (Sign convention, Focal length of spherical mirrors, The mirror equation), Refraction, Total internal reflection (Total internal reflection in nature and its technological applications – i. Prism ii. Optical fibers), Refraction at spherical surfaces and by lenses (Refraction at a spherical surface, Refraction by a lens, Power of a lens, Combination of thin lenses in contact), Refraction through a prism, Optical instruments (The microscope, Telescope).
• Wave Optics: Introduction, Huygens Principle, Refraction and reflection of plane waves using Huygens principle (Refraction of a plane Wave, Refraction at a rarer medium, Reflection of a plane wave by a plane surface), Coherent and Incoherent addition of waves, Interference of light waves and Young’s Experiment (only formula of bright and dark fringes), Diffraction (only qualitative study) (The Single slit, seeing the Single slit diffraction pattern), Polarisation.
• Dual Nature of Radiation and Matter: Introduction, Electron Emission, Photoelectric Effect (Hertz’s observations, Hallwach’s and Lenard’s observations), Experimental Study of Photoelectric Effect (Effect of intensity of light on photocurrent, Effect of potential on photoelectric current, Effect of frequency of incident radiation on stopping potential), Photoelectric Effect and Wave Theory of Light, Einstein’s Photoelectric Equation: Energy Quantum of Radiation, Particle Nature of Light: The Photon, Wave Nature of Matter.
• Atoms: Introduction, Alpha-particle, Scattering and Rutherford’s nuclear model of atom (Alpha- Particle trajectory, Electron orbits), Atomic Spectra, Bohr Model of the Hydrogen Atom (only formula of radius of nth orbit) (Energy levels), The line spectra of the hydrogen atom (Only qualitative Study), de Broglie’s explanation of Bohr’s second postulate of quantisation
• Nuclei: Introduction, Atomic Masses and composition of Nucleus (Discovery of Neutron), Size of the nucleus, Mass-Energy and Nuclear Binding Energy (Mass-Energy, Nuclear binding energy), Nuclear Force, Radioactivity, Nuclear Energy (Fission, Nuclear fusion energy generation in stars, controlled thermo-nuclear fusion).
• Semiconductor Electronics (Materials, Devices and Simple Circuits): Introduction, Classification of Metals, Conductors and Semiconductors (On the basis of conductivity, on the basis of energy bands), Intrinsic Semiconductor, Extrinsic Semiconductor (n-type semiconductor, p-type semiconductor), p-n Junction (p-n junction formation), Semiconductor diode (p-n junction diode under forward bias, p-n junction diode under reverse bias), Application of junction diode as a rectifier.

RUHS CUET Syllabus 2026: Chemistry

The RUHS CUET Chemistry Syllabus 2026 focuses on physical, organic, inorganic, and coordination chemistry. Candidates must understand reaction mechanisms, chemical properties, and periodic trends.

• Solutions: Types of Solutions- Solid, Liquid and gaseous solutions- Expressing Concentration of Solutions- Solubility of solids in Liquids Solubility of gases in Liquids-Henry’s Law, Vapour Pressure of Liquid Solutions- Raoult’s Law- Determination of Molecular masses using Colligative Properties, Ideal and Non-ideal Solutions, Colligative Properties- Relative Lowering of Vapour Pressure-Elevation of Boiling point- Depression of freezing point Osmosis and osmotic pressure – Reverse osmosis and water purification, Abnormal Molar Masses-Van’t hoff factor.
• Electrochemistry: Electrochemical Cells, Galvanic Cells- Measurement of Electrode Potential- Standard Electrode Potential, Nernst Equation and its application to chemical cells- Equilibrium Constant from Nernst Equation- Electrochemical Cell and Gibbs Energy of the Reaction, Conductance of Electrolytic Solutions-Measurement of the Conductivity of lonic Solutions-Molar Conductivity and Limiting Molar Conductivity Variation of Conductivity and Molar Conductivity with Concentration-Kohlrausch’s Law, Electrolytic Cells – Electrolysis and Laws of Electrolysis- Products of Electrolysis, Primary Batteries- Secondary Batteries (Lead Accumulator), Fuel Cells, Corrosion.
• Chemical Kinetics: Rate of a Chemical Reaction (Average and Instantaneous), Factors Influencing Rate of a Reaction-Dependence of Rate on Concentration- Rate Expression and Rate constant- Order of a Reaction- Molecularity of a Reaction, Integrated Rate Equations- Zero Order Reactions- First Order Reactions- Half-Life of a Reaction, Temperature Dependence of the Rate of a Reaction-Effect of Catalyst, Collision Theory of Chemical Reactions- Activation energy-Arrhenious equation.
• The d-and f-Block Elements: Position in the Periodic Table, Electronic Configurations of the d-Block Elements, General Properties of the Transition Elements (d-Block)-Physical Properties – Variation in Atomic and lonic Sizes of Transition Metals- lonisation Enthalpies- Oxidation States- Trends in the M2+/M Standard Electrode Potentials- Trends in the M3+/M2+ Standard Electrode Potentials- Trends of Stabilitiy of Higher Oxidation States- Chemical Reactivity and E values- Magnetic Properties- Formation of Coloured lons- Formation of Complex compounds- Catalytic Properties- Formation of Interstitial Compounds Formation of Alloys, Preparation and Properties of K2Cr2O7 and KMnO4, The Lanthanoids- Electronic Configurations, Atomic and lonic Sizes- Lanthanoid Contraction and its Consequences- Oxidation States- General Characteristics- Chemical Reactivity, The Actinoids- Electronic Configurations- lonic Sizes- Oxidation States- General Characteristics – Comparison with Lanthanoids, Some Applications of d- and f- Block Elements.
• Coordination Compounds: Werner’s Theory of Coordination Compounds, Definitions of Some Important Terms Pertaining to Coordination Compounds, Formulas and IUPAC Nomenclature of Mononuclear Coordination Compounds, Isomerism in Coordination Compounds- Geometric Isomerism- Optical Isomerism- Linkage Isomerism- Coordination Isomerism- lonisation Isomerism- Solvate Isomerism, Bonding in Coordination Compounds- Valence Bond Theory-Magnetic Properties of Coordination compounds- Limitations of Valence Bond Theory- Crystal Field Theory- Colour in Coordination Compounds, Limitations of Crystal Field Theory, Bonding in Metal Carbonyls and Shapes, Importance and Applications of Coordination Compounds.
• Haloalkanes and Haloarenes: Classification- On the Basis of Number of Halogen Atoms- Compounds containing sp3 C-X Bond (X=F, Cl, Br,I)- Compounds containing sp2 C-X Bond, Nomenclature, Nature of C-X Bond, Methods of Preparation of Haloalkanes- From Alcohols- From Hydrocarbons- From Halogen Exchange, Preparation of Haloarenes, Physical Properties, Chemical Reactions- Reactions of Haloalkanes- Optical Rotation Mechanism of Nucleophilic Substitution Reactions- Reactions of Haloarenes, Polyhalogen Compounds-Dichloro methane (Methylene chloride)- Trichloromethane (Chloroform)- Triiodomethane (lodoform)- Tetrachloromethane (Carbon tetrachloride) Freons p,p’- Dichlorodiphenyltrichloroethane (DDT).
• Alcohols, Phenols and Ethers: Alcohols- Nomenclature- Methods of preparation- Physical and Chemical properties (of primary alcohols only)- Identification of Primary, Secondary and Tertiary alcohols- Mechanism of Dehydration- Uses with sepecial reference to Methanol and Ethanol, Phenols- Nomenclature -Methods of preparation- Physical and Chemical properties Acidic nature of Phenol- Electrophilic substitution reaction- Uses of Phenols, Ethers- Nomenclature- Methods of preparation- Physical and Chemical properties- Uses.
• Aldehydes, Ketones and Carboxylic Acids: Aldehydes and Ketones Nomenclature Nature and Structure of Carbonyl Compounds – Methods of Preparation – Physical and Chemical Properties- Mechanism of Nucleophilic addition Reaction-Reactivity of alpha-Hydrogen in Aldehydes- Uses. Carboxylic Acids Nomenclature Acidic Preparation- Physical and Chemical Properties- Uses.
• Amines: Amine Classification – Structure – Nomenclature- Methods of Preparation- Physical Chemical Properties- Basic Character of Amines, Diazonium Salts Method of Preparation Chemical Reactions- Importance in Synthesis of Aromatic Compounds.
• Biomolecules: Carbohydrates- Classification (Aldoses and ketoses)-Monosaccharides (Glucose and Fructose) D-L Configuration Disaccharides (Sucrose, Lactose and Maltose), Polysaccharides (Starch, Cellulose and Glycogen) Importance of Carbohydrates, Proteins- Amino Acids (Peptide Bond, Polypeptides and Proteins)- Structure of Proteins – Denaturation of Proteins, Enzymes- Mechanism of Enzyme Action, Vitamins- Classification and Functions, Nucleic Acids (DNA and RNA) Chemical Composition- Structure Biological Functions, Hormones – Elementry Idea (Excluding Structure).

RUHS CUET Syllabus 2026: Biology

The RUHS CUET Biology Syllabus 2026 covers reproduction, genetics, evolution, biotechnology, human health, and ecology. This section is crucial for Nursing and Allied Health aspirants.

Unit 6: Reproduction

• Sexual Reproduction in Flowering Plants: Flower- A Fascinating organ of Angiosperms, Pre-fertilization: structures and events, Stamens, Microsporangium and Pollen grain, The pistil, Megasprorangium and Embryosac, Pollination, Double fertilisation, Post- Fertilisation structures and events- Endosperm, Embryo, Seed, Apomixis and Polyembryony.
• Human Reproduction: The Male Reproductive System, The Female Reproductive System, Gametogenesis, Menstrual Cycle, Fertilisation and Implantation, Pregnancy and Embryonic Development, Parturition and Lactation.
• Reproductive Health: Reproductive Health-Problems and Strategies, Population Stabilisation and Birth Control, Medical Termination of Pregnancy, Sexually Transmitted infections, Infertility.

Unit 7: Genetics and Evolution

• Principles of Inheritance and Variation: Mendel’s Laws of Inheritance, Inheritance of One Gene- Law of Dominance, Law of Segregation (Incomplete dominance, Co-dominance) Inheritance of Two Genes- Law of Independent Assortment, Chromosomal Theory of Inheritance, Linkage and Recombination, Polygenic Inheritance, Pleiotropy, Sex Determination- Sex Determination in Honey Bee and Humans, Mutation, Genetic Disorders- Pedigree Analysis, Mendelian Disorders- (Colour Blindness, Haemophilia, Sickle-cell anaemia, Phenylketonuria, Thalassemia, Chromosomal Disorders).
• Molecular Basis of Inheritance: The DNA -Structure of Polynucleotide chain, Packaging of DNA helix, The Search for Genetic Material- The Genetic material is DNA, Properties of Genetic material, RNA world, Replication – The Experimental proof, The Machinery and the Enzymes, Transcription – Transcription unit, Transcription unit and the Gene, Types of RNA and the process of transcription, Genetic Code- Mutation and Genetic code, tRNA- The adapter molecule, Translation, Regulation of Gene Expression- The Lac Operon, Human Genome Project- Salient features of Human genome, Applications and future challenges, DNA Fingerprinting.
• Evolution: Origin of Life, Evolution of Life Forms – A theory, Evidences for Evolution, Adaptive Radiation, Biological Evolution, Mechanism of Evolution, Hardy Weinberg Principle, A Brief Account of Evolution, Origin and Evolution of Man.

Unit 8: Biology in Human Welfare

• Human Health and Disease: Common Diseases in Humans, Immunity Innate Immunity, Acquired Immunity, Active and Passive Immunity, Vaccination and Immunisation, Allergies, Auto Immunity, Immune System in the body, AIDS, Cancer, Drugs and Alcohol abuse- Adolescence and Drug/Alcohol abuse, Addiction and dependence effects of drug/alcohol abuse, Prevention and control.
• Microbes in Human Welfare: Microbes in Household Products, Microbes in industrial products- Fermented beverages, Antibiotics, Chemicals, Enzymes and other bioactive molecules, Microbes in Sewage Treatment, Microbes in Production of Biogas, Microbes as Biocontrol Agents, Microbes as Biofertilisers.

Unit 9: Biotechnology

• Biotechnology: Principles and Processes: Principles of Biotechnology, Tools of recombinant DNA Technology-Restriction Enzymes, Cloning vectors, Competent host (For Transformation with Recombinant DNA), Processes of Recombinant DNA Technology-Isolation of the Genetic material (DNA), Cutting of DNA at specific locations, Amplification of Gene of interest using PCR, Insertion of Recombinant DNA into the Host Cell/Organism, Obtaining the foreign Gene product, Downstream processing.
• Biotechnology and its Applications: Biotechnological applications in Agriculture, Biotechnological applications in Medicine-Genetically engineered Insulin, Gene Therapy, Ethical issues.

Unit 10: Ecology

• Organisms and Population: Populations – Population Attributes, Population Growth, Life History Variation, Population Interactions.
• Ecosystem: Ecosystem-Structure and Function, Productivity, Decomposition, Energy Flow, Ecological Pyramids.
• Biodiversity and Conservation: Biodiversity- Biodiversity on Earth and in India, Patterns of Biodiversity, The importance of species diversity to the Ecosystem, Loss of Biodiversity, Biodiversity Conservation.