IIITH UGEE 2026 Syllabus PDF - Download Latest IIITH UGEE Syllabus for All Subjects

• FBDs
• Pulley systems
• Newton’s law of gravitation
• Kepler’s laws
• Escape velocity

• Moment of inertia (theorems)
• Torque
• Angular momentum conservation

• Work-energy theorem
• Conservative vs. Non-conservative forces
• Power relations

• Gauss’s law
• Capacitors
• Kirchhoff’s laws
• Potentiometer
• RC circuits (charging/ discharging)

• Biot-Savart law
• Ampere’s law
• Faraday’s & Lenz’s law
• Self/ Mutual Inductance
• AC transformers

• Total Internal Reflection (TIR)
• Lens maker’s formula
• YDSE (Interference)
• Diffraction
• Polarization

• Photoelectric effect
• Bohr’s model
• Radioactivity (half-life)
• Mass-energy equivalence

• First/ Second laws
• Heat engines (Carnot cycle)
• Specific heat
• Ideal gas laws

• Simple Harmonic Motion (SHM)
• Doppler effect
• Bernoulli’s theorem
• Viscosity

• Enthalpy
• Entropy
• Gibbs Free Energy ($\Delta G$)
• Spontaneity
• Hess’s Law

• Le Chatelier’s Principle
• pH calculations
• Buffer solutions
• Solubility Product ($K_{sp}$)

• Bohr's model
• Quantum numbers
• Electronic configuration (Aufbau, Pauli, Hund)

• Order of reactions
• Rate laws
• Arrhenius Equation
• Activation energy

• Stoichiometry
• Limiting reagent
• Concentration terms (Molarity, Molality)

• Inductive/ Resonance effects
• Hyperconjugation
• Stability of intermediates

• Alkanes
• Alkenes (Ozonolysis, Peroxide effect)
• Alkynes, Aromaticity (Benzene)

• Alcohols
• Phenols
• Ethers
• Aldehydes & Ketones (Named reactions like Aldol/ Cannizzaro)

• Carbohydrates (Glucose/ Fructose)
• Amino acids
• Classification of Polymers

• VSEPR Theory
• Hybridization
• Molecular Orbital Theory (MOT)
• Bond order

• Ligands
• IUPAC nomenclature
• Werner's Theory
• CFT (Crystal Field Theory)

• Concept of limits
• L'Hôpital's rule
• Continuity & Differentiability of functions
• Rolle’s Theorem

• Indefinite and Definite Integrals
• Properties of definite integrals
• Area under curves

• Maxima and Minima
• Rate of change
• Tangents and Normals
• Monotonicity

• Formation of equations
• Variable separable method
• Linear differential equations

• Euler’s form
• De Moivre’s theorem
• Roots of unity
• Nature of roots
• Common roots

• Counting principles
• Circular permutations
• Distribution of objects

• System of linear equations (Cramer’s rule)
• Properties of determinants
• Inverse of matrices

• General and middle terms
• Sum of series (AP/GP/HP)
• Arithmetic-Geometric progression

• Slope and distance formulas
• Pair of straight lines
• Tangents and normals to a circle

• Ellipse
• Parabola and Hyperbola (Focus, Eccentricity, Directrix, and General properties)

• Bayes’ Theorem
• Conditional probability
• Variance
• Random variables
• Standard Deviation

• Dot and Cross products
• Scalar Triple Product
• Equations of Lines and Planes in 3D

• Inverse Trigonometric functions
• General solutions of trigonometric equations
• Heights & Distances

• Big Passage Ques based on PCM and SUPR
• Time and Work
• Simple and Compound Graphical Questions of PCM
• Interest
• Train Problems
• Case Study-based Questions

• Progressions and Series
• Probability
• Surds, Indices, and Logarithms
• Number of Solutions
• Permutations and Combinations
• Tracing Curves

• Coding and Decoding
• Cubes and Dices
• Direction Sense Test
• Miscellaneous Puzzles
• Logical Venn Diagram
• Analytical Reasoning
• Data Sufficiency
• Linguistics
• Finding the Missing Term

• Train problems
• relative speed
• complex work-rate scenarios

Simple and Compound Interest

Mixture problems

pressure-volume, velocity-time, or stress-strain graphs

Mechanics Case Studies

Optics & Waves

Reaction Kinetics

• Analysis of rate constant graphs
• Analysis of concentration vs. time data

Thermodynamics

• Interpretation of heat exchange cycles (Carnot)
• Interpretation of energy profile diagrams

Logic-based Algebra

• Finding number of Solutions
• Using Surds/ Logarithms in models

Curve Tracing

• Surds, Indices & Logarithms
• Progressions & Series
• Number of Solutions
• Probability
• Bayesian probability
• P & C
• Circular arrangements
• De-arrangements

• Curve Tracing
• Prediction of the visual shape of a function ($y = f(x)$)
• Transformation Geometry
• Visualization of reflections, rotations, scaling of 2D/3D shapes in a coordinate plane
• Spatial Reasoning
• Properties of polygons and solids (e.g., counting faces/ edges) from a 3D perspective
• 3D Vector Geometry

• Tables & Complex Graphs
• Data Sufficiency
• Logical Interpretation

• Coding & Decoding
• Analytical Puzzles
• Family & Directions

• Artificial Languages
• Pattern Finding

• Syllogisms
• Venn Diagrams
• Abstract Reasoning

IIITH UGEE 2026 Mathematics Chapter-wise Weightage

• Algebra (Complex Numbers, Matrices, Determinants)- 15 to 20%
• Calculus (Differentiation, Integration, Applications)- 20 to 25%
• Coordinate Geometry (Straight Lines, Circles, Conics)- 12 to 15%
• Vectors and 3D Geometry- 7 to 9%
• Trigonometry- 5 to 7%
• Probability and Statistics- 6 to 8%
• Permutations and Combinations- 5 to 7%

IIITH UGEE 2026 Physics Chapter-wise Weightage

• Thermodynamics and Kinetic Theory- 6 to 8%
• Electrostatics and Current Electricity- 10 to 12%
• Optics- 6 to 8%
• Magnetism and Electromagnetic Induction- 8 to 10%
• Modern Physics (Dual Nature, Atomic Physics)- 8 to 10%
• Mechanics (Laws of Motion, Work, Energy, and Power)- 10 to 12%
• Waves and Oscillations- 6 to 8%

IIITH UGEE 2026 Chemistry Chapter-wise Weightage

Physical Chemistry

• Electrochemistry- 4 to 6%
• Chemical Kinetics- 3 to 5%
• Atomic Structure- 5 to 7%
• Thermodynamics and Thermochemistry- 8 to 10%
• Equilibrium (Chemical and Ionic)- 6 to 8%
• Mole Concept and Stoichiometry- 4 to 6%
• Solid State- 3 to 5%
• Surface Chemistry- 2 to 4%

Organic Chemistry

• Hydrocarbons (Alkanes, Alkenes, Alkynes)- 5 to 7%
• Aldehydes, Ketones, and Carboxylic Acids- 4 to 6%
• General Organic Chemistry- 6 to 8%
• Haloalkanes and Haloarenes- 4 to 6%
• Alcohols, Phenols, and Ethers- 5 to 7%
• Biomolecules and Polymers- 3 to 5%
• Amines- 4 to 6%

Inorganic Chemistry

• Metallurgy- 3 to 5%
• Periodic Table and Periodicity- 5 to 7%
• Coordination Compounds- 4 to 6%
• p to block Elements- 5 to 7%
• Chemical Bonding and Molecular Structure- 8 to 10%
• d to  and f to block Elements- 4 to 6%