Syllabus

KVS PGT Chemistry Syllabus 2026 & Exam Pattern: Download Official PDF

R
Virat
Updated: Jun 13, 2026
8 MIN READ
The official KVS PGT Chemistry Syllabus 2026 has been released on the Kendriya Vidyalaya Sangathan website. Read on for a detailed breakdown of the syllabus, exam pattern, and access to the official PDF.

KVS PGT Chemistry Syllabus

The KVS PGT Chemistry Syllabus 2026 is meticulously structured to evaluate a candidate’s subject mastery, pedagogical skills, language proficiency, and overall aptitude for the Post Graduate Teacher (PGT) position. Mastering the syllabus allows aspirants to prioritize high-weightage topics, optimize their study schedule, and secure a competitive edge in the KVS PGT Chemistry Exam 2026.

KVS NVS Tier 2 Admit Card 2026 – Download Now

KVS Post Graduate Teacher Chemistry Syllabus: Overview

The KVS PGT Chemistry Syllabus 2026 serves as your definitive guide to the topics required for the Kendriya Vidyalaya Sangathan recruitment exam. Aligning your preparation with this official framework and staying updated with exam notifications will significantly increase your success rate for the PGT Chemistry faculty role.

KVS PGT Chemistry Syllabus
Organization Name Kendriya Vidyalaya School (KVS Recruitment 2025)
Conducting Body Kendriya Vidyalaya Sangathan
Post Name PGT Chemistry
Vacancies Notified Later
KVS Job Profile National
Mode of Application Online
Mode of Examination Online
KVS Selection Process Written Test & Interview

KVS PGT Chemistry Exam Pattern 2026

Understanding the KVS PGT Chemistry Syllabus 2026 alongside the revised exam pattern is vital for a structured study plan. The recruitment process includes a two-tier examination followed by a 100-mark interview. Merit is determined with 85% weightage assigned to the Tier-2 marks and 15% to the interview, ensuring a comprehensive assessment of both technical chemistry expertise and teaching competence.

KVS PGT Chemistry Syllabus 2026 and Exam Pattern, Download PDF Here_2.1

KVS PGT Chemistry Tier-1 Exam Pattern 2026

The Tier-1 exam is an OMR-based objective test that serves as a qualifying stage for all candidates. It consists of 100 questions, with each question carrying 3 marks, totaling 300 marks.

KVS Chemistry  Tier-1 Exam Pattern
Test Components No. of Questions Total Marks Duration
Part I- General Reasoning 20 60 2 Hours
Part II- Numeric Ability 20 60
Part III – Basic Computer Literacy 20 60
Part V – Language Competency (English) 10 30
Part VI – Language Competency (Modern Indian Language) 10 30
Total 100 300

KVS PGT Chemistry Tier-2 Exam Pattern 2026

Tier-2 focuses on Subject Knowledge, utilizing a combination of Pen-Paper and OMR formats. The exam duration is 2½ hours, providing ample time for candidates to demonstrate their command of the Chemistry curriculum.

KVS Chemistry Tier-2 Exam Pattern
Components of Test Type No. of Questions Total Marks Duration
Subject knowledge Objective 60 60 2.5 hours
Subject knowledge Descriptive 10 40
Total 70 100

KVS PGT 2026 Interview

Shortlisting for the KVS PGT Chemistry interview occurs at a 1:3 ratio, selecting three candidates per vacancy. If a tie occurs at the cut-off, all affected candidates move forward. A similar 1:5 ratio applies to any required skill tests, ensuring a fair and transparent selection process.

Detailed KVS PGT Chemistry Syllabus 2026

The KVS PGT Chemistry Syllabus 2026 is strictly aligned with the NCERT/CBSE curriculum for Classes XI and XII. The exam tests your conceptual depth at a postgraduate level, while also assessing your pedagogical aptitude. To succeed in the 2026 recruitment drive, candidates must balance deep theoretical knowledge with the ability to apply chemical principles to practical classroom situations.

Detailed KVS PGT Chemistry Syllabus
Unit  Topics
Some Basic Concepts of Chemistry
  • Scope of Chemistry: Understanding the nature of matter, its states, and properties.
  • Historical Approach: Early concepts of matter and their evolution.
  • States of Matter: Solids, liquids, and gases. Intermolecular forces, types of gases.
  • Laws of Chemical Combination: Laws like the Law of Definite Proportions, the Law of Multiple Proportions.
  • Dimensional Analysis: Units of measurement and their conversions.
  • Mole Concept: Molar mass, Avogadro’s number, empirical and molecular formula.
  • Limiting Reagent: Concept and applications in reactions.
States of Matter
  • Gases: Ideal gas laws, Dalton’s law, Kinetic molecular theory, Maxwell-Boltzmann distribution.
  • Liquids: Properties, surface tension, viscosity, and molecular forces.
  • Solids: Crystal structures, unit cells, Bragg’s law, and the band theory.
  • Deviations from Ideal Behavior: Van der Waals equation and its applications.
Structure of an Atom
  • Classical Theory of Atom: Early atomic models (Dalton, Thomson, Rutherford, Bohr).
  • Quantum Theory: de Broglie’s hypothesis, Heisenberg’s uncertainty principle.
  • Schrödinger’s Equation: Wave functions, probability distribution.
  • Quantum Numbers: Principal, angular momentum, magnetic, and spin quantum numbers.
  • Pauli’s Exclusion Principle and Aufbau Principle.
Equilibrium
  • Chemical Equilibrium: Law of mass action, equilibrium constant, Le Chatelier’s principle.
  • Ionic Equilibrium: Buffer solutions, Ostwald’s dilution law, acid-base equilibria.
  • Titration Methods: Conductometric titration, pH determination.
  • Solubility Product: Applications in qualitative analysis.
Surface Chemistry
  • adsorption, adsorption isotherms (Freundlich, Langmuir).
  • Catalysis: Types of catalysis, mechanism, and theories.
  • Colloids: Preparation and properties, electrophoresis, Hardy-Schulze law, and colloidal systems.
Chemical Kinetics
  • Reaction Rates: Molecularity, order of reaction, and factors affecting reaction rates.
  • Fast Reactions: Luminescence and energy transfer processes.
  • Reaction Mechanisms: Simple and complex reactions, rate-determining step.
Redox Reactions and Electrochemistry
  • Redox Reactions: Oxidation, reduction, and their applications in everyday reactions.
  • Electrochemical Cells: Electrolytic and galvanic cells, electrode potential, and the Nernst equation.
  • Conductivity: Molar conductivity, Kohlrausch’s law, resistance, and resistivity.
Solutions
  • Types of Solutions: Saturated, unsaturated, supersaturated solutions.
  • Concentration: Molarity, molality, normality, and molar fraction.
  • Colligative Properties: Boiling point elevation, freezing point depression, osmotic pressure, and abnormal molecular masses.
Chemical Bonding and Molecular Structure
  • Ionic and Covalent Bonds: Properties and types of bonds.
  • Coordinate Bond: Definition and examples.
  • Hybridization: sp, sp², sp³, sp³d, sp³d² hybridizations.
  • Molecular Orbital Theory: LCAO (Linear Combination of Atomic Orbitals).
  • Resonance: Delocalization of electrons in molecules.
  • Hydrogen Bonding: Types and importance in molecular interactions.
Thermodynamics
  • Laws of Thermodynamics: First law, second law, and third law of thermodynamics.
  • Enthalpy and Entropy: Heat content, spontaneity of reactions.
  • Free Energy: Helmholtz and Gibbs free energy.
  • Thermodynamics of Electrochemical Cells: Applications in galvanic and electrolytic processes.
Classification of Elements and Periodicity in Properties
  • Periodic Table: Development and periodic law.
  • Periodic Trends: Ionization enthalpy, electron gain enthalpy, electronegativity, atomic radii, ionic radii.
  • s, p, d, f Block Elements: Characteristics and trends across groups and periods.
Hydrogen
  • Occurrence and Isotopes: Hydrogen in the periodic table, isotopes of hydrogen.
  • Preparation: Methods of producing hydrogen.
  • Hydrides: Types and their applications.
  • Water: Hard and soft water, heavy water.
  • Hydrogen as Fuel: Hydrogen economy and its potential in energy production.
General Principles and Processes of Isolation of Elements
  • Extraction Techniques: Oxidation and reduction methods for extracting Al, Cu, Zn, and Fe.
  • s-Block Elements: Properties of alkali and alkaline earth metals, trends, and reactivity.
p-Block Elements
  • Physical and Chemical Properties: Elements of groups 13-18.
  • Preparation and Uses: Boron compounds, silicates, and nitrogen-based compounds like ammonia, nitric acid.
  • Allotropes and Hydrides: Phosphorus, sulfur, halogens, and noble gases.
d and f Block Elements
  • Transition Metals: Properties of first-row transition metals.
  • Complex Compounds: Werner’s theory, bonding, isomerism, and applications of coordination compounds.
  • Lanthanides and Actinides: Properties and uses of rare earth elements.
Coordination Compounds and Organometallics
  • Coordination Chemistry: Definition, nomenclature, types of ligands.
  • Bonding and Structure: Isomerism, color, and magnetic properties of coordination compounds.
  • Organometallic Compounds: Definition, examples, and bonding.
Organic Chemistry: Some Basic Principles and Techniques
  • Classification of Organic Compounds: Types and Nomenclature.
  • Hybridization and Bonding: sp, sp², sp³ hybridizations.
  • Reaction Mechanism: Types of attacking species, electron displacement in covalent bonds.
Hydrocarbons
  • Alkanes: Properties, reactions, and conformational analysis.
  • Alkenes and Alkynes: Structure, properties, and reactions of double and triple bonds.
  • Aromatic Hydrocarbons: Benzene structure, resonance, and electrophilic substitution reactions.
Environmental Chemistry
  • Pollution: Air pollution, water pollution, soil pollution.
  • Greenhouse Effect: Global warming, ozone depletion, and smog.
  • Water Treatment: Methods for controlling water pollution, chemical aspects of water purification.
Haloalkanes and Haloarenes
  • Preparation and Properties: Methods to synthesize haloalkanes and haloarenes.
  • Reaction Mechanisms: SN1, SN2, and elimination reactions.
  • Polyhalogen Compounds: Preparation, properties, and applications.
Alcohols, Phenols, and Ethers
  • Alcohols: Types, preparation, properties, and uses.
  • Phenols: Differentiation between alcohols and phenols.
  • Ethers: Methods of preparation and properties.
Aldehydes, Ketones, and Carboxylic Acids
  • Carbonyl Group: Structure, preparation, properties, and reactions of aldehydes and ketones.
  • Carboxylic Acids: Methods of preparation, properties, and uses.
Amines
  • Classification of Amines: Primary, secondary, and tertiary amines.
  • Properties: Physical and chemical characteristics.
  • Reaction Mechanisms: Tests to distinguish between different types of amines.
Polymers
  • Polymerization: Types of polymerization, addition and condensation methods.
  • Bio-degradable Polymers: Example, advantages, and applications.
Biomolecules
  • Carbohydrates: Structure and types of sugars, disaccharides, polysaccharides.
  • Proteins: Amino acids, structure of proteins, enzyme functions.
  • Nucleic Acids: DNA and RNA structure, replication, transcription, translation.
Chemistry in Everyday Life
  • Drugs and Medicines: Designing a drug, drug metabolism, classifications, and targets.
  • Food Chemistry: Food preservatives, artificial sweeteners, soaps, and detergents.
  • Environmental Chemistry: Chemicals in food, edible colors, antioxidants.

KVS PGT Chemistry Syllabus PDF

Candidates can access the comprehensive KVS PGT Chemistry Syllabus in PDF format via the download link below. This document provides a topic-wise breakdown, enabling you to organize your studies and track progress efficiently. We recommend saving this file as a primary reference throughout your exam preparation journey.

Download Official KVS PGT Chemistry Syllabus PDF

KVS PGT Chemistry Syllabus 2026: FAQs

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