UGC NET Bathinda Chemistry subject Syllabus :IIT JAM exam

Physical Chemistry

Basic Mathematics
Differential equations
Vectors
Matrices

Atomic Structure
Bohr’s theory of hydrogen atom
Hund’s rule
Pauli’s exclusion principle
Quantum numbers
Schrödinger’s wave equation
Shapes of orbitals
Uncertainty principles
Wave-particle duality

Theory of Gases
Kinetic theory of gases
MaxwellBoltzmann distribution law
Equipartition of energy

Chemical Thermodynamics
Chemical and Phase Equilibrium
Entropy
First law and its application to ideal and non ideal gases
Hydrolysis
Ionic equilibrium in solutions
Law of mass action
pH and buffer solutions
Reversible and irreversible process
Thermo-chemistry

Electrochemistry
Concentration cells
Conductance
EMF and Free energy
Galvanic cells
Polarography
Transport number

Chemical Kinetics
Arrhenius equation
Collision theory
Theory of absolute reaction rate
Chain reactions
Enzyme kinetics
Catalysis

Organic Chemistry 
Basic Concepts in Organic Chemistry
Acetoacetic and malonic ester chemistry
Aliphatic nucleophilic substitution and elimination reactions
Aromaticity
Beckmann rearrangement
benzoin condensation
Cannizzaro reaction
Claisen condensation
Claisen rearrangement
Diels-Alder reactions
Etherification and ester hydrolysis
Functional group interconversions
Furans
Grignard reagents
Heterocyclic CY
Huckel’s rule
Identification of functional groups by chemical tests
Isomerism
Mechanism and synthetic applications of electrophilic aromatic substitution
Mechanism of aldol condensation
Optical isomerism
Organic Reaction Mechanism and Synthetic Applications
Perkin reaction
Pyrrols and pyridines
Qualitative Organic Analysis
Stereochemistry
Structural problems using chemical reactions
Thiophenes
Wagner-Meerwein rearrangement
Wittig Reactions

Inorganic Chemistry 
Acid-base
Analytical CY
Applications of isotopes
Characteristics of 3d elements
Chemical Bonding and Shapes of Compounds
Chemistry with emphasis on group relationship
Color and magnetic properties of metal complexes
Coordination complexes
EDTA and precipitation reactions
Hybridization
Ionic solids
Lattice energy
Ligands with back bonding capabilities
Main Group Elements (s and p blocks)
Molecular orbital theory approaches
Nuclear reactions
Oxidation-reduction
Oxide, hydroxide and salts of first row metals
Periodic classification of elements
Periodic Table
Principles of qualitative and quantitative analysis
Radioactivity
Structure of electron deficient compounds (of main group elements )
Structure of NaCl, CsCl, diamond and graphite
Transition Metals (d block)
Types of bonding
VB and Crystal Field theoretical approaches for structure
VSEPR theory and shapes of molecules