NEET 2025 Chemistry Revised Syllabus PDF

Summary

This document is a syllabus for the NEET UG Chemistry exam, scheduled for 2025. It outlines major topics including physical chemistry, atomic structure, chemical bonding & more. The syllabus includes detailed descriptions of various concepts and units.

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NEET UG Chemistry Syllabus (NMC)

Syllabus for NEET UG Chemistry (NMC)

PHYSICAL CHEMISTRY
UNIT 1: SOME BASIC CONCEPTS IN CHEMISTRY
Matter and its nature, Dalton's atomic theory; Concept of atom, molecule, element,
and compound: Laws of chemical combination; Atomic and molecular masses, mole
concept, molar mass, percentage composition, empirical and molecular formulae:
Chemical equations and stoichiometry.
UNIT 2: ATOMIC STRUCTURE
Nature of electromagnetic radiation, photoelectric effect· Spectrum of the hydrogen
atom. Bohr model of a hydrogen atom - its postulates, derivation of the relations for
the energy of the electron and radii of the different orbits, limitations of Bohr's model;
Dual nature of matter, de Broglie's relationship. Heisenberg uncertainty principle.
Elementary ideas of quantum mechanics, quantum mechanics, the quantum
mechanical model of the atom, its important features. Concept of atomic orbitals as
one-electron wave functions: Variation of Ѱ and Ѱ2 with r for 1s and 2s orbitals;
various quantum numbers (principal, angular momentum, and magnetic quantum
numbers) and their significance; shapes of s, p, and d - orbitals, electron spin and spin
quantum number: Rules for filling electrons in orbitals - Aufbau principle. Pauli's
exclusion principle and Hund's rule, electronic configuration of elements, extra
stability of half-filled and completely filled orbitals.
UNIT 3: CHEMICAL BONDING AND MOLECULAR STRUCTURE
Kossel - Lewis approach to chemical bond formation, the concept of ionic and
covalent bonds.
Ionic Bonding: Formation of ionic bonds, factors affecting the formation of ionic
bonds; calculation of lattice enthalpy.
Covalent Bonding: Concept of electronegativity. Fajan's rule, dipole moment:
Valence Shell Electron Pair Repulsion (VSEPR) theory and shapes of simple
molecules.
Quantum mechanical approach to covalent bonding: Valence bond theory - its
important features. the concept of hybridization involving s, p and d orbitals;
Resonance.

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Molecular Orbital Theory - Its important features. LCAOs, 'types of molecular
orbitals (bonding, antibonding), sigma and pi-bonds, molecular orbital electronic
configurations of homonuclear diatomic molecules, the concept of bond order bond
length, and bond energy.
Elementary idea of metallic bonding. Hydrogen bonding and its applications.
UNIT 4: CHEMICAL THERMODYNAMICS
Fundamentals of thermodynamics: System and surroundings, extensive and intensive
properties, state functions, types of processes.
The first law of thermodynamics - Concept of work, heat internal energy and
enthalpy, heat capacity, molar heat capacity; Hess's law of constant heat summation;
Enthalpies of bond dissociation, combustion, formation, atomization, sublimation,
phase transition, hydration, ionization and solution.
The second law of thermodynamics - Spontaneity of processes; ∆S of the universe
and ∆G of the system as criteria for spontaneity. ∆Gº (Standard Gibbs energy change)
and equilibrium constant.
UNIT 5: SOLUTIONS
Different methods for expressing the concentration of solution - molality, molarity,
mole fraction. percentage (by volume and mass both), the vapour pressure of solutions
and Raoult's Law - Ideal and non-ideal solutions, vapour pressure - composition, plots
for ideal and non-ideal solutions: Colligative properties of dilute solutions - a relative
lowering of vapour pressure, depression of freezing point the elevation of boiling
point and osmotic pressure; Determination of molecular mass using colligative
properties; Abnormal value of molar mass, van’t Hoff factor and its significance.
UNIT 6: EQUILIBRIUM
Meaning of equilibrium, the concept of dynamic equilibrium.
Equilibria involving physical processes: Solid-liquid, liquid - gas and solid-gas
equilibria, Henry's law. General characteristics of equilibrium involving physical
processes.
Equilibrium involving chemical processes: Law of chemical equilibrium,
equilibrium constants (Kp and Kc) and their significance, the significance of ∆G and
∆Gº in chemical equilibrium, factors affecting equilibrium concentration, pressure
temperature, the effect of catalyst; Le Chatelier’s principle.
Ionic equilibrium: Weak and strong electrolytes, ionization of electrolytes, various
concepts of acids and bases (Arrhenius. Bronsted - Lowry and Lewis) and their
ionization, acid-base equilibria (including multistage ionization) and ionization
constants, ionization of water. pH scale, common ion effect, hydrolysis of salts and
pH of their solutions, the solubility of sparingly soluble salts and solubility products,
buffer solutions.

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UNIT 7: REDOX REACTIONS AND ELECTROCHEMISTRY
Electronic concepts of oxidation and reduction, redox reactions, oxidation number,
rules for assigning oxidation number, balancing of redox reactions.
Electrolytic and metallic conduction, conductance in electrolytic solutions, molar
conductivities and their variation with concentration: Kohlrausch's law and its
applications.
Electrochemical cells - Electrolytic and Galvanic cells, different types of electrodes,
electrode potentials including standard electrode potential, half - cell and cell
reactions. emf of a Galvanic cell and its measurement: Nernst equation and its
applications: Relationship between cell potential and Gibbs' energy change: Dry cell
and lead accumulator; Fuel cells.
UNIT 8: CHEMICAL KINETICS
Rate of a chemical reaction, factors affecting the rate of reactions: concentration,
temperature, pressure, and catalyst; elementary and complex reactions order and
molecularity of reactions. rate law, rate constant and its units, differential and integral
forms of zero and first-order reactions, their characteristics and half-lives, the effect of
temperature on the rate of reactions, Arrhenius theory, activation energy and its
calculation, collision theory of bimolecular gaseous reactions (no derivation).

INORGANIC CHEMISTRY
UNIT 9: CLASSIFICATION OF ELEMENTS AND PERIODICITY IN PROPERTIES
Modem periodic law and present form of the periodic table s, p, d and f block
elements, periodic trends in properties of elements atomic and ionic radii. ionization
enthalpy, electron gain enthalpy. valence, oxidation states, and chemical reactivity.
UNIT 10: P- BLOCK ELEMENTS
Group -13 to Group 18 Elements
General Introduction: Electronic configuration and general trends in physical and
chemical properties of elements across the periods and down the groups; unique
behaviour of the first element in each group.
UNIT 11: d - and f- BLOCK ELEMENTS
Transition Elements
General introduction, electronic configuration, occurrence and characteristics, general
trends in properties of the first-row transition elements - physical properties,

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ionization enthalpy oxidation states, atomic radii, colour, catalytic behaviour,
magnetic properties, complex formation, interstitial compounds, alloy formation;
Preparation, properties and uses of K2Cr2O7, and KMnO4.
Inner Transition Elements
Lanthanoids - Electronic configuration, oxidation states, and lanthanoid contraction.
Actinoids - Electronic configuration and oxidation states.
UNIT 12: CO-ORDINATION COMPOUNDS
Introduction to coordination compounds. Werner's theory; ligands, coordination
number, denticity. chelation; IUPAC nomenclature of mononuclear co-ordination
compounds, isomerism; Bonding-Valence bond approach and basic ideas of Crystal
field theory, colour and magnetic properties; Importance of co-ordination compounds
(in qualitative analysis, extraction of metals and in biological systems).

ORGANIC CHEMISTRY
UNIT 13: PURIFICATION AND CHARACTERISATION OF ORGANIC
COMPOUNDS
Purification - Crystallization, sublimation, distillation, differential extraction, and
chromatography - principles and their applications.
Qualitative analysis - Detection of nitrogen, sulphur, phosphorus, and halogens.
Quantitative analysis (basic principles only) - Estimation of carbon, hydrogen,
nitrogen, halogens, sulphur, phosphorus.
Calculations of empirical formulae and molecular formulae: Numerica1 problems in
organic quantitative analysis.
UNIT 14: SOME BASIC PRINCIPLES OF ORGANIC CHEMISTRY
Tetravalency of carbon: Shapes of simple molecules - hybridization (s and p):
Classification of organic compounds based on functional groups: and those containing
halogens, oxygen, nitrogen, and sulphur; Homologous series: Isomerism - structural
and stereoisomerism.
Nomenclature (Trivial and IUPAC)
Covalent bond fission - Homolytic and heterolytic: free radicals, carbocations, and
carbanions; stability of carbocations and free radicals, electrophiles, and nucleophiles.
Electronic displacement in a covalent bond

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- Inductive effect, electromeric effect, resonance, and hyperconjugation.
Common types of organic reactions- Substitution, addition, elimination, and
rearrangement.
UNITS 15: HYDROCARBONS
Classification, isomerism, IUPAC nomenclature, general methods of preparation,
properties, and reactions.
Alkanes - Conformations: Sawhorse and Newman projections (of ethane):
Mechanism of halogenation of alkanes.
Alkenes - Geometrical isomerism: Mechanism of electrophilic addition: addition of
hydrogen, halogens, water, hydrogen halides (Markownikoffs and peroxide effect):
Ozonolysis and polymerization.
Alkynes - Acidic character: Addition of hydrogen, halogens, water, and hydrogen
halides: Polymerization.
Aromatic hydrocarbons - Nomenclature, benzene - structure and aromaticity:
Mechanism of electrophilic substitution: halogenation, nitration.
Friedel - Craft's alkylation and acylation, directive influence of the functional group in
mono- substituted benzene.
UNIT 16: ORGANIC COMPOUNDS CONTAINING HALOGENS
General methods of preparation, properties, and reactions; Nature of C-X bond;
Mechanisms of substitution reactions.
Uses; Environmental effects of chloroform, iodoform freons, and DDT.
UNIT 17: ORGANIC COMPOUNDS CONTAINING OXYGEN
General methods of preparation, properties, reactions, and uses.
ALCOHOLS, PHENOLS, AND ETHERS
Alcohols: Identification of primary, secondary, and tertiary alcohols: mechanism of
dehydration.
Phenols: Acidic nature, electrophilic substitution reactions: halogenation. nitration
and sulphonation. Reimer - Tiemann reaction.
Ethers: Structure.
Aldehyde and Ketones: Nature of carbonyl group; Nucleophilic addition to >C=O
group, relative reactivities of aldehydes and ketones; Important reactions such as -
Nucleophilic addition reactions (addition of HCN. NH3, and its derivatives), Grignard
reagent; oxidation: reduction (Wolf Kishner and Clemmensen); the acidity of α-

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hydrogen. aldol condensation, Cannizzaro reaction. Haloform reaction, Chemical tests
to distinguish between aldehydes and Ketones.
Carboxylic Acids
Acidic strength and factors affecting it.
UNIT 18: ORGANIC COMPOUNDS CONTAINING NITROGEN
General methods of preparation. Properties, reactions, and uses.
Amines: Nomenclature, classification structure, basic character, and identification of
primary, secondary, and tertiary amines and their basic character.
Diazonium Salts: Importance in synthetic organic chemistry.
UNIT 19: BIOMOLECULES
General introduction and importance of biomolecules.
CARBOHYDRATES - Classification; aldoses and ketoses: monosaccharides (glucose
and fructose) and constituent monosaccharides of oligosaccharides (sucrose, lactose,
and maltose).
PROTEINS - Elementary Idea of α-amino acids, peptide bond, polypeptides. Proteins:
primary, secondary, tertiary, and quaternary structure (qualitative idea only),
denaturation of proteins, enzymes.
VITAMINS - Classification and functions.
NUCLEIC ACIDS - Chemical constitution of DNA and RNA.
Biological functions of nucleic acids.
Hormones (General introduction)
UNIT 20: PRINCIPLES RELATED TO PRACTICAL CHEMISTRY
Detection of extra elements (Nitrogen, Sulphur, halogens) in organic compounds;
Detection of the following functional groups; hydroxyl (alcoholic and phenolic),
carbonyl (aldehyde and ketones) carboxyl, and amino groups in organic compounds.
The chemistry involved in the preparation of the following:

Inorganic compounds; Mohr's salt, potash alum.
Organic compounds: Acetanilide, p-nitro acetanilide, aniline yellow, iodoform.
The chemistry involved in the titrimetric exercises = Acids, bases and the use of
indicators, oxalic-acid vs KMnO4. Mohr's salt vs KMnO4
Chemical principles involved in the qualitative salt analysis:

Cations - Pb2+, Cu2+, Al3+, Fe3+, Zn2+, Ni2+, Ca2+, Ba2+, Mg2+, NH4+

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Anions- CO32-, S2-, SO42-, NO3- , NO2-, Cl, Br-. 1- (Insoluble salts excluded).
Chemical principles involved in the following experiments:
1. Enthalpy of solution of CuSÜ4
2. Enthalpy of neutralization of strong acid and strong base.
3. Preparation of lyophilic ai1d lyophobic sols.
4. Kinetic study of the reaction of iodide ions with hydrogen peroxide at room
temperature.

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