JEE Chemistry Syllabus (Sr. No-Unit Number-Unit Name-Topic)

Sr. No-Unit Number-Unit Name-Topic
1-Unit 1- Some Basic Concepts of Chemistry-Matter and its nature
2-Unit 1- Some Basic Concepts of Chemistry-Dalton’s atomic theory
3-Unit 1- Some Basic Concepts of Chemistry-Concept of atom, molecule, element and compound
4-Unit 1- Some Basic Concepts of Chemistry-Laws of chemical combination
5-Unit 1- Some Basic Concepts of Chemistry-Atomic and molecular masses
6-Unit 1- Some Basic Concepts of Chemistry-Mole concept and molar mass
7-Unit 1- Some Basic Concepts of Chemistry-Percentage composition
8-Unit 1- Some Basic Concepts of Chemistry-Empirical and molecular formulae
9-Unit 1- Some Basic Concepts of Chemistry-Chemical equations and stoichiometry
10-Unit 2- Atomic Structure-Nature of electromagnetic radiation
11-Unit 2- Atomic Structure-Photoelectric effect
12-Unit 2- Atomic Structure-Spectrum of the hydrogen atom
13-Unit 2- Atomic Structure-Bohr model of hydrogen atom – postulates
14-Unit 2- Atomic Structure-Derivation for energy of electron and radii
15-Unit 2- Atomic Structure-Limitations of Bohr’s model
16-Unit 2- Atomic Structure-Dual nature of matter – de Broglie relation
17-Unit 2- Atomic Structure-Heisenberg uncertainty principle
18-Unit 2- Atomic Structure-Quantum mechanical model of atom
19-Unit 2- Atomic Structure-Atomic orbitals as one-electron wave functions
20-Unit 2- Atomic Structure-Variation of Ψ and Ψ² with r for 1s and 2s orbitals
21-Unit 2- Atomic Structure-Quantum numbers and significance
22-Unit 2- Atomic Structure-Shapes of s, p and d orbitals
23-Unit 2- Atomic Structure-Electron spin and spin quantum number
24-Unit 2- Atomic Structure-Rules for filling electrons – Aufbau, Pauli, Hund’s rule
25-Unit 2- Atomic Structure-Electronic configuration of elements
26-Unit 2- Atomic Structure-Stability of half-filled and fully filled orbitals
27-Unit 3- Chemical Bonding and Molecular Structure-Kossel-Lewis approach to chemical bond formation
28-Unit 3- Chemical Bonding and Molecular Structure-Ionic bond – formation and factors
29-Unit 3- Chemical Bonding and Molecular Structure-Lattice enthalpy calculation
30-Unit 3- Chemical Bonding and Molecular Structure-Covalent bond – electronegativity and Fajan’s rule
31-Unit 3- Chemical Bonding and Molecular Structure-Dipole moment
32-Unit 3- Chemical Bonding and Molecular Structure-VSEPR theory and molecular shapes
33-Unit 3- Chemical Bonding and Molecular Structure-Valence bond theory
34-Unit 3- Chemical Bonding and Molecular Structure-Hybridization involving s, p, d orbitals
35-Unit 3- Chemical Bonding and Molecular Structure-Resonance
36-Unit 3- Chemical Bonding and Molecular Structure-Molecular Orbital Theory (MOT)
37-Unit 3- Chemical Bonding and Molecular Structure-Bond order, bond length, bond energy
38-Unit 3- Chemical Bonding and Molecular Structure-Metallic bonding
39-Unit 3- Chemical Bonding and Molecular Structure-Hydrogen bonding and applications
40-Unit 4- Chemical Thermodynamics-System and surroundings
41-Unit 4- Chemical Thermodynamics-Extensive and intensive properties
42-Unit 4- Chemical Thermodynamics-State functions and entropy
43-Unit 4- Chemical Thermodynamics-Types of processes
44-Unit 4- Chemical Thermodynamics-First law of thermodynamics
45-Unit 4- Chemical Thermodynamics-Work, heat, internal energy, enthalpy
46-Unit 4- Chemical Thermodynamics-Heat capacity, molar heat capacity
47-Unit 4- Chemical Thermodynamics-Hess’s law of constant heat summation
48-Unit 4- Chemical Thermodynamics-Enthalpies of bond dissociation, combustion, formation
49-Unit 4- Chemical Thermodynamics-Enthalpies of atomization, sublimation, hydration, ionization, solution
50-Unit 4- Chemical Thermodynamics-Second law of thermodynamics
51-Unit 4- Chemical Thermodynamics-Spontaneity of processes
52-Unit 4- Chemical Thermodynamics-Entropy change of universe (ΔS)
53-Unit 4- Chemical Thermodynamics-Gibbs free energy (ΔG) and spontaneity
54-Unit 4- Chemical Thermodynamics-Standard Gibbs energy change (ΔG°) and equilibrium constant
55-Unit 5- Solutions-Concentration methods – molality, molarity, mole fraction, percentage
56-Unit 5- Solutions-Vapour pressure of solutions and Raoult’s Law
57-Unit 5- Solutions-Ideal and non-ideal solutions
58-Unit 5- Solutions-Vapour pressure-composition plots
59-Unit 5- Solutions-Colligative properties
60-Unit 5- Solutions-Relative lowering of vapour pressure
61-Unit 5- Solutions-Depression of freezing point
62-Unit 5- Solutions-Elevation of boiling point
63-Unit 5- Solutions-Osmotic pressure
64-Unit 5- Solutions-Determination of molecular mass
65-Unit 5- Solutions-Abnormal molar mass and van’t Hoff factor
66-Unit 6- Equilibrium-Meaning and concept of dynamic equilibrium
67-Unit 6- Equilibrium-Physical equilibria – solid-liquid, liquid-gas, gas-gas, solid-gas
68-Unit 6- Equilibrium-Henry’s law
69-Unit 6- Equilibrium-Law of chemical equilibrium
70-Unit 6- Equilibrium-Equilibrium constants Kp and Kc
71-Unit 6- Equilibrium-Relation of ΔG and ΔG° with equilibrium
72-Unit 6- Equilibrium-Factors affecting equilibrium – concentration, pressure, temperature, catalyst
73-Unit 6- Equilibrium-Le Chatelier’s principle
74-Unit 6- Equilibrium-Ionic equilibrium – strong and weak electrolytes
75-Unit 6- Equilibrium-Ionization of electrolytes
76-Unit 6- Equilibrium-Concepts of acids and bases – Arrhenius, Bronsted, Lewis
77-Unit 6- Equilibrium-Ionization constants
78-Unit 6- Equilibrium-Ionization of water and pH scale
79-Unit 6- Equilibrium-Common ion effect
80-Unit 6- Equilibrium-Hydrolysis of salts
81-Unit 6- Equilibrium-Solubility product (Ksp)
82-Unit 6- Equilibrium-Buffer solutions
83-Unit 7- Redox Reactions and Electrochemistry-Concepts of oxidation and reduction
84-Unit 7- Redox Reactions and Electrochemistry-Oxidation number and rules
85-Unit 7- Redox Reactions and Electrochemistry-Balancing of redox reactions
86-Unit 7- Redox Reactions and Electrochemistry-Electrolytic and metallic conduction
87-Unit 7- Redox Reactions and Electrochemistry-Conductance in electrolytic solutions
88-Unit 7- Redox Reactions and Electrochemistry-Molar conductivity and variation with concentration
89-Unit 7- Redox Reactions and Electrochemistry-Kohlrausch’s law and applications
90-Unit 7- Redox Reactions and Electrochemistry-Electrolytic and galvanic cells
91-Unit 7- Redox Reactions and Electrochemistry-Electrodes and electrode potentials
92-Unit 7- Redox Reactions and Electrochemistry-Standard electrode potential
93-Unit 7- Redox Reactions and Electrochemistry-Cell reactions and EMF of galvanic cell
94-Unit 7- Redox Reactions and Electrochemistry-Nernst equation and applications
95-Unit 7- Redox Reactions and Electrochemistry-Relationship between cell potential and Gibbs energy
96-Unit 7- Redox Reactions and Electrochemistry-Dry cell and lead accumulator
97-Unit 7- Redox Reactions and Electrochemistry-Fuel cells
98-Unit 8- Chemical Kinetics-Rate of reaction
99-Unit 8- Chemical Kinetics-Factors affecting reaction rate
100-Unit 8- Chemical Kinetics-Elementary and complex reactions
101-Unit 8- Chemical Kinetics-Order and molecularity
102-Unit 8- Chemical Kinetics-Rate law and rate constant
103-Unit 8- Chemical Kinetics-Zero order reactions
104-Unit 8- Chemical Kinetics-First order reactions
105-Unit 8- Chemical Kinetics-Half-life of reactions
106-Unit 8- Chemical Kinetics-Effect of temperature on rate
107-Unit 8- Chemical Kinetics-Arrhenius equation and activation energy
108-Unit 8- Chemical Kinetics-Collision theory of bimolecular reactions
109-Unit 9- Classification of Elements and Periodicity-Modern periodic law
110-Unit 9- Classification of Elements and Periodicity-Long form of periodic table
111-Unit 9- Classification of Elements and Periodicity-s, p, d, f block elements
112-Unit 9- Classification of Elements and Periodicity-Periodic trends – atomic and ionic radii
113-Unit 9- Classification of Elements and Periodicity-Ionization enthalpy
114-Unit 9- Classification of Elements and Periodicity-Electron gain enthalpy
115-Unit 9- Classification of Elements and Periodicity-Electronegativity
116-Unit 9- Classification of Elements and Periodicity-Valency and oxidation states
117-Unit 9- Classification of Elements and Periodicity-Chemical reactivity trends
118-Unit 10- p-Block Elements-Group 13 elements – general trends
119-Unit 10- p-Block Elements-Group 14 elements – general trends
120-Unit 10- p-Block Elements-Group 15 elements – general trends
121-Unit 10- p-Block Elements-Group 16 elements – general trends
122-Unit 10- p-Block Elements-Group 17 elements – general trends
123-Unit 10- p-Block Elements-Group 18 elements – general trends
124-Unit 10- p-Block Elements-Unique behaviour of first element in each group
125-Unit 11- d- and f-Block Elements-Transition elements – general introduction
126-Unit 11- d- and f-Block Elements-Electronic configuration and occurrence
127-Unit 11- d- and f-Block Elements-General properties of transition elements
128-Unit 11- d- and f-Block Elements-Physical properties
129-Unit 11- d- and f-Block Elements-Ionization enthalpy
130-Unit 11- d- and f-Block Elements-Oxidation states
131-Unit 11- d- and f-Block Elements-Atomic radii
132-Unit 11- d- and f-Block Elements-Colour and magnetic properties
133-Unit 11- d- and f-Block Elements-Catalytic behaviour
134-Unit 11- d- and f-Block Elements-Complex formation
135-Unit 11- d- and f-Block Elements-Interstitial compounds
136-Unit 11- d- and f-Block Elements-Alloy formation
137-Unit 11- d- and f-Block Elements-Preparation, properties, uses of K2Cr2O7 and KMnO4
138-Unit 11- d- and f-Block Elements-Lanthanides – electronic configuration and contraction
139-Unit 11- d- and f-Block Elements-Actinides – electronic configuration and oxidation states
140-Unit 12- Coordination Compounds-Werner’s theory
141-Unit 12- Coordination Compounds-Ligands and coordination number
142-Unit 12- Coordination Compounds-Denticity and chelation
143-Unit 12- Coordination Compounds-IUPAC nomenclature
144-Unit 12- Coordination Compounds-Isomerism
145-Unit 12- Coordination Compounds-Valence bond theory
146-Unit 12- Coordination Compounds-Crystal field theory – basics
147-Unit 12- Coordination Compounds-Colour and magnetic properties
148-Unit 12- Coordination Compounds-Importance of coordination compounds
149-Unit 13- Purification and Characterisation of Organic Compounds-Purification methods – crystallization, sublimation, distillation, extraction, chromatography
150-Unit 13- Purification and Characterisation of Organic Compounds-Detection of elements – N, S, P, halogens
151-Unit 13- Purification and Characterisation of Organic Compounds-Quantitative analysis – C, H, N, halogens, S, P
152-Unit 13- Purification and Characterisation of Organic Compounds-Empirical and molecular formula calculations
153-Unit 14- Some Basic Principles of Organic Chemistry-Tetravalency of carbon
154-Unit 14- Some Basic Principles of Organic Chemistry-Hybridization and shapes of molecules
155-Unit 14- Some Basic Principles of Organic Chemistry-Classification of organic compounds
156-Unit 14- Some Basic Principles of Organic Chemistry-Functional groups
157-Unit 14- Some Basic Principles of Organic Chemistry-Homologous series
158-Unit 14- Some Basic Principles of Organic Chemistry-Isomerism – structural and stereoisomerism
159-Unit 14- Some Basic Principles of Organic Chemistry-IUPAC and trivial nomenclature
160-Unit 14- Some Basic Principles of Organic Chemistry-Covalent bond fission – homolytic and heterolytic
161-Unit 14- Some Basic Principles of Organic Chemistry-Reaction intermediates – free radicals, carbocations, carbanions
162-Unit 14- Some Basic Principles of Organic Chemistry-Electronic effects – inductive, electromeric, resonance, hyperconjugation
163-Unit 14- Some Basic Principles of Organic Chemistry-Types of organic reactions – substitution, addition, elimination, rearrangement
164-Unit 15- Hydrocarbons-Classification and isomerism
165-Unit 15- Hydrocarbons-IUPAC nomenclature
166-Unit 15- Hydrocarbons-Preparation and properties of alkanes
167-Unit 15- Hydrocarbons-Conformations of ethane – sawhorse and Newman projections
168-Unit 15- Hydrocarbons-Halogenation of alkanes
169-Unit 15- Hydrocarbons-Alkenes – geometrical isomerism
170-Unit 15- Hydrocarbons-Electrophilic addition reactions
171-Unit 15- Hydrocarbons-Markovnikov and peroxide effect
172-Unit 15- Hydrocarbons-Ozonolysis
173-Unit 15- Hydrocarbons-Polymerization
174-Unit 15- Hydrocarbons-Alkynes – acidic character and addition reactions
175-Unit 15- Hydrocarbons-Aromatic hydrocarbons – benzene structure and aromaticity
176-Unit 15- Hydrocarbons-Electrophilic substitution in benzene
177-Unit 15- Hydrocarbons-Directive influence of substituents
178-Unit 16- Organic Compounds containing Halogens-Preparation and properties
179-Unit 16- Organic Compounds containing Halogens-C-X bond nature
180-Unit 16- Organic Compounds containing Halogens-Nucleophilic substitution mechanisms
181-Unit 16- Organic Compounds containing Halogens-Uses of halogen compounds
182-Unit 16- Organic Compounds containing Halogens-Environmental effects – chloroform, iodoform, freons, DDT
183-Unit 17- Organic Compounds containing Oxygen-Alcohols – classification, identification, dehydration mechanism
184-Unit 17- Organic Compounds containing Oxygen-Phenols – acidic nature, electrophilic substitution, Reimer-Tiemann reaction
185-Unit 17- Organic Compounds containing Oxygen-Ethers – structure and reactions
186-Unit 17- Organic Compounds containing Oxygen-Aldehydes and ketones – reactivity and nucleophilic addition
187-Unit 17- Organic Compounds containing Oxygen-Grignard reagent reactions
188-Unit 17- Organic Compounds containing Oxygen-Oxidation and reduction reactions
189-Unit 17- Organic Compounds containing Oxygen-Aldol condensation
190-Unit 17- Organic Compounds containing Oxygen-Cannizzaro reaction
191-Unit 17- Organic Compounds containing Oxygen-Haloform reaction
192-Unit 17- Organic Compounds containing Oxygen-Carboxylic acids – acidic strength and factors
193-Unit 18- Organic Compounds containing Nitrogen-Amines – nomenclature, classification, structure
194-Unit 18- Organic Compounds containing Nitrogen-Basic character of amines
195-Unit 18- Organic Compounds containing Nitrogen-Distinction of primary, secondary, tertiary amines
196-Unit 18- Organic Compounds containing Nitrogen-Diazonium salts and their importance
197-Unit 19- Biomolecules-Carbohydrates – classification, glucose, fructose, sucrose, lactose, maltose
198-Unit 19- Biomolecules-Proteins – amino acids, peptide bond, levels of structure, denaturation
199-Unit 19- Biomolecules-Enzymes
200-Unit 19- Biomolecules-Vitamins – classification and functions
201-Unit 19- Biomolecules-Nucleic acids – DNA, RNA structure and functions
202-Unit 19- Biomolecules-Hormones – general introduction
203-Unit 20- Principles Related to Practical Chemistry-Detection of extra elements – N, S, halogens
204-Unit 20- Principles Related to Practical Chemistry-Detection of functional groups – OH, CO, COOH, NH2
205-Unit 20- Principles Related to Practical Chemistry-Preparation of inorganic compounds – Mohr’s salt, potash alum
206-Unit 20- Principles Related to Practical Chemistry-Preparation of organic compounds – acetanilide, p-nitro acetanilide, aniline yellow, iodoform
207-Unit 20- Principles Related to Practical Chemistry-Titrimetric analysis – acid-base, redox (oxalic acid vs KMnO4, Mohr’s salt vs KMnO4)
208-Unit 20- Principles Related to Practical Chemistry-Salt analysis – cations (Pb2+, Cu2+, Al3+, Fe3+, Zn2+, Ni2+, Ca2+, Ba2+, Mg2+, NH4+)
209-Unit 20- Principles Related to Practical Chemistry-Salt analysis – anions (CO3 2-, S2-, SO4 2-, NO3-, NO2-, Cl-, Br-, I-)
210-Unit 20- Principles Related to Practical Chemistry-Enthalpy experiments – solution of CuSO4, neutralization
211-Unit 20- Principles Related to Practical Chemistry-Preparation of sols – lyophilic and lyophobic
212-Unit 20- Principles Related to Practical Chemistry-Kinetics study – iodide with H2O2 reaction