This course is designed for JEE/NEET students.
Course Curriculum

For JEE Students

Pattern of JEE(Main) & Chapterwise Breakup of Chemistry


For NEET Students

Pattern of NEET & Chapterwise Breakup of Chemistry


Some Basic Concepts of Chemistry

JEE/NEET Class 01: Laws of Chemical Combinations

Some Basic Concepts of Chemistry: DPP – 01
 JEE/NEET Class 02: Mole Concept, Average Atomic Mass, Avogadro’s Hypothesis and AMU

Some Basic Concepts of Chemistry: DPP – 02
 JEE/NEET Class 03: Practice on Empirical and Molecular Formula

Some Basic Concepts of Chemistry: DPP – 03
 JEE/NEET Class 04: Practice on Stoichiometry and Limiting Reagent

Some Basic Concepts of Chemistry: DPP – 04
 JEE/NEET Class 05: Practice on Concentration terms

Some Basic Concepts of Chemistry: DPP – 05
 JEE/NEET Class 06: Applications of Equivalent Weight and Practice Questions

Some Basic Concepts of Chemistry: DPP – 06

Basic MCQ’s (NCERT at Your Finger Tips) – Worksheet

Previous Years Questions – JEE

Previous Years Questions – NEET


Structure of Atom

Discovery of Fundamental Particles and Atomic Models

Radioactivity, Moseley X ray Experiment, Definition Related to Atomic Species

JEE/NEET Class 01: Atomic Models and Terms Related to Atomic Species

Nuclear Stability, Dual Nature of Electromagnetic Radiation, Maxwell Wave Theory

Applications and Drawbacks of Wave Theory, Planck’s Quantum theory

Black Body Radiation and Photoelectric Effect

JEE/NEET Class 02: Practice Questions on Wave & Particle Theory & Photoelectric Effect (Part – 01)
 JEE/NEET Class 02: Practice Questions on Wave & Particle Theory & Photoelectric Effect (Part – 02)

Structure of Atom: DPP – 01

Spectrum, Emission and Absorption Spectra
 Hydrogen spectrum and various types of spectral series

Number of spectral lines, concept of limiting line and Bohr’s angular momentum theory
 Calculation of energy and velocity of electron, radius of orbit and limitations of bohr’s theory
 JEE/NEET Class 03: Bohr spectrum (Part – 01)
 JEE/NEET Class 03: Bohr spectrum (Part – 02)
 JEE/NEET Class 03: Bohr spectrum (Part – 03)

Structure of Atom: DPP – 02

Debroglie Principle and Heisenberg Uncertainity Principle

JEE/NEETSECTION D(Part1)(De Broglie and Heisenberg uncertainty principle)

JEE/NEETSECTION D(Part2)(De broglie and Heisenberg uncertainty principle)

Structure of Atom: DPP – 03
 Schrodinger wave equation and Quantum numbersPart 1
 Quantum numbersPart 2

Shapes of orbitals, nodes and nodal planes.

Aufbau rule and electronic configuration.

Pauli’s exclusion principle, Hund’s rule and stability of half filled and full filled orbitals.

Radial distribution curves.

JEE/NEET practice questions on quantum numbers and rules(Part1)
 JEE/NEET practice questions on quantum numbers and rules(Part2)

Structure of Atom: DPP – 04


Periodic classification of elements and periodicity

Moseley periodic law, nomenclature of elements with atomic number greater than 100.
 Prediction of block, group and period of an element.

DPP01

JEE/NEET DPP1(Part1) discussion(Q.1Q.27)

JEE/NEET DPP1(Part2) discussion(Q.28 onwards)

Basics of periodic table

Types of radii, calculation of radii

Trends in atomic and ionic radii for different cases

Factors affecting atomic and ionic radii
 Ionisation energy/Ionisation potential

Factors affecting Ionisation Energy

DPP02

DPP2(Part1) discussion(Q.1Q.20)

DPP2(Part2) discussion(Q.21Q.40)

DPP2(Part3) discussion(Q.41Q.58)
 Electron gain enthalpy and electron affinity

Factors affecting electron affinity

Electronegativity and its calculation on different scales.

Factors affecting electronegativity.

Applications of electronegativity.

DPP03

DPP3 (Part1) discussion(Q.1Q.21).

DPP3 (Part2) discussion(Q.22Q.42).

Miscellaneous trends, typical elements and diagonal relationship.

DPP04

DPP4 discussion.


Chemical bonding and molecular structures.

KosselLewis approach and types of bonds.

Characteristics of ionic and covalent compounds, bond pair, lone pair & limitations of octet rule.

Rules for writing lewis dot structures, formal charge.

DPP01

DPP1 discussion.

Dipole moment and its applications.

DPP2

DPP2(Part1) discussion (Q.1Q.18).

DPP2(Part2) discussion(Q.19Q.36).

Fajan rule.

DPP3

DPP3 discussion.

Resonance & resonating structures.

Examples of resonance.

Calculation of formal charge & bond order of compounds showing resonance & stability of R.S.

VSEPR theory Part 1.

VSEPR theoryPart 2.

VBT, orbital overlap concept and types of covalent bonds.

DPP4

DPP4 discussion.

Hybridisation and formation of sigma and pie bonds in ethane, ethene and ethyne.

Shape, geometry and hybridisation of different compounds.

Short trick to find out hybridisation and isostructural species.

Some important common names, structures of compounds containing multiple central atoms.

Limitations of VBT and hybridisation.

Bond angle and relation between bond angle and %s.

pπdπ back bonding, exceptional hybridisation and number of pπpπ and pπdπ bonds.

Molecular orbital theory(MOT).

Practice questions on MOT.

DPP5

DPP5 discussion.

Applications of MOT.

DPP6

DPP6 discussion.

Hydrogen bonding and its types.

Consequences of H bonding.

DPP7

DPP7 discussion.


States of Matter

Types of Intermolecular Forces

Thermal Energy v/s Molecular Interactions

Units of pressure, volume and temperature.

Gas laws Part 1.

Gas laws Part 2.

Combined gas equation, ideal gas equation, relation between pressure and density of a gas.

Practice questions on gas laws and ideal gas equation.

Dalton’s law of partial pressure and its applications.

DPP1

DPP1(Part1) discussion.

DPP1(Part2) discussion.
