This course is designed for JEE/NEET students.
Course Curriculum
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For JEE Students
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Pattern of JEE(Main) & Chapterwise Breakup of Chemistry
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For NEET Students
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Pattern of NEET & Chapterwise Breakup of Chemistry
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Some Basic Concepts of Chemistry
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JEE/NEET Class 01: Laws of Chemical Combinations
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Some Basic Concepts of Chemistry: DPP – 01
- JEE/NEET Class 02: Mole Concept, Average Atomic Mass, Avogadro’s Hypothesis and AMU
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Some Basic Concepts of Chemistry: DPP – 02
- JEE/NEET Class 03: Practice on Empirical and Molecular Formula
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Some Basic Concepts of Chemistry: DPP – 03
- JEE/NEET Class 04: Practice on Stoichiometry and Limiting Reagent
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Some Basic Concepts of Chemistry: DPP – 04
- JEE/NEET Class 05: Practice on Concentration terms
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Some Basic Concepts of Chemistry: DPP – 05
- JEE/NEET Class 06: Applications of Equivalent Weight and Practice Questions
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Some Basic Concepts of Chemistry: DPP – 06
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Basic MCQ’s (NCERT at Your Finger Tips) – Worksheet
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Previous Years Questions – JEE
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Previous Years Questions – NEET
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Structure of Atom
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Discovery of Fundamental Particles and Atomic Models
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Radioactivity, Moseley X ray Experiment, Definition Related to Atomic Species
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JEE/NEET Class 01: Atomic Models and Terms Related to Atomic Species
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Nuclear Stability, Dual Nature of Electromagnetic Radiation, Maxwell Wave Theory
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Applications and Drawbacks of Wave Theory, Planck’s Quantum theory
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Black Body Radiation and Photoelectric Effect
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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)
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Structure of Atom: DPP – 01
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Spectrum, Emission and Absorption Spectra
- Hydrogen spectrum and various types of spectral series
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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)
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Structure of Atom: DPP – 02
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De-broglie Principle and Heisenberg Uncertainity Principle
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JEE/NEET-SECTION D(Part-1)(De Broglie and Heisenberg uncertainty principle)
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JEE/NEET-SECTION D(Part-2)(De broglie and Heisenberg uncertainty principle)
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Structure of Atom: DPP – 03
- Schrodinger wave equation and Quantum numbers-Part 1
- Quantum numbers-Part 2
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Shapes of orbitals, nodes and nodal planes.
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Aufbau rule and electronic configuration.
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Pauli’s exclusion principle, Hund’s rule and stability of half filled and full filled orbitals.
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Radial distribution curves.
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JEE/NEET practice questions on quantum numbers and rules(Part-1)
- JEE/NEET practice questions on quantum numbers and rules(Part-2)
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Structure of Atom: DPP – 04
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Periodic classification of elements and periodicity
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Moseley periodic law, nomenclature of elements with atomic number greater than 100.
- Prediction of block, group and period of an element.
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DPP-01
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JEE/NEET DPP-1(Part-1) discussion(Q.1-Q.27)
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JEE/NEET DPP-1(Part-2) discussion(Q.28 onwards)
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Basics of periodic table
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Types of radii, calculation of radii
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Trends in atomic and ionic radii for different cases
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Factors affecting atomic and ionic radii
- Ionisation energy/Ionisation potential
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Factors affecting Ionisation Energy
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DPP-02
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DPP-2(Part-1) discussion(Q.1-Q.20)
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DPP-2(Part-2) discussion(Q.21-Q.40)
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DPP-2(Part-3) discussion(Q.41-Q.58)
- Electron gain enthalpy and electron affinity
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Factors affecting electron affinity
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Electronegativity and its calculation on different scales.
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Factors affecting electronegativity.
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Applications of electronegativity.
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DPP-03
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DPP-3 (Part-1) discussion(Q.1-Q.21).
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DPP-3 (Part-2) discussion(Q.22-Q.42).
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Miscellaneous trends, typical elements and diagonal relationship.
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DPP-04
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DPP-4 discussion.
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Chemical bonding and molecular structures.
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Kossel-Lewis approach and types of bonds.
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Characteristics of ionic and covalent compounds, bond pair, lone pair & limitations of octet rule.
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Rules for writing lewis dot structures, formal charge.
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DPP-01
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DPP-1 discussion.
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Dipole moment and its applications.
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DPP-2
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DPP-2(Part-1) discussion (Q.1-Q.18).
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DPP-2(Part-2) discussion(Q.19-Q.36).
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Fajan rule.
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DPP-3
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DPP-3 discussion.
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Resonance & resonating structures.
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Examples of resonance.
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Calculation of formal charge & bond order of compounds showing resonance & stability of R.S.
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VSEPR theory- Part 1.
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VSEPR theory-Part 2.
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VBT, orbital overlap concept and types of covalent bonds.
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DPP-4
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DPP-4 discussion.
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Hybridisation and formation of sigma and pie bonds in ethane, ethene and ethyne.
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Shape, geometry and hybridisation of different compounds.
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Short trick to find out hybridisation and isostructural species.
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Some important common names, structures of compounds containing multiple central atoms.
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Limitations of VBT and hybridisation.
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Bond angle and relation between bond angle and %s.
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pπ-dπ back bonding, exceptional hybridisation and number of pπ-pπ and pπ-dπ bonds.
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Molecular orbital theory(MOT).
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Practice questions on MOT.
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DPP-5
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DPP-5 discussion.
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Applications of MOT.
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DPP-6
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DPP-6 discussion.
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Hydrogen bonding and its types.
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Consequences of H bonding.
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DPP-7
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DPP-7 discussion.
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States of Matter
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Types of Intermolecular Forces
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Thermal Energy v/s Molecular Interactions
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Units of pressure, volume and temperature.
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Gas laws- Part 1.
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Gas laws- Part 2.
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Combined gas equation, ideal gas equation, relation between pressure and density of a gas.
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Practice questions on gas laws and ideal gas equation.
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Dalton’s law of partial pressure and its applications.
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Instructors
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