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- Chemistry Revision Course (NEET)
Curriculum
- 8 Sections
- 248 Lessons
- 8 Weeks
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- Some Basic Concepts Of Chemistry23
- 1.1Topic: Importance Of Chemistry
- 1.2Topic: Nature Of Matter
- 1.3Topic: Properties Of Matter
- 1.4Topic: Uncertainty In Measurement
- 1.5Topic: Laws Of Chemical Combinations
- 1.6Subtopic: Law Of Conservation of Mass
- 1.7Subtopic: Law of Definite Proportions
- 1.8Subtopic: Law of Multiple Proportions
- 1.9Subtopic: Gay Lussac’s Law of Gaseous Volumes
- 1.10Subtopic: Avogadro’s Law
- 1.11Topic: Dalton’s Atomic Theory
- 1.12Topic: Atomic Mass and Molecular Mass
- 1.13Topic: Molar masses
- 1.14Topic: Mole concept
- 1.15Topic: Percentage Composition
- 1.16Subtopic: Empirical Formula for Molecular Formula
- 1.17Topic: Stoichiometry and Stoichiometric Calculations
- 1.18Subtopic: Limiting Reagent
- 1.19Subtopic: Reactions in Solutions
- 1.20Sub-subtopic: Mass Percent and Weight Percent
- 1.21Sub-subtopic: Mole fraction
- 1.22Sub-subtopic: Molarity
- 1.23Sub-subtopic: Molality
- Structure Of Atom32
- 2.1Topic: Discovery Of Sub-Atomic Particles
- 2.2Subtopic: Discovery of Electron
- 2.3Subtopic: Discovery Of Proton and Neutron
- 2.4Topic: Atomic Models
- 2.5Subtopic: Thomson Model Of Atom
- 2.6Subtopic: Rutherford’s Nuclear Model of Atom
- 2.7Subtopic: Atomic Number and Mass Number
- 2.8Subtopic: Isobars and Isotopes
- 2.9Topic: Developments leading to the Bohr’s Model of Atom
- 2.10Subtopic: Wave Nature of Electromagnetic Radiation
- 2.11Subtopic: Particle Nature of Electromagnetic Radiation: PLANK’S QUANTUM THEORY
- 2.12Topic: Photoelectric Effect
- 2.13Subtopic: Dual Behaviour of Electromagnetic Radiation
- 2.14Topic: Evidence for the Quantized Electronic Energy Levels: Atomic Spectra
- 2.15Topic: Line Spectrum of Hydrogen
- 2.16Topic: Bohr’s Model for Hydrogen Atom
- 2.17Topic: Heisenberg’s Uncertainty Principle
- 2.18Subtopic: Explanation of line spectrum of Hydrogen
- 2.19Subtopic: Limitations of Bohr’s Model
- 2.20Topic: Dual Behaviour of Matter
- 2.21Subtopic: Significance of Uncertainty Principle
- 2.22Subtopic: Reasons for the Failure of the Bohr Model
- 2.23Topic: Quantum Mechanical Model of Atom
- 2.24Subtopic: Hydrogen Atom and the Schrodinger Equation
- 2.25Subtopic: Orbitals and Quantum Numbers
- 2.26Subtopic: Shapes of Atomic Orbitals
- 2.27Subtopic: Energies of Orbitals
- 2.28Topic: Aufbau Principle
- 2.29Topic: Pauli Exclusion Principle
- 2.30Topic: Hund’s Rule of Maximum Multiplicity
- 2.31Topic: Electronic Configuration of Atoms
- 2.32Subtopic: Stability of Completely Filled and Half Filled Subshells
- Classification of Elements and Periodicity In Properties23
- 3.1Topic: Why do we need to classify Elements
- 3.2Topic: Genesis of Periodic Classification
- 3.3Topic: Modern Periodic Law and the Present form of the Periodic Table
- 3.4Topic: Nomenclature of Elements with Atomic Numbers greater than 100
- 3.5Topic: Electronic Configuration of Elements and the Periodic Table
- 3.6Subtopic: Electronic Configuration in Periods
- 3.7Subtopic: Groupwise Electronic Configuration
- 3.8Topic: Electronic Configurations and Types of Elements
- 3.9Subtopic: The s-Block Elements
- 3.10Subtopic: The p-Block Elements
- 3.11Subtopic: The d-Block Elements (Transition Elements)
- 3.12Subtopic: The f-Block Elements (Inner-Transition Elements)
- 3.13Subtopic: Metals, Non-metals and Metalloids
- 3.14Topic: Periodic Trends in Properties
- 3.15Subtopic: Atomic Radius
- 3.16Subtopic: Ionic Radius
- 3.17Subtopic: Ionization Enthalpy
- 3.18Subtopic: Electron Gain Enthalpy
- 3.19Subtopic: Electronegativity
- 3.20Subtopic: Periodic Trends in Chemical Properties
- 3.21Subtopic: Periodicity of Valence or Oxidation States
- 3.22Subtopic: Anomalous Properties of Second Period Elements
- 3.23Topic: Periodic Trends and Chemical Reactivity
- Chemical Bonding and Molecular Structure33
- 4.1Topic: Kossel-Lewis Approach to Chemical Bonding
- 4.2Subtopic: Octet Rule
- 4.3Subtopic: Covalent Bond
- 4.4Subtopic: (Lewis Structure) Lewis representation of simple molecules
- 4.5Subtopic: Formal Charge
- 4.6Subtopic: Limitations of the Octet Rule
- 4.7Topic: Ionic or Electrovalent Bond
- 4.8Subtopic: Lattice Enthalpy
- 4.9Topic: Bond Parameters- BOND LENGTH
- 4.10Subtopic: Bond Angle
- 4.11Subtopic: Bond Enthalpy
- 4.12Subtopic: Bond Order
- 4.13Subtopic: Resonance Structures
- 4.14Subtopic: Polarity of Bonds
- 4.15Topic: The Valence Shell Electron Pair Repulsion (VSEPR) Theory
- 4.16Topic: Valence Bond Theory
- 4.17Subtopic: Orbital Overlap Concept
- 4.18Subtopic: Directional Properties of Bonds
- 4.19Subtopic: Overlapping of Atomic Orbitals
- 4.20Subtopic: Types of Overlapping and Nature of Covalent Bond
- 4.21Subtopic: Strength of Sigma and pi Bond
- 4.22Topic: Hybridisation
- 4.23Subtopic: Types of Hybridisation
- 4.24Subtopic: Hybridisation of Elements involving d Orbitals
- 4.25Topic: Molecular Orbital Theory (MOT)
- 4.26Subtopic: Formation of Molecular Orbitals Linear Combination of Atomic Orbitals (LCAO)
- 4.27Subtopic: Conditions for the Combination of Atomic Orbitals
- 4.28Subtopic: Types of Molecular Orbitals
- 4.29Subtopic: Energy Level Diagram for Molecular Orbitals
- 4.30Subtopic: Electronic Configuration and Molecular Behaviour
- 4.31Topic: Bonding in some HomoNuclear Diatomic Molecules
- 4.32Topic: Hydrogen Bonding
- 4.33Subtopic: Types of Hydrogen Bonding
- Thermodynamics35
- 5.1Topic: Introduction
- 5.2Topic: Thermodynamic Terms – System and Surroundings
- 5.3Subtopic: Types of the System
- 5.4Topic: State Function and Path Function
- 5.5Topic: Extensive and Intensive Properties
- 5.6Subtopic: The State of the System
- 5.7Subtopic: The internal Energy as a State Function
- 5.8Topic: Application
- 5.9Subtopic: Work
- 5.10Sub-subtopic: Isothermal and Free Expansion of an ideal gas
- 5.11Subtopic: Enthalpy (H)
- 5.12Subtopic: Heat Capacity
- 5.13Subtopic: The relationship between Cp and Cv for an Ideal Gas
- 5.14Topic: Calorimetry – Measurement of ∆U and ∆H
- 5.15Topic: Reaction Enthalpy -Enthalpy Change, ∆rH of a reaction
- 5.16Subtopic: Standard Enthalpy of Reactions
- 5.17Subtopic: Enthalpy Changes during Phase Transformations
- 5.18Subtopic: Standard Enthalpy of Formation
- 5.19Subtopic: Thermochemical Equations
- 5.20Subtopic: Hess’s Law of Constant Heat Summation
- 5.21Topic: Enthalpies for different types of Reactions
- 5.22Subtopic: Standard Enthalpy of Combustion
- 5.23Subtopic: Enthalpy of Atomisation
- 5.24Subtopic: Bond Enthalpy
- 5.25Subtopic: Lattice Enthalpy
- 5.26Subtopic: Ionization Enthalpy and Electron Affinity
- 5.27Subtopic: Enthalpy of Solution
- 5.28Subtopic: Enthalpy of Dilution
- 5.29Topic: Spontaneity
- 5.30Subtopic: Is decrease in Enthalpy a criterion for Spontaneity?
- 5.31Subtopic: Entropy and Spontaneity
- 5.32Subtopic: Gibbs Energy and Spontaneity
- 5.33Subtopic: Entropy and Second Law of Thermodynamics
- 5.34Subtopic: Absolute Entropy and Third Law of Thermodynamics
- 5.35Topic: Gibbs Energy Change and Equilibrium
- Equilibrium47
- 6.1Topic: Introduction
- 6.2Topic: Equilibrium in Physical Processes
- 6.3Subtopic: Solid-Liquid Equilibrium
- 6.4Subtopic: Liquid-Vapour Equilibrium
- 6.5Subtopic: Solid-Vapour Equilibrium
- 6.6Subtopic: Equilibrium involving dissolution of Solid in liquid
- 6.7Subtopic: Equilibrium involving dissolution of Gases in liquids
- 6.8Subtopic: General Characteristics of Equilibria Involving Physical Processes
- 6.9Topic: Equilibrium in Chemical Processes- Dynamic Equilibrium
- 6.10Topic: Law of Chemical Equilibrium and Equilibrium Constant
- 6.11Topic: Homogeneous Equilibria
- 6.12Subtopic: Equilibrium Constant in Gaseous systems
- 6.13Subtopic: Heterogeneous Equilibria
- 6.14Topic: Applications of Equilibrium Constant
- 6.15Subtopic: Predicting the Extent of a reaction
- 6.16Subtopic: Predicting the direction of the reaction
- 6.17Subtopic: Calculating Equilibrium Concentration
- 6.18Topic: Relationship between Equilibrium Constant K, Reaction Quotient Q and Gibbs Energy G
- 6.19Topic: Factors Affecting Equilibria
- 6.20Subtopic: Effect of Concentration Change
- 6.21Subtopic: Effect of Concentration- An experiment
- 6.22Subtopic: Effect of Pressure Change
- 6.23Subtopic: Effect of Inert Gas Addition
- 6.24Subtopic: Effect of Temperature Change
- 6.25Subtopic: Effect of Catalyst
- 6.26Topic: Ionic Equilibrium in Solution
- 6.27Topic: Acids, Bases and Salts
- 6.28Subtopic: Arrhenius Concept of Acids and Bases
- 6.29Subtopic: The Bronsted – Lowry Acids and Bases
- 6.30Subtopic: Lewis Acids and Bases
- 6.31Topic: Ionization of Acids and Bases
- 6.32Subtopic: The Ionization Constant of Water and it’s Ionic Product
- 6.33Subtopic: The pH Scale
- 6.34Subtopic: Ionization Constants of Weak Acids
- 6.35Sub-subtopic: Ionization of Weak Bases
- 6.36Sub-subtopic: Relation between Ka and Kb
- 6.37Sub-subtopic: Relation between Ka and Kb
- 6.38Sub-subtopic: Di- and Polybasic Acids and Di- and Polyacidic Bases
- 6.39Sub-subtopic: Factors affecting Acid Strength
- 6.40Subtopic: Common Ionization Effect in the Ionization of Acids and Bases
- 6.41Sub-subtopic: Di- and Polybasic Acids and Di-and Polyacidic Bases
- 6.42Subtopic: Hydrolysis of salts and the pH of their Solutions
- 6.43Topic: Buffer Solutions
- 6.44Subtopic: Designing Buffer Solution
- 6.45Topic: Solubility Equilibria of Sparingly Soluble Salts
- 6.46Subtopic: Solubility Product Constant
- 6.47Subtopic: Common Ion Effect on Solubility of Ionic Salts
- Redox Reactions15
- 7.1Topic: Introduction
- 7.2Topic: Classical Idea of Redox Reactions- Oxidation and Reduction Reactions
- 7.3Topic: Redox Reactions in terms of Electron Transfer Reactions
- 7.4Subtopic: Competitive Electron Transfer Reactions
- 7.5Subtopic: Combination Reaction
- 7.6Topic: Oxidation Number
- 7.7Subtopic: Decomposition
- 7.8Subtopic: Displacement Reaction
- 7.9Subtopic: Disproportionation Reaction
- 7.10Topic: Balancing of Redox Reactions
- 7.11Subtopic: Oxidation Number Method
- 7.12Subtopic: Half Reaction Method
- 7.13Topic: Redox Reactions as the Basis for Titrations
- 7.14Topic: Limitations of concept of Oxidation Number
- 7.15Topic: Redox Reactions and Electrode Processes
- The p-Block Elements40
- 8.1Topic: General Introduction
- 8.2Topic: Group 13 Elements – The Boron Family
- 8.3Subtopic: Electronic Configuration
- 8.4Subtopic: Atomic Radii
- 8.5Subtopic: Ionization Enthalpy
- 8.6Subtopic: Electronegativity
- 8.7Subtopic: Physical Properties
- 8.8Subtopic: Chemical Properties
- 8.9Sub-subtopic: Reactivity towards Air
- 8.10Sub-subtopic: Reactivity towards Acids and Alkalies
- 8.11Sub-subtopic: Reactivity towards Halogens
- 8.12Topic: Important Trends and Anomalous Properties of Boron
- 8.13Subtopic: Borax
- 8.14Subtopic: Orthoboric acid
- 8.15Subtopic: Diborane
- 8.16Subtopic: Uses of Boron and Aluminium and their Compounds
- 8.17Topic: Group 14 Elements: The Carbon Family
- 8.18Subtopic: Electronic Configuration of the Carbon Family
- 8.19Subtopic: Covalent Radius
- 8.20Subtopic: Ionization Enthalpy
- 8.21Subtopic: Electronegativity
- 8.22Subtopic: Physical Properties
- 8.23Subtopic: Chemical Properties
- 8.24Sub-subtopic: Oxidation states and trends in Chemical Reactivity
- 8.25Sub-subtopic: Reactivity towards Oxygen
- 8.26Sub-subtopic: Reactivity towards Water
- 8.27Sub-subtopic: Reactivity towards Halogens
- 8.28Subtopic: Important Trends and Anomalous behaviour of Carbon
- 8.29Subtopic: Allotropes of Carbon
- 8.30Sub-subtopic: Diamond
- 8.31Sub-subtopic: Graphite
- 8.32Sub-subtopic: Fullerenes
- 8.33Subtopic: Uses of Carbon
- 8.34Subtopic: Some important compounds of Carbon and Silicon- Oxides of Carbon
- 8.35Sub-subtopic: Carbon Monoxide
- 8.36Sub-subtopic: Carbon Dioxide
- 8.37Sub-subtopic: Silicon Dioxide
- 8.38Sub-subtopic: Silicones
- 8.39Sub-subtopic: Silicates
- 8.40Sub-subtopic: Zeolites
Topic: Nature Of Matter
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