Topics
Std. XI
Some Basic Concepts of Chemistry
Structure of Atom
- Atomic Concepts
- Subatomic Particles
- Atomic Number and Mass Number
- Isotopes
- Isobars
- Isotones
- Drawbacks of Rutherford Atomic Model
- Developments Leading to the Bohr’s Atomic Model
- Line Emission Spectrum of Hydrogen
- Bohr’s Model for Hydrogen Atom
- De Broglie's Explanation
- Heisenberg’s Uncertainty Principle
- Quantum Mechanical Model of Atom
- Quantum Mechanical Model of the Atom - Energies of Orbitals
- Electronic Configuration of Atom
Std XII
Chemical Bonding
- Concept of Chemical Bonding
- Kossel and Lewis Approach to Chemical Bonding
- Ionic or Electrovalent Bond
- Lattice Enthalpy
- The Covalent Bond
- Lewis Structures (Lewis Representation of Simple Molecules)
- Formal Charge
- Limitations of the Octet Rule
- Valence Shell Electron Pair Repulsion (VSEPR) Theory
- Valence Bond Theory (VBT)
- Hybridisation
- Importance and Limitations of Valence Bond Theory
- Molecular Orbital Theory
- Parameters of Covalent Bond
- Dipole Moment
- Covalent Character of Ionic Bond
- Resonance
Redox Reactions
Elements of Group 1 and Group 2
States of Matter: Gaseous and Liquid States
- States of Matter
- Intermolecular Forces
- Characteristic Properties of Gases
- Gas Laws
- Boyle’s Law (Pressure - Volume Relationship)
- Charles’ Law (Temperature - Volume Relationship)
- Gay-Lussac's Law
- Avogadro's Law
- Ideal Gas Equation
- Kinetic Molecular Theory of Gases
- Deviation from Ideal Behaviour
- Liquefaction of Gases and Critical Constant
- Liquid State
Adsorption and Colloids
- Adsorption
- Types of Adsorption
- Factors Affecting Adsorption of Gases on Solids
- Adsorption Isotherms (Freundlich and Langmuir Adsorption Isotherm)
- Applications of Adsorption
- Catalysis
- Adsorption Theory of Heterogeneous Catalysis
- Colloids
- Classification of Colloids
- Preparation of Colloids
- Purification of Colloidal Solution
- Properties of Colloidal Dispersions
- Methods to Effect Coagulation
- Emulsions
- Applications of Colloids
Basic Principles of Organic Chemistry
- Organic Chemistry
- Structural Representation of Organic Molecules
- Classification of Organic Compounds
- Nomenclature
- IUPAC Names of Straight Chain Alkanes
- IUPAC Names of Branched Saturated Hydrocarbons
- Rules for IUPAC Nomenclature of Branched Saturated Hydrocarbons
- IUPAC Nomenclature of Unsaturated Hydrocarbons (Alkenes and Alkynes)
- IUPAC Names of Simple Monocyclic Hydrocarbons
- IUPAC Nomenclature of Compounds containing one or more Functional Groups
- IUPAC Nomenclature of Substitued Benzene
- Isomerism
- Theoretical Basis of Organic Reactions
- Types of Cleavage of Covalent Bond
- Types of Reagent
- Electronic Effects in Organic Reaction
- Inductive Effect
- Resonance Structures
- Resonance Effect
- Electromeric Effect (E Effect)
- Hyperconjugation
Hydrocarbons
- Alkanes
- Preparation of Alkanes
- Physical Properties of Alkanes
- Chemical Properties of Alkanes
- Uses of Alkanes
- Alkenes
- Preparation of Alkenes
- Physical Properties of Alkenes
- Chemical Properties of Alkenes
- Uses of Alkenes
- Alkynes
- Preparation of Alkynes
- Physical Properties of Alkynes
- Chemical Properties of Alkynes
- Uses of Alkynes
- Aromatic Hydrocarbons
Chemistry in Everyday Life
Solid State
Solutions
- Concept of Solution
- Types of Solutions
- Capacity of Solution to Dissolve Solute
- Solubility
- Vapour Pressure of Solutions of Liquids in Liquids
- Colligative Properties of Nonelectrolyte Solutions
- Vapour Pressure Lowering
- Boiling Point Elevation
- Depression in Freezing Point
- Osmosis and Osmotic Pressure
- Colligative Properties of Electrolytes
Ionic Equilibrium
Chemical Thermodynamics
Electrochemistry
- Concept of Electrochemistry
- Electrical Conduction
- Electrical Conductance of Solution
- Electrochemical Cells
- Electrolytic Cells
- Galvanic or Voltaic Cell
- Electrode Potential and Cell Potential
- Thermodynamics of Galvanic Cells
- Reference Electrodes
- Galvanic Cells Useful in Day-to-day Life
- Fuel Cells
- Electrochemical Series (Electromotive Series)
Chemical Kinetics
Elements of Groups 16, 17, and 18
- Occurrence of Elements of Groups 16, 17 and 18
- Electronic Configuration of Elements of Group 16, 17 and 18
- Atomic and Physical Properties of Elements of Group 16, 17 and 18
- Anomalous Behaviour of Oxygen
- Anomalous Behaviour of Fluorine
- Chemical Properties of Elements of Groups 16, 17 and 18
- Sulphur - Allotropic Forms
- Oxoacids of Sulphur
- Oxoacids of Halogens
- Oxygen and Compounds of Oxygen
- Compounds of Sulphur
- Chlorine and Compounds of Chlorine
- Interhalogen Compounds
- Compounds of Xenon
Transition and Inner Transition Elements
- Transition (d Block) Elements
- Oxidation States of First Transition Series
- Physical Properties of First Transition Series
- Trends in Atomic Properties of the First Transition Series
- Compounds of Mn and Cr
- Common Properties of d Block Elements
- Metallurgy
- Basic Principles of Metallurgy > Extraction of Metals
- Inner transition (f block) elements
- Properties of f-block Elements
- Properties of Lanthanoids
- The Actinoids
- Applications of Lanthanoids
- Properties of Actinoids
- Applications of Actinoids
- Difference between Lanthanoids and Actinoids
- Comparison between s-Block metals, lanthanoids and transition metals
- Postactinoid Elements
Coordination Compounds
- Concept of Coordination Compounds
- Types of Ligands
- Terms Used in Coordination Chemistry
- Classification of Complexes
- Nomenclature of Coordination Compounds
- Effective Atomic Number (EAN) Rule
- Isomerism in Coordination Compounds
- Stability of Coordination Compounds
- Valence Bond Theory (VBT)
- Crystal Field Theory (CFT)
- Importance and Applications of Coordination Compounds
- Colour in Coordination Compounds
Halogen Derivatives
- Introduction of Halogen Derivatives
- Classification of Halogen Derivatives
- Nomenclature of Halogen Derivatives
- Methods of Preparation of Alkyl Halides
- Physical Properties of Halogen Derivatives
- Optical Isomerism in Halogen Derivatives
- Chemical Properties of Halogen Derivatives
- Mechanism of SN reaction
- Factors influencing SN 1 and SN 2 mechanism
- Elimination reaction: Dehydrohologenotion
- Reaction with Active Metals
- Polyhalogen Compounds
Alcohols, Phenols, and Ethers
- Concept of Alcohols, Phenols and Ethers
- Classification of Alcohols, Phenols and Ethers
- Nomenclature of Alcohols, Phenols and Ethers
- Preparation of Alcohols and Phenols
- Physical Properties of Alcohols and Phenols
- Chemical Properties of Alcohols and Phenols
- Ethers
- Physical Properties of Ethers
- Chemical Properties of Ethers
- Uses of Alcohols, Phenols and Ethers
Aldehydes, Ketones, and Carboxylic Acids
- Concepts of Aldehydes, Ketones, and Carboxylic Acids
- Classification of Aldehydes, Ketones and Carboxylic Acids
- Nomenclature of Aldehydes, Ketones and Carboxylic Acids
- Preparation of Aldehydes and Ketones
- Methods of Preparation of Carboxylic Acids
- Physical Properties of Aldehydes and Ketones
- Physical Properties of Carboxylic Acids
- Polarity of Carbonyl Group
- Chemical Properties of Aldehydes and Ketones
- Chemical Properties of Carboxylic Acids
Amines
Biomolecules
- Biomolecules in the Cell
- Biomolecules in the Cell > Carbohydrates
- Monosaccahrides
- Preparation of Glucose
- Structures of Glucose
- Fructose
- Disaccharides
- Polysaccharides
- Biomolecules in the Cell > Proteins
- Classification of Amino Acids
- Peptide
- Structure of Proteins
- Denaturation of Proteins
- Biomolecules in the Cell > Enzymes
- Mechanism of Enzymatic Action
- Biomolecules in the Cell > Nucleic Acids
- Structure of Nucleic Acids
Introduction to Polymer Chemistry
- Polymer Chemistry
- Classification of Polymers> Based on Source or Origin
- Classification of Polymers> Based on Structure
- Classification of Polymers> Based on Mode of Polymerisation
- Classification of Polymers> Based on Intermolecular Forces
- Classification of Polymers> Based On Type of Different Monomers
- Classification of Polymers> Based on Biodegradability
- Some Important Polymers
- Commercially Important Polymers
- Vulcanisation of Rubber
- Molecular Mass and Degree of Polymerization of Polymers
Green Chemistry and Nanochemistry
- Green Chemistry and Nanochemistry
- Principles of Green Chemistry
- Plastic Material in Daily Life
- The Role of Green Chemistry
- Introduction to Nanochemistry
- Characteristic Features of Nanoparticles
- Synthesis of Nanomaterials
- History of Nanotechnology
- Applications of Nanomaterials
- Nanoparticles and Nanotechnology
Estimated time: 5 minutes
Maharashtra State Board: Class 12
Key Points: Covalent Character of Ionic Bond
Even ionic bonds have some degree of covalent character. The polarising power of the cation distorts the electron cloud of the anion, inducing covalency. This is explained by Fajan's Rules:
Covalent character increases when:
- The cation is small and highly charged (high charge density → high polarising power)
- The anion is large (easily polarised / high polarisability)
- Both ions have high charge
\[\text{Polarising power}\propto\frac{1}{\text{Size of cation}}\propto\text{Size of anion}\propto\text{Charge on ions}\]
Greater the polarising power → More covalent character in the ionic bond.
