Topics
Solid State
- Solid State
- Types of Solids
- Classification of Crystalline Solids
- Crystal Structure
- Cubic System
- Packing of Particles in Crystal Lattice
- Packing Efficiency
- Crystal Defects or Imperfections
- Properties of Solids: Electrical Properties
- Overview of Solid State
Solid State
- Introduction to Solid State
- Classification of Crystalline Solids
- Amorphous and Crystalline Solids
- Crystal Lattices and Unit Cells
- Calculations Involving Unit Cell Dimensions
- Close Packed Structures of Solids
- Efficiency of Packing in Body-centred Cubic Structures
- Close Packed Structures - Formula of a Compound and Number of Voids Filled
- Number of Atoms in a Unit Cell
- Imperfections in Solids - Introduction
- Properties of Solids: Magnetic Properties
- Band Theory of Metals
- Properties of Solids: Electrical Properties
- Applications of n-type and p-type Semiconductors
Solutions
- Introduction to Solutions
- 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
- Overview of Solutions
Solutions and Colligative Properties
- Types of Solutions
- Expressing Concentration of Solutions
- Solubility of a Gas in a Liquid
- Solubility of a Solid in a Liquid
- Colligative Properties and Determination of Molar Mass - Introduction
- Relative Lowering of Vapour Pressure
- Depression of Freezing Point
- Osmosis and Osmotic Pressure
- Abnormal Molar Masses
- Elevation of Boiling Point
Chemical Thermodynamics and Energetic
- Chemical Thermodynamics and Energetic
- Concepts of System
- Types of Systems
- Surroundings
- Work, Heat, Energy, Extensive and Intensive Properties
- State Functions
- First Law of Thermodynamics
- Internal Energy and Enthalpy
- Hess’ Law of Constant Heat Summation
- Enthalpy of Bond Dissociation
- Combustion, Formation, Atomization, Sublimation
- Phase Transition
- Ionization and Solution
- Dilution Introduction of Entropy as a State Function
- Free Energy Change for Spontaneous and Non Spontaneous Processes
- Equilibrium Constant
- Second and Third Law of Thermodynamics
Ionic Equilibria
- Ionic Equilibria
- Types of Electrolyte
- Acids and Bases in Daily Life
- Ionization of Acids and Bases
- Autoionization of Water
- The pH Scale
- Hydrolysis of Salts
- Buffer Solutions
- Solubility product
- Common Ion Effect
- Overview of Ionic Equilibria
Chemical Thermodynamics
- Chemical Thermodynamics
- Terms Used in Thermodynamics
- Nature of Heat and Work
- Expression for Pressure-volume (PV) Work
- Concept of Maximum Work
- Internal Energy (U)
- First Law of Thermodynamics
- Enthalpy (H)
- Enthalpies of Physical Transformations
- Thermochemistry
- Spontaneous (Irreversible) Process
- Overview of Chemical Thermodynamics
Electrochemistry
- Electrochemical Cells
- Conductance of Electrolytic Solutions - Introduction
- Variation of Conductivity and Molar Conductivity with Concentration
- Electrolytic Cells and Electrolysis - Introduction
- Primary Batteries
- Lead Accumulator
- Galvanic or Voltaic Cells - Introduction
- Nernst Equation - Introduction
- Relation Between Gibbs Energy Change and Emf of a Cell
- fuel cell
- Factors Affecting Corrosion
- Redox Reaction
Electrochemistry
- Electrochemistry
- Electric Conduction
- Electrical Conductance of Solution
- Electrochemical Cells
- Electrolytic Cell
- 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)
- Overview of Electrochemistry
Chemical Kinetics
General Principles and Processes of Isolation of Elements
Chemical Kinetics
- Chemical Kinetics
- Rate of Reactions
- Rate of Reaction and Reactant Concentration
- Molecularity of Elementary Reactions
- Integrated Rate Equations
- First Order Reactions
- Zero Order Reactions
- Half Life Period of a Reaction
- Pseudo First Order Reaction
- Integrated Rate Law for Gas Phase f Reactions
- Collision Theory of Bimolecular Reactions
- Temperature Dependence of Reaction Rates
- Effect of a Catalyst on the Rate of Reaction
- Overview of Chemical Kinetics
P-block Elements
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
- Oxoacids
- Oxygen and Compounds of Oxygen
- Chlorine
- Concept of Group 18 Elements
- Overview of Elements of Groups 16, 17 and 18
Group 15 Elements
Group 16 Elements
Group 17 Elements
- Concept of Group 17 Elements
- Anomalous Behaviour of Fluorine
- Compounds of Halogens
- Chlorine
- Hydrogen Chloride
- Interhalogen Compounds
- Oxoacids of Halogens
Group 18 Elements
Transition and Inner Transition Elements
- Transition and Inner Transition Elements
- Position in the Periodic Table of Transition and Inner Transition Elements
- Electronic Configuration of Transition and Inner Transition Elements
- Oxidation States of First Transition Series
- Physical Properties of First Transition Series
- Trends in Atomic Properties of the First Transition Series
- Preparation of Potassium Permanganate
- Chemical Properties of KMnO4
- Uses of KMnO4
- K2Cr2O7: Preparation of Potassium Dichromate
- Chemical Properties of K2Cr2O7
- Common Properties of d Block Elements
- Basic Principles of Metallurgy > Extraction of Metals
- Inner Transition (f-block) Elements: Lanthanoids and Actinoids
- Properties of f-block Elements
- Properties of Lanthanoids
- Applications of Lanthanoids
- The Actinoids
- Properties of Actinoids
- Applications of Actinoids
- Postactinoid Elements
- Overview of Transition and Inner Transition Elements
D and F Block Elements
D-block Elements
- General Indroduction
- Position in the Periodic Table - d-block Elements
- Electronic Configurations of the D-block Elements
- General Properties of the Transition Elements (D-block)
- Some Important Compounds of Transition Elements
F-block Elements
Coordination Compounds
- Introduction
- Nomenclature of Coordination Compounds - Formulas of Mononuclear Coordination Entities
- Nomenclature of Coordination Compounds - Naming of Mononuclear Coordination Compounds
- Importance of Coordination Compounds
- Definitions of Some Important Terms Pertaining to Coordination Compounds
- Colour in Coordination Compounds
- Magnetic Properties of Coordination Compounds
- Bonding in Coordination Compounds - Introduction
- Werner’s Theory of Coordination Compounds
- Valence Bond Theory (VBT)
- Crystal Field Theory (CFT)
- Stereoisomerism
- Structural Isomerism
- Importance of Coordination Compounds
Coordination Compounds
- Coordination Compounds
- Types of Ligands
- Terms Used in Coordination Chemistry
- Classification of Complexes
- IUPAC Nomenclature of Coordination Compounds
- Effective Atomic Number (EAN) Rule
- Isomerism in Coordination Compounds
- Stability of the Coordination Compounds
- Theories of Bonding in Complexes
- Applications of Coordination Compounds
- Overview of Coordination Compounds
Halogen Derivatives of Alkanes (And Arenes)
Halogen Derivatives
- Classification of Halogen Derivatives
- Nomenclature of Halogen Derivatives
- Methods of Preparation of Alkyl Halides
- Physical Properties
- Optical Isomerism in Halogen Derivatives
- Chemical Properties
- Reaction with Active Metals
- Uses and Environmental Effects of Some Polyhalogen Compounds
- Nomenclature
- Reactions of Haloalkanes - Elimination Reactions
- Overview of Halogen Derivatives
Haloalkanes
- Introduction of Haloalkanes and Haloarenes
- Nomenclature
- Nature of C-X Bond
- Physical Properties of Haloalkanes and Haloarenes
- Methods of Preparation of Haloalkanes and Haloarenes
- Reactions of Haloalkanes - Nucleophilic Substitution Reactions
- Reactions of Haloalkanes - Elimination Reactions
- R-s and D-l Configuration
Haloarenes
- Introduction of Haloalkanes and Haloarenes
- Nature of C-X Bond
- Reactions of Haloarenes - Nucleophilic Substitution
- Nucleophilic Substitution
- Electrophilic Substitution Reactions
- Reaction with Metals
- R-S and D-l Configurations
- Polyhalogen Compounds
Alcohols, Phenols and Ethers Alcohols
Alcohols, Phenols and Ethers
- Alcohols, Phenols and Ethers
- Classification of Alcohols, Phenols and Ethers
- Nomenclature
- Alcohols and Phenols
- Ethers
- Uses of Alcohols, Phenols and Ethers
- Overview of Alcohols, Phenols and Ethers
- Overview: Alcohols, Phenols and Ethers
Alcohols
Phenols
- Phenols
- Nomenclature
- Methods of Preparation
- Physical and Chemical Properties
- Acidic Nature of Phenol
- Electrophillic Substitution Reactions
- Uses of Phenols
Ethers
Aldehydes, Ketones and Carboxylic Acids
Aldehydes, Ketones and Carboxylic Acids
- Introduction 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
- Preparation of Carboxylic Acids
- Physical Properties
- Polarity of Carbonyl Group
- Chemical Properties of Aldehydes and Ketones
- Chemical Properties of Carboxylic Acids
- Chemical Reactions of Aldehydes and Ketones - Reactions Due to α-hydrogen
- Overview: Aldehydes, Ketones and Carboxylic Acids
- Overview of Aldehydes, Ketones and Carboxylic Acids
Aldehydes and Ketones
- Introduction of Aldehydes, Ketones and Carboxylic Acids
- Nomenclature of Aldehydes and Ketones
- Nature of Carbonyl Group
- Preparation of Aldehydes and Ketones
- Physical Properties of Aldehydes and Ketones
- Chemical Reactions of Aldehydes and Ketones - Nucleophilic Addition Reactions
- Reactivity of Alpha Hydrogen in Aldehydes
- Uses of Aldehydes and Ketones
- Chemical Reactions of Aldehydes and Ketones - Other Reactions
Carboxylic Acids
- Carboxylic Acids
- Nomenclature of Carboxylic Acids
- Structure of the Carboxyl group
- Methods of Preparation of Carboxylic Acids
- Physical Properties of Carboxylic Acids
- Chemical Properties and Reactions of Carboxylic Acid
- Chemical Reactions of Carboxylic Acids - Reactions Involving Cleavege of O-H Bond
- Chemical Reactions of Carboxylic Acids - Reactions Involving Cleavege of C-OH Bond
- Chemical Reactions of Carboxylic Acids - Reactions Involving –COOH Group
- Chemical Reactions of Carboxylic Acids - Substitution Reactions in the Hydrocarbon Part
- Uses of Carboxylic Acids
Organic Compounds Containing Nitrogen
Amines
- Classification of Amines
- Nomenclature of Amines
- Preparation of Amines
- Physical Properties of Amines
- Basicity of Amines
- Chemical Properties of Amines
- Reactions of Arene Diazonium Salts
- Reaction with Arenesulfonyl Chloride
- Electrophilic Aromatic Substitution in Aromatic Amines
- Overview of Amines
Amines
- Introduction of Amines
- Nomenclature of Animes
- Classification of Amines
- Structure of Amines
- Physical Properties of Amines
- Uses of Amines
- Identification of Primary, Secondary and Tertiary Amines
- Secondary and Tertiary Amines
- Chemical Reactions of Amines - Carbylamine Reaction
- Chemical Reactions of Amines - Reaction with Nitrous Acid
- Chemical Reactions of Amines - Reaction with Arylsulphonyl Chloride
- Chemical Reactions of Amines - Electrophilic Substitution
- Preparation of Amines
Cyanides and Isocyanides
Diazonium Salts
Biomolecules
Biomolecules
- Principal Molecules of the Living World
- Biomolecules in the Cell > Carbohydrates
- Biomolecules in the Cell > Proteins
- Overview of Biomolecules
- Overview: Biomolecules
Carbohydrates
Proteins
- Introduction of Proteins
- Amino Acids
- Peptide
- Linkage
- Polypeptides
- Structure of Proteins
- Biomolecules in the Cell > Enzymes
- Lipids and Hormones
- Structure, Classification and Functions
Vitamins
- Introduction of Vitamins
- Classification of Vitamins
- Important Vitamins, Their Sources and Their Deficiency Diseases
Nucleic Acids
Polymers
- Introduction to Polymers
- Classification of Polymers Based on Source
- Types of Polymerisation Reactions - Addition Polymerisation or Chain Growth Polymerisation
- Types of Polymerisation Reactions - Copolymerisation
- Some Important Polymers
- Types of Polymerisation Reactions - Condensation Polymerisation Or Step Growth Polymerisation
- Nylon 6
- Nylon 66
- Types of Polymerisation Reactions - Rubber
- Biodegradable Polymers
- Preparation of Polytetrafluoroethene (Teflon)
- Preparation of Polyacrylonitrile
Introduction to Polymer Chemistry
- Introduction to Polymer Chemistry
- Classification of Polymers
- Some Important Polymers
- Molecular Mass and Degree of Polymerization of Polymers
- Biodegradable Polymers
- Commercially Important Polymers
- Preparation of Polytetrafluoroethene (Teflon)
- Overview of Introduction to Polymer Chemistry
Chemistry in Everyday Life
Green Chemistry and Nanochemistry
- Green Chemistry and Nanochemistry
- Principles of Green Chemistry
- The Role of Green Chemistry
- Introduction to Nanochemistry
- Characteristic Features of Nanoparticles
- Synthesis of Nanomaterials
- History of Nanotechnology
- Applications of Nanomaterials
- Nanoparticles and Nanotechnology
- Overview of Green Chemistry and Nanochemistry
Chemicals in Medicines
Chemicals in Food
Cleansing Agents
Estimated time: 37 minutes
CBSE: Class 12
Definition: Amines
Organic compounds derived from ammonia by replacement of one or more hydrogen atoms by alkyl or aryl groups are called amines.
CBSE: Class 12
Definition: Primary amine
An amine in which one hydrogen atom of ammonia is replaced by an alkyl or aryl group is called primary amine.
R–NH₂
CBSE: Class 12
Definition: Secondary amine
An amine in which two hydrogen atoms of ammonia are replaced by alkyl or aryl groups is called secondary amine.
R–NH–R′
CBSE: Class 12
Definition: Tertiary amine
An amine in which three hydrogen atoms of ammonia are replaced by alkyl or aryl groups is called tertiary amine.
R–N(R′)–R″
CBSE: Class 12
Definition: Quaternary ammonium salt
A positively charged nitrogen species formed by addition of four alkyl/aryl groups is called quaternary ammonium salt.
R₄N⁺X⁻
CBSE: Class 12
Definition: Ammonolysis
The reaction in which alkyl halides react with ammonia to form amines is called ammonolysis.
CBSE: Class 12
Definition: Acylation
The reaction in which amines react with acid chlorides or anhydrides to form amides is called acylation.
CBSE: Class 12
Definition: Gabriel phthalimide synthesis
The method of preparation of primary amines using potassium phthalimide is called Gabriel phthalimide synthesis.
CBSE: Class 12
Definition: Hofmann bromamide degradation reaction
The degradation of amides to primary amines containing one carbon less is called Hofmann bromamide degradation reaction.
CBSE: Class 12
Definition: Diazotization reaction
The reaction of amines with nitrous acid to form diazonium salts (in case of primary aromatic amines) is called diazotization reaction.
CBSE: Class 12
Ammonolysis
R – X + NH3 → R – NH2 + HX
CBSE: Class 12
Gabriel Synthesis
Salt + R – X → R – NH2
CBSE: Class 12
Hofmann Bromamide Reaction
R – CONH2 + Br2 + 4NaOH → R – NH2 + Na2CO3 + 2NaBr + 2H2O
CBSE: Class 12
Acylation
R – NH2 + R′COCl → R – NHCO – R′ + HCl
CBSE: Class 12
Reduction of Nitro Compounds
\[R–NO_2\xrightarrow{H_2/Pd}R–NH_2\]
CBSE: Class 12
Reduction of Nitriles
\[R\neg CN\xrightarrow{LiAlH_4}R\neg CH_2NH_2\]
CBSE: Class 12
Diazotization (Aromatic Amines)
Ar – NH2 + NaNO2 + HCl → Ar – N2+ Cl−
CBSE: Class 12
Key Points: Basic Character of Amines
Amines are basic in nature due to the presence of a lone pair of electrons on nitrogen which can accept a proton.
Factors affecting basicity:
- +I effect of alkyl groups increases basicity.
- Solvation effect in aqueous solution.
- Steric hindrance decreases basicity.
- Aromatic amines are less basic due to resonance.
Order in gaseous phase:
3∘ > 2∘ >1∘ >NH3
Order in aqueous phase:
2∘ > 1∘ > 3∘ > NH3
CBSE: Class 12
Key Points: Gabriel Phthalimide Synthesis Principle
Primary amines are prepared by treating potassium phthalimide with alkyl halides followed by hydrolysis.
Key points:
-
Gives only primary amines.
-
Not suitable for aryl halides.
-
Avoids formation of secondary and tertiary amines.
CBSE: Class 12
Key Points: Hofmann Bromamide Degradation Principle
Primary amides on treatment with bromine and sodium hydroxide give primary amines containing one carbon atom less than the parent amide.
Key Points:
-
Carbonyl carbon is lost as CO₂.
-
Rearrangement reaction.
-
Useful for chain shortening.
CBSE: Class 12
Key Points: Acylation Principle
Primary and secondary amines react with acid chlorides or anhydrides to form amides via nucleophilic substitution.
Key Points:
-
Used for identification of amines.
-
Tertiary amines do not undergo acylation.
-
Reaction carried out in presence of base.
CBSE: Class 12
Definition: Carbylamine reaction
The reaction in which primary amines on heating with chloroform and alcoholic KOH form isocyanides is called Carbylamine reaction.
R – NH2 + CHCl3 + 3KOH → R – NC + 3KCl + 3H2O
CBSE: Class 12
Definition: Diazotization reaction
The reaction of primary aromatic amines with nitrous acid at 273–278 K to form diazonium salts is called Diazotization reaction.
CBSE: Class 12
Definition: Hinsberg reaction
The reaction of primary and secondary amines with benzenesulphonyl chloride to form sulphonamides is called Hinsberg reaction.
Primary amine:
R – NH2 + C6H5SO2Cl → Sulphonamide
Secondary amine:
R2NH + C6H5SO2Cl → N,N-dialkyl sulphonamide
Tertiary amine → No reaction
CBSE: Class 12
Definition: Sandmeyer reaction
The substitution reaction in which diazonium group is replaced by Cl, Br or CN in the presence of Cu(I) salts is called Sandmeyer reaction.
\[ArN_2^+Cl^-\xrightarrow{CuCl/HCl}ArCl+N_2\]
\[ArN_2^+Cl^-\xrightarrow{CuBr/HBr}ArBr+N_2\]
\[ArN_2^+Cl^-\xrightarrow{CuCN}ArCN+N_2\]
CBSE: Class 12
Definition: Coupling reaction
The reaction in which diazonium salts couple with phenols or aromatic amines to form azo compounds is called Coupling reaction.
ArN2+ Cl− + Phenol → Azo compound
