CBSE 11 Chemistry. Chemistry is not limited upto laboratory practicals, find microscopic view and learn in detail with LearnFatafat Class 11 Chemistry Course. Course contains 288 video lessons, with course duration of 25 hours. It covers all the concepts of 14 chapters of NCERT based syllabus of Class 11 Chemistry. It provides simple way of learning with simplified concepts and interesting animations. Concepts are briefly explained including laws and derivations, chemical equations and formulae, a stepwise description of different methods processes and many more. For easy understanding, video lessons are divided according to chapters; in which part 1 contains 7 chapter and part 2 contains 7 chapters; Part 1: Some Basic Concepts of Chemistry, Structure of Atom, Classification of Elements and Periodicity in Properties, Chemical Bonding and Molecular Structure, States of Matter, Thermodynamics, Equilibrium. Part 2: Redox Reactions, Hydrogen, s-Block Elements, p-Block Elements, Organic Chemistry – Some Basic Principles and Techniques, Hydrocarbons, Environmental Chemistry.
Extend your knowledge of Chemistry with LearnFatafat, Click here to buy the course.
Lessons
01 Some Basic Concepts of Chemistry
- 01.01 Importance of Chemistry
- 01.02 Nature of Matter
- 01.03 Mixtures
- 01.04 Pure Substances
- 01.05 Properties of Matter and their Measurement
- 01.06 The International System of Units (SI Units)
- 01.07 Physical Properties of Substance
- 01.08 Uncertainty in Measurement: Scientific Notation
- 01.09 Arithmetic Operations using Scientific Notation
- 01.10 Accuracy and Precision
- 01.11 Significant Figures
- 01.12 Arithmetic Operations of Significant Figures
- 01.13 Dimensional Analysis
- 01.14 Laws of Chemical Combination - I
- 01.15 Laws of Chemical Combinations - II
- 01.16 Dalton’s Atomic Theory
- 01.17 Atomic Mass and Average Atomic Mass
- 01.18 Molecular Mass and Formula Mass
- 01.19 Mole Concept and Molar Masses
- 01.20 Percentage Composition
02 Structure of Atom
- 02.01 Structure of Atom - Introduction
- 02.02 Discovery of Electron
- 02.03 Charge to Mass Ratio of Electrons
- 02.04 Discovery of Protons
- 02.05 Discovery of Neutron
- 02.06 Atomic Models: Thomson Model of Atom
- 02.07 Discovery of Radioactivity
- 02.08 Rutherford’s Nuclear Model of Atom
- 02.09 Drawbacks of Rutherford Model
- 02.10 Atomic Number and Mass Number
- 02.11 Atomic Number and Mass Number: Numericals
- 02.12 Isobars and Isotopes
- 02.13 Wave Motion and its Properties
- 02.14 Wave Motion and Properties: Numericals
- 02.15 Wave Theory of Electromagnetic Radiations
- 02.16 Electromagnetic Spectrum
- 02.17 Wave Theory Reasoning on Interference and Diffraction
- 02.18 Planck’s Quantum Theory of Radiation
- 02.19 Wave Theory and Photoelectric effect
- 02.20 Planck’s Quantum Theory and Photoelectric Effect
03 Classification of Elements and Periodicity in Properties
- 03.01 Why do we need to classify elements
- 03.02 Genesis of Periodic classification - I
- 03.03 Genesis of Periodic classification - II
- 03.04 Modern Periodic Law and Present Form of Periodic Table
- 03.05 Nomenclature of Elements with Atomic Numbers > 100
- 03.06 Electronic Configurations of Elements and the Periodic Table - I
- 03.07 Electronic Configurations of Elements and the Periodic Table - II
- 03.08 Electronic Configurations and Types of Elements: s-block - I
- 03.09 Electronic Configurations and Types of Elements: p-blocks - II
- 03.10 Electronic Configurations and Types of Elements: Exceptions in periodic table - III
- 03.11 Electronic Configurations and Types of Elements: d-block - IV
- 03.12 Electronic Configurations and Types of Elements: f-block - V
- 03.13 Metals, Non-metals and Metalloids
- 03.14 Atomic Radius
- 03.15 Trends in Atomic radius
- 03.16 Trends in Ionic Radius
- 03.17 Ionization Enthalpy
- 03.18 Factors affecting Ionization Enthalpy
- 03.19 Trends in Ionization Enthalpy - I
- 03.20 Trends in Ionization Enthalpy - II
04 Chemical Bonding and Molecular Structure
- 04.01 Kossel-Lewis approach to Chemical Bonding
- 04.02 Octet Rule
- 04.03 The Lewis Structures and Formal Charge
- Ionic or Electrovalent Bond
- Covalent Bond
- 04.06 Bond Length, Bond Angle and Bond Order
- 04.07 Bond Enthalpy
- 04.08 Resonance Structures
- 04.09 Polarity of Bond and Dipole Moment
- 04.10 The Valence Shell Electron Pair Repulsion (VSEPR) Theory
- 04.11 Valence Bond Theory
- 04.12 Types of Overlapping and Nature of Covalent Bonds
- 04.13 Hybridisation
- 04.14 Types of Hybridisation - I
- 04.15 Types of Hybridisation - II
- 04.16 Molecular Orbital Theory
- 04.17 Formation of Molecular Orbitals (LCAO Method)
- 04.18 Types of Molecular Orbitals and Energy Level Diagram
- 04.19 Electronic Configuration and Molecular Behavior
- 04.20 Hydrogen Bonding
05 States of Matter
- 05.01 Dispersion Forces or London Forces
- 05.02 Dipole-Dipole Forces And Hydrogen Bond
- 05.03 Dipole-Induced Dipole Forces and Repulsive Intermolecular Forces
- 05.04 Thermal Interaction and Intermolecular Forces
- 05.05 The Gas Laws : Boyle’s Law
- 05.06 The Gas Laws : Charles’ Law - I
- 05.07 The Gas Laws : Charles’ Law - II
- 05.08 The Gas Laws : Gay Lussac’s Law and Avogadro’s Law
- 05.09 Ideal Gas Equation
- 05.10 Dalton’s Law of Partial Pressure - I
- 05.11 Kinetic Molecular Theory of Gases
- 05.12 Deviation of Real Gases from Ideal Gas Behaviour
- 05.13 Pressure -Volume Correction and Compressibility Factor
- 05.14 Liquefaction of Gases
- 05.15 Vapour Pressure
- 05.16 Surface Tension and Viscosity
- 05.17 States of Matter - Numericals
06 Thermodynamics
- 06.01 Thermodynamic terms
- 06.02 Internal Energy as a State Function - I
- 06.03 Internal Energy as a State Function - II
- 06.04 Work
- 06.05 Enthalpy (H) as a State Function
- 06.06 Extensive and Intensive properties, Heat Capacity and their Relations
- 06.07 Measurement of ΔU and ΔH : Calorimetry
- 06.08 Enthalpy change, ΔrH of Reaction - I
- 06.09 Enthalpy change, ΔrH of Reaction - II
- 06.10 Enthalpy change, ΔrH of Reaction - III
- 06.11 Hess’s Law and Enthalpies for Different Types of Reactions.
- 06.12 Bond Enthalpy
- 06.13 Enthalpy of solution and Lattice Enthalpy
- 06.14 Spontaneity
- 06.15 Entropy and Spontaneity
- 06.16 Gibbs Energy and Spontaneity
- 6.17 Gibbs Energy Change and Equilibrium
07 Equilibrium
- 07.01 Equilibrium: Introduction
- 07.02 Equilibrium In Physical Processes - I
- 07.03 Equilibrium In Physical Processes - II
- 07.04 Equilibrium in Chemical Processes - Dynamic Equilibrium
- 07.05 Law of Chemical Equilibrium and Equilibrium Constant
- 07.06 Homogeneous Equilibria
- 07.07 Heterogeneous Equilibria
- 07.08 Characteristics and Applications of Equilibrium Constants
- 07.09 Characteristics and Applications of Equilibrium Constants - II
- 07.10 Relationship between Equilibrium Constant K, Reaction Quotient Q and Gibbs Energy G
- 07.11 Factors Affecting Equilibria - I
- 07.12 Factors Affecting Equilibria - II
- 07.13 Ionic Equilibrium in Solution
- 07.14 Acids, Bases and Salts - Arrhenius Concept
- 07.15 Acids, Bases and Salts - Brönsted-Lowry Concept and Lewis Concept
- 07.16 Ionization of Acids and Bases and KW of Water
- 07.17 The pH Scale
- 07.18 Ionization Constants of Weak Acids and Weak Bases
- 07.19 Factors Affecting Acid Strength and Common Ion Effect
- 07.20 Hydrolysis of Salts and the pH of their solutions
08 Redox Reactions
- 08.01 Classical Idea of Redox Reaction
- 08.02 Redox Reaction in terms of Electron Transfer Reaction
- 08.03 Oxidation Number
- 08.04 Types of Redox Reaction - I
- 08.05 Types of Redox Reaction - II
- 08.06 Oxidation Number Method
- 08.07 Half Reaction Method
- 08.08 Redox Reactions as Basis for Titration
- 08.09 Redox Reactions and Electrode processes
09 Hydrogen
- 09.01 Introduction to Hydrogen and its Isotopes
- 09.02 Preparation of Dihydrogen
- 09.03 Properties and Uses of Dihydrogen
- 09.04 Hydrides
- 09.05 Properties of Water
- 09.06 Structure of Water and Ice, Hard and Soft water
- 09.07 Hardness in Water
- 09.08 Hydrogen Peroxide
- 09.09 Heavy water, Dihydrogen as fuel
10 The s-block elements
- 10.01 The s-Block Elements: Overview
- 10.02 Group I Elements /Alkali Metals: Properties - I
- 10.03 Group I Elements /Alkali Metals: Properties - II
- 10.04 General Characteristics of Compounds of Alkali Metals
- 10.05 Anomalous Properties of Lithium and diagonal relationship
- 10.06 Compounds of Sodium: Na2CO3 and NaHCO3
- 10.07 Compounds of Sodium: NaCl and NaOH
- 10.08 Group II Elements “Alkaline Earth Metals”- I
- 10.09 Group II Elements “Alkaline Earth Metals”- II
- 10.10 Uses of Alkali Metals and Alkaline Earth Metals
- 10.11 General Characteristics of Compounds of Alkaline Earth Metals
- 10.12 Anomalous Behaviour of Beryllium and Diagonal Relationship
- 10.13 Some Important Compounds of Calcium: CaO and Ca(OH)2
- 10.14 Important Compounds of Calcium: CaCO3, CaSO4 and Cement
11 The p-block elements
- 11.01 The p-Block Elements - Overview
- 11.02 The p-Block Elements: Properties
- 11.03 Group 13 Elements: The Boron Family
- 11.04 The Boron Family: Chemical Properties
- 11.05 Boron and its compound Borax
- 11.06 Boron and its compounds - Ortho Boric Acid and Diborane
- 11.07 Uses of Boron and Aluminium And their Compounds
- 11.08 The Carbon Family Overview and Physical Properties
- 11.09 The Carbon Family Overview and Chemical Properties
- 11.10 Important Trends and Anomalous Behaviour of Carbon
- 11.11 Allotropes of Carbon
- 11.12 Important Compounds of Carbon: Carbon Monoxide
- 11.13 Important Compounds of Carbon: Carbon dioxide
- 11.14 Important Compounds of Silicon: Silicon dioxide
- 11.15 Important Compounds of Carbon: Silicones, Silicates, Zeolites
12 Organic Chemistry - Some Basic Principles and Techniques
- 12.01 Organic Chemistry and Tetravalence of Carbon
- 12.02 Structural Representation of Organic Compounds
- 12.03 Classification of Organic Compounds
- 12.04 Nomenclature of Organic Compounds
- 12.05 Nomenclature of branched chain alkanes
- 12.06 Nomenclature of Organic Compounds with Functional Group
- 12.07 Nomenclature of Substituted Benzene Compounds
- 12.08 Isomerism
- 12.09 Fission of Covalent Bond
- 12.10 Nucleophiles and Electrophiles
- 12.11 Inductive effect
- 12.12 Resonance Structure and Resonance Effect
- 12.13 Electromeric Effect and Hyperconjugation
- 12.14 Methods of purification of organic compound - Sublimation, Crystallisation, Distillation
- 12.15 Methods of purification of organic compound - Fractional Distillation and Steam Distillation
- 12.16 Methods of purification of organic compound - Differential Extraction and Chromatography
- 12.17 Methods of purification of organic compound- Column, Thin layer and Partition Chromatography
- 12.18 Qualitative analysis of organic compounds
- 12.19 Quantitative analysis of Carbon and Hydrogen
- 12.20 Quantitative analysis of Nitrogen
13 Hydrocarbons
- 13.01 Hydrocarbons Overview and Classification
- 13.02 Alkanes
- 13.03 Preparation of Alkanes
- 13.04 Physical and Chemical Properties of Alkanes - I
- 13.05 Physical and Chemical Properties of Alkanes - II
- 13.06 Conformations
- 13.07 Alkenes - Structure, Nomenclature, And Isomerism
- 13.08 Preparation of Alkenes
- 13.09 Physical and Chemical Properties of Alkenes - I
- 13.10 Physical and Chemical Properties of Alkenes - II
- 13.11 Alkynes - Structure, Nomenclature and Isomerism
- 13.12 Preparation of alkynes
- 13.13 Physical and Chemical Properties of Alkynes - I
- 13.14 Physical and Chemical Properties of Alkynes - II
- 13.15 Benzene, Preparation and Physical Properties
- 13.16 Aromatic Hydrocarbons - Structure, Nomenclature and Isomerism
- 13.17 Resonance and Stability of Benzene
- 13.18 Chemical properties of Benzene
- 13.19 Mechanism of Electrophilic Substitution Reactions
- 13.20 Directive influence of a functional group in Monosubstituted Benzene
14 Environmental Chemistry
- 14.01 Introduction to pollution
- 14.02 Tropospheric pollutants : Gaseous air pollutant - I
- 14.03 Tropospheric pollutants : Gaseous air pollutant - II
- 14.04 Global Warming and Greenhouse Effect
- 14.05 Acid Rain
- 14.06 Tropospheric pollutants : Particulate pollutant
- 14.07 Photochemical Smog
- 14.08 Stratospheric Pollution
- 14.09 Water pollution
- 14.10 Water Pollution: Chemical Pollutant
- 8.07 Soil Pollution
- 14.12 Strategies to control environmental pollution
- 14.13 Concept of Green Chemistry