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Class 11 NEET Chemistry - 100% NCERT book based
Ch1 Some Basic Concepts of Chemistry
1.1 Importance of chemistry
Concept1O1 | 1.1
ConceptBooster 1.1
1.2 Nature of matter
Concept1O1 | 1.2
ConceptBooster 1.2
1.3 Properties of matter and their measurement
Concept1O1 | 1.3
ConceptBooster 1.3
1.4 Uncertainty in measurement
Concept1O1 | 1.4
ConceptBooster 1.4
1.5 Laws of chemical combinations
Concept1O1 | 1.5
ConceptBooster 1.5
1.6 Dalton's atomic theory
Concept1O1 | 1.6
ConceptBooster 1.6
1.7 Atomic and molecular masses
Concept1O1 | 1.7
ConceptBooster 1.7
1.8 Mole concept and molar masses
Concept1O1 | 1.8
ConceptBooster 1.8
1.9 Percentage composition
Concept1O1 | 1.9
ConceptBooster 1.9
1.10 Stoichiometry and stoichiometric calculations
Concept1O1 | 1.10
ConceptBooster 1.10
Ch2 Structure of Atom
2:1 Discovery of sub-atomic particles
Concept1O1 | 2:1
ConceptBooster 2.1
2:2 Atomic models
Concept1O1 | 2:2
ConceptBooster 2.2
2:3 Developments leading to the bohr's model of atom
Concept1O1 | 2:3
ConceptBooster 2.3
2:4 Bohr's model for hydrogen atom
Concept1O1 | 2:4
ConceptBooster 2.4
2:5 Towards quantum mechanical model of the atom
Concept1O1 | 2:5
ConceptBooster 2.5
2:6 Quantum mechanical model of atom
Concept1O1 | 2:6
ConceptBooster 2.6
Ch3 Classification of Elements and Periodicity in Properties
3.1 Why do we need to classify elements ?
Concept1O1 | 3.1
3.2 Genesis of periodic classification
Concept1O1 | 3.2
3.3 Modern periodic law and the present form of the periodic table
Concept1O1 | 3.3
3.4 Nomenclature of elements with atomic numbers > 100
Concept1O1 |3.4
3.5 Electronic configurations of elements and the periodic table
Concept1O1 | 3.5
3.6 Electronic configurations and types of elements: s-, p-, d-, f- blocks
Concept1O1 | 3.6
3.7 Periodic trends in properties of elements
Concept1O1 | 3.7
ConceptBooster | 3.1 - (Periodic Classification)
ConceptBooster |3.2 - (Modern Periodic Law and the Present form of the Periodic Table)
ConceptBooster |3.3 - (Electronic Configuration of Elements and their Types : s, p, d and f-Block Elements)
ConceptBooster |3.4 - (Periodic Trends in Properties of Elements)
ConceptBooster 3.5
ConceptBooster 3.6
ConceptBooster 3.7
Ch4 Chemical Bonding and Molecular Structure
4.1 Kossel -lewis approach to chemical bonding
(30:54)
Concept1O1 | 4.1
ConceptBooster 4.1
4.2 Ionic or electrovalent bond
Concept1O1 | 4.2
ConceptBooster 4.2
4.3 Bond parameters
Concept1O1 | 4.3
ConceptBooster 4.3
4.4 The valence shell electron pair repulsion (VSEPR) theory
Concept1O1 | 4.4
ConceptBooster 4.4
4.5 Valence bond theory
Concept1O1 | 4.5
ConceptBooster 4.5
4.6 Hybridisation
Concept1O1 | 4.6
ConceptBooster 4.6
4.7 Molecular orbital theory
Concept1O1 | 4.7
ConceptBooster 4.7
4.8 Bonding in some homonuclear diatomic molecules
Concept1O1 | 4.8
ConceptBooster 4.8
4.9 Hydrogen bonding
Concept1O1 | 4.9
ConceptBooster 4.9
Ch5 States of Matter
5.1 Intermolecular forces
Concept1O1 | 5.1
ConceptBooster 5.1
5.2 Thermal energy
Concept1O1 | 5.2
ConceptBooster 5.2
5.3 Intermolecular forces vs thermal interactions
Concept1O1 | 5.3
ConceptBooster 5.3
5.4 The gaseous state
Concept1O1 | 5.4
ConceptBooster 5.4
5.5 The gas laws
Concept1O1 | 5.5
ConceptBooster 5.5
5.6 Ideal gas equation
Concept1O1 | 5.6
ConceptBooster 5.6
5.7 Kinetic energy and molecular speeds
Concept1O1 | 5.7
ConceptBooster 5.7
5.8 Kinetic molecular theory of gases
Concept1O1 | 5.8
ConceptBooster 5.8
5.9 Behaviour of real gases: deviation from ideal gas behaviour
Concept1O1 | 5.9
ConceptBooster 5.9
5.10 Liquefaction of gases
Concept1O1 | 5.10
ConceptBooster 5.10
5.11 Liquid state
Concept1O1 | 5.11
ConceptBooster 5.11
Ch6 Thermodynamics
6.1 Thermodynamics terms
Concept1O1 | 6.1
ConceptBooster 6.1
6.2 Applications
Concept1O1 | 6.2
ConceptBooster 6.2
6.3 Measurement of U and H: calorimetry
Concept1O1 | 6.3
ConceptBooster 6.3
6.4 Enthalpy change, H of a reaction - reaction enthalpy
Concept1O1 | 6.4
ConceptBooster 6.4
6.5 Enthalpies for different types of reactions
Concept1O1 | 6.5
ConceptBooster 6.5
6.6 Spontaneity
Concept1O1 | 6.6
ConceptBooster 6.6
6.7 Gibbs energy change in equilibrium
Concept1O1 | 6.7
ConceptBooster 6.7
Ch7 Equililbrium
7.1 Equilibrium in physical processes
Concept1O1 | 7.1
ConceptBooster 7.1
7.2 Equlibrium in chemical processes - dynamic equilibrium
Concept1O1 | 7.2
ConceptBooster 7.2
7.3 Law of chemical equilibrium and equilibrium constant
Concept1O1 | 7.3
ConceptBooster 7.3
7.4 Homogeneous equilibria
Concept1O1 | 7.4
ConceptBooster 7.4
7.5 Heterogeneous equilibria
Concept1O1 | 7.5
ConceptBooster 7.5
7.6 Applications of equilibrium constants
Concept1O1 | 7.6
ConceptBooster 7.6
7.7 Relationship between equilibrium constant K, reaction quotient Q and gibbs energy G
Concept1O1 | 7.7
ConceptBooster 7.7
7.8 Factors affecting equilibria
Concept1O1 | 7.8
ConceptBooster 7.8
7.9 Ionic equilibrium in solution
Concept1O1 | 7.9
ConceptBooster 7.9
7.10 Acids, bases and salts
Concept1O1 | 7.10
ConceptBooster 7.10
7.11 Ionization of acids and bases
Concept1O1 | 7.11
ConceptBooster 7.11
7.12 Buffer solutions
Concept1O1 | 7.12
ConceptBooster 7.12
7.13 Solubility equilibria of sparingly soluble salts
Concept1O1 | 7.13
ConceptBooster 7.13
Ch8 Redox Reaction
8.1 Classical idea of redox reactions - oxidation and reduction reactions
Concept1O1 | 8.1
ConceptBooster 8.1
8.2 Redox reactions in terms of electron transfer reactions
Concept1O1 | 8.2
ConceptBooster 8.2
8.3 Oxidation number
Concept1O1 | 8.3
ConceptBooster 8.3
8.4 Redox reactions and electrode processes
Concept1O1 | 8.4
ConceptBooster 8.4
Ch9 Hydrogen
9.1 Position of Hydrogen in the periodic table
Concept1O1 | 9.1
ConceptBooster 9.1
9.2 Dihydrogen, H2
Concept1O1 | 9.2
ConceptBooster 9.2
9.3 Preparation of dihydrogen, H2
Concept1O1 | 9.3
ConceptBooster 9.3
9.4 Properties of dihydrogen
Concept1O1 | 9.4
ConceptBooster 9.4
9.5 Hydrides
Concept1O1 | 9.5
ConceptBooster 9.5
9.6 Water
Concept1O1 | 9.6
ConceptBooster 9.6
9.7 Hydrogen peroxide (H202)
Concept1O1 | 9.7
ConceptBooster 9.7
9.8 Heavy water, D2O
Concept1O1 | 9.8
ConceptBooster 9.8
9.9 Dihydrogen as a fuel
Concept1O1 | 9.9
ConceptBooster 9.9
Ch10 The s-Block Elements
10.1 Group 1 elements: alkali metals
Concept1O1 | 10.1
ConceptBooster 10.1
10.2 General characteristics of the compounds of the alkali metals
Concept1O1 | 10.2
ConceptBooster 10.2
10.3 Anomalous properties of lithium
Concept1O1 | 10.3
ConceptBooster 10.3
10.4 Some important compounds of sodium
Concept1O1 | 10.4
ConceptBooster 10.4
10.5 Biological importance of sodium and potassium
Concept1O1 | 10.5
ConceptBooster 10.5
10.6 Group 2 elements : alkaline earth metals
Concept1O1 | 10.6
ConceptBooster 10.6
10.7 General characteristics of compounds of the alkaline earth metals
Concept1O1 | 10.7
ConceptBooster 10.7
10.8 Anomalous behaviour of beryllium
Concept1O1 | 10.8
ConceptBooster 10.8
10.9 Some important compounds of calcium
Concept1O1| 10.9
ConceptBooster 10.9
10.10 Biological importance of magnesium and calcium
Concept1O1 | 10.10
ConceptBooster 10.10
Ch11 The p-Block Elements
11.1 Group 13 elements: the born family
Concept1O1 | 11.1
ConceptBooster 11.1
11.2 Important trends and anomalous properties of boron
Concept1O1 |11.2
ConceptBooster 11.2
11.3 Some important compounds of boron
Concept1O1 | 11.3
ConceptBooster 11.3
11.4 Uses of boron and aluminium and their compounds
Concept1O1 | 11.4
ConceptBooster 11.4
11.5 Group 14 elements: the carbon family
Concept1O1 | 11.5
ConceptBooster 11.5
11.6 Important trends and anomalous behaviour of carbon
Concept1O1 | 11.6
ConceptBooster 11.6
11.7 Allotropes of carbon
Concept1O1 | 11.7
ConceptBooster 11.7
11.8 Some important compounds of carbon and silicon
Concept1O1 | 11.8
ConceptBooster 11.8
Ch12 Organic Chemistry - Some Basic Principles and Techniques
12.1 General introduction
Concept1O1 | 12.1
ConceptBooster 12.1
12.2 Tetravalence of carbon: shapes of organic compounds
Concept1O1 | 12.2
ConceptBooster 12.2
12.3 Structural representations of organic compounds
Concept1O1 | 12.3
ConceptBooster 12.3
12.4 Classification of organic compounds
Concept1O1 | 12.4
ConceptBooster 12.4
12.5 Nomenclature of organic compounds
Concept1O1 | 12.5
ConceptBooster 12.5
12.6 Isomerism
Concept1O1 | 12.6
ConceptBooster 12.6
12.7 Fundamental concepts in organic reaction mechanism
Concept1O1 | 12.7
ConceptBooster 12.7
12.8 Methods of purification of organic compounds
Concept1O1 | 12.8
ConceptBooster 12.8
12.9 Quanlitative analysis of organic compounds
Concept1O1 | 12.9
ConceptBooster 12.9
12.10 Quantitative analysis
Concept1O1 | 12.10
ConceptBooster 12.10
Ch13 Hydrocarbons
13.1 Classification
Concept1O1 | 13.1
ConceptBooster 13.1
13.2 Alkanes
Concept1O1 | 13.2
ConceptBooster 13.2
13.3 Alkenes
Concept1O1 | 13.3
ConceptBooster 13.3
13.4 Alkynes
Concept1O1 | 13.4
ConceptBooster 13.4
13.5 Aromatic hydrocarbon
Concept1O1 | 13.5
ConceptBooster 13.5
13.6 Carcinogenicity and toxicity
Concept1O1 | 13.6
ConceptBooster 13.6
Ch14 Environmental Chemistry
14.1 Environmental pollution
Concept1O1 | 14.1
ConceptBooster 14.1
14.2 Atmospheric pollution
Concept1O1 | 14.2
ConceptBooster 14.2
14.3 Water pollution
Concept1O1 | 14.3
ConceptBooster 14.3
14.4 Soil pollution
Concept1O1 | 14.4
ConceptBooster 14.4
14.5 Industrial waste
Concept1O1 | 14.5
ConceptBooster 14.5
14.6 Strategies to control environmental pollution
Concept1O1 | 14.6
ConceptBooster 14.6
14.7 Green chemistry
Concept1O1 | 14.7
ConceptBooster 14.7
4.5 Valence bond theory
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