Chemistry For Grade 11

Introduction

Grade 11 Chemistry provides a broad understanding of chemical principles, focusing on stoichiometry, gas laws, and solution chemistry. Students explore atomic orbitals, periodic trends, and advanced chemical bonding concepts. Reaction kinetics, equilibrium, acids and bases, and buffer solutions are introduced, along with quantitative problem-solving. Organic chemistry expands to include functional groups, isomerism, and simple reaction mechanisms. Laboratory skills, data analysis, and applying chemistry to real-world contexts are emphasized, preparing students for higher-level study.

All Chapters & Topics

1.  Basic concepts of chemistry

• 1.1.  Importance of Chemistry
• 1.2.  Nature and scope of chemistry
• 1.3.  laws of chemical combination
• 1.3.1.  Law of conservation of mass
• 1.3.2.  Law of definite proportions
• 1.3.3.  Law of multiple proportions
• 1.3.4.  Law of gaseous volume
• 1.3.5.  Avogadro's Law
• 1.4.  Dalton's atomic theory
• 1.5.  Mole concept and molar mass
• 1.6.  Percent composition
• 1.7.  Empirical and molecular formula
• 1.8.  Stoichiometry and Stoichiometric Calculations
• 1.9.  Limiting reagent concept

2.  Structure of the atom

• 2.1.  Discovery of the electron, proton, and neutron
• 2.2.  Atomic Model
• 2.2.1.  Thomson's model
• 2.2.2.  Rutherford's model
• 2.2.3.  Bohr's model
• 2.3.  Quantum mechanical model of the atom
• 2.4.  Dual nature of matter and radiation
• 2.5.  Heisenberg's uncertainty principle
• 2.6.  Quantum numbers
• 2.7.  Atomic orbitals and their shapes
• 2.8.  Electronic configuration of elements
• 2.9.  Aufbau principle
• 2.10.  Pauli's exclusion principle
• 2.11.  Hund's maximum multiplicity rule
• 2.12.  de Broglie's hypothesis
• 2.13.  Photoelectric effect

3.  Classification of elements and periodicity in properties

• 3.1.  Historical development of the periodic table
• 3.2.  Modern Periodic Law and Periodic Table
• 3.3.  Periodic trends in properties
• 3.3.1.  Atomic and Ionic Radius
• 3.3.2.  Ionization enthalpy
• 3.3.3.  Electron gain enthalpy
• 3.3.4.  Electronegativity
• 3.3.5.  Valency
• 3.3.6.  Metallic and Non-Metallic Properties
• 3.3.7.  Oxidation states
• 3.4.  Unusual Properties of the First Elements

4.  Chemical Bonding and Molecular Structure

• 4.1.  Kossel–Lewis approach to chemical bonding
• 4.2.  Ionic or electrovalent bond
• 4.3.  Covalent bond and its features
• 4.4.  Bond parameters
• 4.5.  VSEPR Theory
• 4.6.  Valence bond theory
• 4.7.  Hybridization and its types
• 4.8.  Molecular orbital theory
• 4.8.1.  Bond order and stability
• 4.9.  Hydrogen bonding

5.  States of matter

• 5.1.  Intermolecular forces
• 5.2.  Gas Laws
• 5.2.1.  Boyle's law
• 5.2.2.  Charles's Law
• 5.2.3.  Avogadro's Law
• 5.2.4.  Dalton's law of partial pressure
• 5.2.5.  Graham's law of spread
• 5.3.  Ideal Gas Equation and Applications
• 5.4.  Real gases and deviations from ideal behaviour
• 5.5.  Kinetic molecular theory of gases
• 5.6.  Liquefaction of gases
• 5.7.  Properties of Liquids
• 5.8.  Surface tension and viscosity

6.  Thermodynamics

• 6.1.  System and environment
• 6.2.  Types of systems in thermodynamics
• 6.3.  Types of procedures
• 6.4.  First law of thermodynamics
• 6.5.  Internal energy and enthalpy
• 6.6.  Heat capacity and specific heat
• 6.7.  Hess's law of constant heat summation
• 6.8.  Bond dissociation enthalpy
• 6.9.  Enthalpy of formation and combustion
• 6.10.  Enthalpy of solution and neutralization
• 6.11.  Spontaneity and the second law of thermodynamics
• 6.12.  Gibbs free energy and its applications

7.  Balance

• 7.1.  The concept of balance
• 7.2.  Equilibrium constant and its applications
• 7.3.  Le Chatelier's principle
• 7.4.  Ionic equilibrium in solutions
• 7.5.  Acid and Base Theory
• 7.5.1.  Arrhenius concept
• 7.5.2.  Bronsted-Lowry concept
• 7.5.3.  Lewis concept
• 7.6.  pH Scale and pOH
• 7.7.  Common ion effect
• 7.8.  Hydrolysis of salts
• 7.9.  Buffer solutions and their mechanism of action
• 7.10.  Solubility equilibrium of sparingly soluble salts

8.  Redox reactions

• 8.1.  Oxidation and reduction concepts
• 8.2.  Oxidation number and its applications
• 8.3.  Redox reactions in terms of electron transfer
• 8.4.  Balancing redox reactions (oxidation number and ion-electron methods)
• 8.5.  Types of redox reactions
• 8.6.  Electrochemical Cells and Redox Reactions

9.  Hydrogen

• 9.1.  Position of Hydrogen in the Periodic Table
• 9.2.  Isotopes of hydrogen
• 9.3.  Preparation of Hydrogen
• 9.4.  Properties of Hydrogen
• 9.5.  Hydrides and their classification
• 9.6.  Water and heavy water
• 9.7.  Hydrogen peroxide and its properties
• 9.8.  Uses of Hydrogen and Its Compounds

10.  S-block elements (alkali and alkaline earth metals)

• 10.1.  Group 1 Elements - Properties and Trends
• 10.2.  Group 2 Elements - Properties and Trends
• 10.3.  Unusual properties of lithium and beryllium
• 10.4.  Important compounds of sodium and their uses
• 10.5.  Important Compounds of Magnesium and Calcium

11.  Some p-block elements

• 11.1.  General Introduction to p-Block Elements
• 11.2.  Group 13 Elements
• 11.2.1.  Boron and its compounds
• 11.3.  Group 14 Elements
• 11.3.1.  Carbon and its allotropes
• 11.3.2.  Important Compounds of Carbon and Silicon

12.  Organic Chemistry - Some Basic Principles and Techniques

• 12.1.  Classification and Nomenclature of Organic Compounds
• 12.2.  Structural representation of organic compounds
• 12.3.  Classification of organic reactions
• 12.4.  Electronic Effects in Organic Chemistry
• 12.4.1.  Inductive effect
• 12.4.2.  Resonance effect
• 12.4.3.  Hyperconjugation
• 12.5.  Reaction mechanism and intermediate species
• 12.6.  Purification and qualitative analysis of organic compounds

13.  Hydrocarbons

• 13.1.  Hydrocarbons
• 13.1.1.  Preparation and Properties of Alkenes
• 13.2.  alkene
• 13.2.1.  Preparation and Properties of Alkenes
• 13.2.2.  Electrophilic addition reactions
• 13.3.  Alkynes
• 13.3.1.  Preparation and Properties of Alkynes
• 13.4.  Aromatic hydrocarbons
• 13.4.1.  Structure and properties of benzene
• 13.4.2.  Electrophilic substitution reactions of benzene

14.  Environmental Chemistry

• 14.1.  Environmental Pollution
• 14.2.  Atmospheric pollution and the greenhouse effect
• 14.3.  Water pollution and treatment methods
• 14.4.  Soil pollution and its effects
• 14.5.  Industrial waste and its treatment
• 14.6.  Strategies for pollution control