3.1. Kossel–Lewis approach to Chemical Bonding 3.2. Ionic or Electrovalent Bond - Factors favorable for the Formation of Ionic Compounds - Crystal Structure of Sodium Chloride - General Properties of Ionic Compounds 3.2. Ionic or Electrovalent Bond - Factors favorable for the Formation of Ionic Compounds - Crystal Structure of Sodium Chloride - General Properties of Ionic Compounds 3.2. Ionic or Electrovalent Bond - Factors favorable for the Formation of Ionic Compounds - Crystal Structure of Sodium Chloride - General Properties of Ionic Compounds 3.2. Ionic or Electrovalent Bond - Factors favorable for the Formation of Ionic Compounds - Crystal Structure of Sodium Chloride - General Properties of Ionic Compounds 3.3. Bond Parameters – Bond Length, Bond Angle, Bond Enthalpy, Bond Order, Resonance - Polarity of Bonds, Dipole Moment 3.3. Bond Parameters – Bond Length, Bond Angle, Bond Enthalpy, Bond Order, Resonance - Polarity of Bonds, Dipole Moment 3.3. Bond Parameters – Bond Length, Bond Angle, Bond Enthalpy, Bond Order, Resonance - Polarity of Bonds, Dipole Moment 3.3. Bond Parameters – Bond Length, Bond Angle, Bond Enthalpy, Bond Order, Resonance - Polarity of Bonds, Dipole Moment 3.3. Bond Parameters – Bond Length, Bond Angle, Bond Enthalpy, Bond Order, Resonance - Polarity of Bonds, Dipole Moment 3.3. Bond Parameters – Bond Length, Bond Angle, Bond Enthalpy, Bond Order, Resonance - Polarity of Bonds, Dipole Moment 3.4 Valence Shell Electron Pair Repulsion (VSEPR) Theories. Predicting the Geometry of Simple Molecules 3.4 Valence Shell Electron Pair Repulsion (VSEPR) Theories. Predicting the Geometry of Simple Molecules 3.4.1. Valence Bond Theory - Orbital Overlap Concept - Directional Properties of Bonds - Overlapping of Atomic Orbitals Strength of Sigma and Pi Bonds - Factors favoring the Formation of Covalent Bonds 3.4.1. Valence Bond Theory - Orbital Overlap Concept - Directional Properties of Bonds - Overlapping of Atomic Orbitals Strength of Sigma and Pi Bonds - Factors favoring the Formation of Covalent Bonds 3.4.1. Valence Bond Theory - Orbital Overlap Concept - Directional Properties of Bonds - Overlapping of Atomic Orbitals Strength of Sigma and Pi Bonds - Factors favoring the Formation of Covalent Bonds 3.4.1. Valence Bond Theory - Orbital Overlap Concept - Directional Properties of Bonds - Overlapping of Atomic Orbitals Strength of Sigma and Pi Bonds - Factors favoring the Formation of Covalent Bonds 3.4.1. Valence Bond Theory - Orbital Overlap Concept - Directional Properties of Bonds - Overlapping of Atomic Orbitals Strength of Sigma and Pi Bonds - Factors favoring the Formation of Covalent Bonds 3.4.1. Valence Bond Theory - Orbital Overlap Concept - Directional Properties of Bonds - Overlapping of Atomic Orbitals Strength of Sigma and Pi Bonds - Factors favoring the Formation of Covalent Bonds 3.4.1. Valence Bond Theory - Orbital Overlap Concept - Directional Properties of Bonds - Overlapping of Atomic Orbitals Strength of Sigma and Pi Bonds - Factors favoring the Formation of Covalent Bonds 3.4.1. Valence Bond Theory - Orbital Overlap Concept - Directional Properties of Bonds - Overlapping of Atomic Orbitals Strength of Sigma and Pi Bonds - Factors favoring the Formation of Covalent Bonds 3.4.2. Hybridization - Different Types of Hybridization involving s, p and d Orbitals - Shapes of Simple Covalent Molecules 3.4.2. Hybridization - Different Types of Hybridization involving s, p and d Orbitals - Shapes of Simple Covalent Molecules 3.4.2. Hybridization - Different Types of Hybridization involving s, p and d Orbitals - Shapes of Simple Covalent Molecules 3.4.3. Coordinate Bond – Definition with Examples 3.4.3. Coordinate Bond – Definition with Examples 3.4.4. Molecular Orbital Theory – Formation of Molecular Orbitals, Linear Combination of Atomic Orbitals (LCAO) - Conditions for Combination of Atomic Orbitals - Energy Level Diagrams for Molecular Orbitals - Bonding in Some Homo Nuclear Diatomic Molecules - H?,He?,Li?,B?,C?,N?,and O? 3.4.4. Molecular Orbital Theory – Formation of Molecular Orbitals, Linear Combination of Atomic Orbitals (LCAO) - Conditions for Combination of Atomic Orbitals - Energy Level Diagrams for Molecular Orbitals - Bonding in Some Homo Nuclear Diatomic Molecules - H?,He?,Li?,B?,C?,N?,and O? 3.4.4. Molecular Orbital Theory – Formation of Molecular Orbitals, Linear Combination of Atomic Orbitals (LCAO) - Conditions for Combination of Atomic Orbitals - Energy Level Diagrams for Molecular Orbitals - Bonding in Some Homo Nuclear Diatomic Molecules - H?,He?,Li?,B?,C?,N?,and O? 3.4.4. Molecular Orbital Theory – Formation of Molecular Orbitals, Linear Combination of Atomic Orbitals (LCAO) - Conditions for Combination of Atomic Orbitals - Energy Level Diagrams for Molecular Orbitals - Bonding in Some Homo Nuclear Diatomic Molecules - H?,He?,Li?,B?,C?,N?,and O? 3.4.4. Molecular Orbital Theory – Formation of Molecular Orbitals, Linear Combination of Atomic Orbitals (LCAO) - Conditions for Combination of Atomic Orbitals - Energy Level Diagrams for Molecular Orbitals - Bonding in Some Homo Nuclear Diatomic Molecules - H?,He?,Li?,B?,C?,N?,and O? 3.4.4. Molecular Orbital Theory – Formation of Molecular Orbitals, Linear Combination of Atomic Orbitals (LCAO) - Conditions for Combination of Atomic Orbitals - Energy Level Diagrams for Molecular Orbitals - Bonding in Some Homo Nuclear Diatomic Molecules - H?,He?,Li?,B?,C?,N?,and O? 3.4.5. Hydrogen Bonding - Cause of Formation of Hydrogen Bond - Types of Hydrogen Bonds - Inter and Intra Molecular - General Properties of Hydrogen Bonds 3.4.5. Hydrogen Bonding - Cause of Formation of Hydrogen Bond - Types of Hydrogen Bonds - Inter and Intra Molecular - General Properties of Hydrogen Bonds 3.4.5. Hydrogen Bonding - Cause of Formation of Hydrogen Bond - Types of Hydrogen Bonds - Inter and Intra Molecular - General Properties of Hydrogen Bonds 3.4.5. Hydrogen Bonding - Cause of Formation of Hydrogen Bond - Types of Hydrogen Bonds - Inter and Intra Molecular - General Properties of Hydrogen Bonds 3.4.5. Hydrogen Bonding - Cause of Formation of Hydrogen Bond - Types of Hydrogen Bonds - Inter and Intra Molecular - General Properties of Hydrogen Bonds
1 - Atomic Structure 2 - Classification of Elements and Periodicity in Properties 3 -Chemical Bonding and Molecular Structure 4 - States of Mater: Gases and Liquids 5 - Stoichiometry 6 - Thermodynamics 7 - Chemical Equilibrium and Acids-Bases 8 - Hydrogen and Its Compounds 9 - The s-Block Elements 10 - The p-Block Elements Group 13 (Boron Family) 11 - The p-Block Elements Group 14 (Carbon Family) 12 - Environmental Chemistry 13 - Organic Chemistry - Some Basic Principles and Techniques and Hydrocarbons