3: Simple Bonding Theory

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3.1: Lewis Electron-Dot Diagrams
This page covers Gilbert Lewis's electron dot diagrams for atomic bonding and molecular shapes, focusing on the octet rule, which states atoms bond to achieve a full valence shell. It addresses exceptions to this rule, such as hypovalency and hypervalency. Additionally, it discusses electron counting rules for octets and formal charges, and offers practice exercises for drawing Lewis structures of different molecules.
3.2: Valence Shell Electron-Pair Repulsion
This page explains the VSEPR model, which predicts molecular structures by minimizing electron pair repulsion around a central atom, using the AXmEn notation to assign geometries like linear, trigonal planar, tetrahedral, and octahedral. It also details sulfur hexafluoride (SF6) as an example of AX6, illustrating its octahedral geometry due to its six equivalent positions and electronic interactions. Exercises are included to practice predicting geometries for various molecules.
3.3: Molecular Polarity
This page explains dipole moments arising from charge separation due to electronegativity differences, measured in Debye units. It highlights that polar molecules, such as water, have significant dipole moments due to asymmetric geometries, while nonpolar molecules can maintain symmetrical shapes that cancel out dipole moments despite containing polar bonds, such as in \(\ce{C_2Cl_4}\) and \(\ce{CH_3Cl}\).
3.4: Hydrogen Bonding
This page covers hydrogen bonds as a significant type of intermolecular force that forms between a hydrogen atom and electronegative atoms. It distinguishes between intramolecular and intermolecular hydrogen bonding, emphasizing their importance in determining physical properties like boiling points and viscosity.

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