Molecular Geometry PDF

Summary

This document provides an overview of molecular geometry and hybridization concepts. It explains how molecules arrange their atoms to achieve maximum stability. It covers fundamental concepts such as bond angles, hybridization, and condensed formulas, all presented in an easily understandable way for further learning.

Full Transcript

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9/9/24, 11:45 AM Understanding Molecular Geometry and Hybridization

Molecular Geometry
Molecules spread out their atoms as far away from each other as possible. In a two-dimensional world, the furthest apart that the four chlorine atoms can get is 90 degrees.
However, in a three-dimensional world, each of these chlorine atoms can actually spread out further than 90 degrees, resulting in a 109.5 angle between each chlorine
atom. This shape is called a tetrahedron.

Three Simple Geometries 📐
Number of Things Geometry Bond Angle

2 Linear 180°

3 Trigonal Planar 120°

4 Tetrahedral 109.5°

Hybridization 🔬
Hybridization is a change that atoms undergo to form bonds.

Electron Geometry Bond Angle Hybridization Domains

2 180° sp 2

3 120° sp² 3

4 109.5° sp³ 4

Condensed Formulas 📝
A condensed formula is one that can be written on one line of type.

Examples
CH₃CH₂CH₂CH₂CH₃

CH₃(CH₂)₄CH₃

CH₃COCH₃

Sigma (σ) and Pi (π) Bonds 🔗
Single covalent bonds = one σ bond

Double bonds = one σ bond + one π bond

Triple bonds = one σ bond and two π bonds

Examples

Molecule Sigma (σ) Bonds Pi (π) Bonds

14 0

10 1

9 2

Bond Lengths and Strengths 📊
Triple bonds are shorter and stronger than double bonds, which are shorter and stronger than single bonds.
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9/9/24, 11:45 AM Understanding Molecular Geometry and Hybridization

Orbital Combinations
sp³ orbitals: one 2s orbital and three 2p orbitals

sp² orbitals: one 2s orbital and two 2p orbitals

sp orbitals: one 2s orbital and one 2p orbital

Resonance Structures 🔄
Resonance structures are different forms of a molecule that have the same arrangement of atoms but different arrangements of electrons.

Rules for Drawing Resonance Structures
Only electrons move, specifically pi electrons, lone pair electrons, or negative charges.

Do not move atoms.

You can move electrons toward or into an atom that does not have a full octet.

If an atom already has a full octet, you can move electrons into it only if you push electrons out the opposite side.

Cycloalkanes and Ring Strain ⭕️
Cycloalkanes are alkanes that are cyclic, or ringed.

The ideal geometry of a carbon atom with four single bonds is tetrahedral, with a bond angle of 109.5°.

Ring Strain

Polygon Sum of Interior Angles

Triangle 180°

Square 360°

Pentagon 540°

Hexagon 720°

Cyclohexane 🌀
Cyclohexane rings are very special because they are found in many real-life organic compounds.

Cyclohexane is the most stable cycloalkane because it allows a near-perfect 109.5° bond angle.

Chair Conformations
Chair conformations are the most stable form of cyclohexane.

Axial positions are less favorable than equatorial positions for larger groups due to 1,3-diaxial interactions.

Axial vs. Equatorial
Equatorial positions are more favorable than axial positions for larger groups.

The most stable form of a cyclohexane ring will be the one that places the largest number of its appendages in the equatorial positions.

Trans vs. Cis Cyclohexanes 🔀
If two substituents are going in the same direction (both up or both down), they are cis to each other.

If two substituents are going in opposite directions (one up and one down), they are trans to each other.

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