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Chem 12A: Organic Chemistry Fall 2022
1: Introduction to Organic Chemistry- review of atoms and molecules

1: Introduction to Organic Chemistry- review of atoms and molecules

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1.1: Introduction to Organic Chemistry
Organic compounds contain carbon atoms bonded hydrogen and other carbon atoms. Organic chemistry studies the properties and reactions of organic compounds.
1.2: Structure of the Atom
Atomic structure is applied to several topics of organic chemistry. We will use atomic numbers and isotopes to determine priorities in nomenclature and stereoisomerism and mass numbers and isotopic distribution will be applicable in mass spectrometry.
1.3: The Electronic Structure of Atoms
A basic knowledge of the electronic structure of atoms requires an understanding of the properties of waves and electromagnetic radiation.
1.4: Electron Configurations and Electronic Orbital Diagrams (Review)
The electron configuration of an atom indicates the number of valence electrons. Valence electrons determine the unique chemistry of each element.
1.5: Octet Rule - Ionic and Covalent Bonding (Review)
By now we can all recite the Octet Rule in our sleep: atoms gain, lose, or share electrons to fill their s and p subshells to create stable compounds and ions.
1.6: Lewis Structures and Formal Charges (Review)
Lewis structures show us how atoms come together to create compounds and ions according to the octet rule. Recognizing the formal charge of some common bonding patterns will be helpful in learning reaction mechanisms.
1.7: Electron-Dot Model of Bonding - Lewis Structures
1.8: Common Bonding Patterns for Organic Chemistry
For organic chemistry, the common bonding patterns of carbon, oxygen, and nitrogen have useful applications to chemical structure and reactivity.
1.9: Hybridization and Molecular Shapes (Review)
Hybridization and the Valence Shell Electron Pair Repulsion Theory effectively predict the three-dimensional structure of organic molecules. Since carbon can only form four bonds, we can limit our study to the tetrahedral, trigonal planar, and linear electron geometries.
1.10: Molecular Orbital (MO) Theory (Review)
Molecular orbital (MO) theory describes the behavior of electrons in a molecule in terms of combinations of the atomic wavefunctions.

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