organic chemistry. carbon has a valence of 4 which makes it capable of entering into 4 covalent...

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Organic Chemistry

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Page 1: Organic Chemistry. Carbon has a valence of 4 which makes it capable of entering into 4 covalent bonds

Organic Chemistry

Page 2: Organic Chemistry. Carbon has a valence of 4 which makes it capable of entering into 4 covalent bonds

Carbon has a valence of 4 which makes it capable of entering into 4 covalent

bonds.

Page 3: Organic Chemistry. Carbon has a valence of 4 which makes it capable of entering into 4 covalent bonds

This situation allows carbon to form many different chemical compounds. The following are variations in which carbon may form different chemical compounds:

Page 4: Organic Chemistry. Carbon has a valence of 4 which makes it capable of entering into 4 covalent bonds

1). Length of the carbon skeleton may differ ( C-C, C-C-C, C-C-C-C-C, etc..).

Page 5: Organic Chemistry. Carbon has a valence of 4 which makes it capable of entering into 4 covalent bonds

2). Branching of the carbon skeleton

Page 6: Organic Chemistry. Carbon has a valence of 4 which makes it capable of entering into 4 covalent bonds

3). The number of double bonds may differ ( C=C-C-C, C=C=C-C ).

Page 7: Organic Chemistry. Carbon has a valence of 4 which makes it capable of entering into 4 covalent bonds

4). The molecular structure may be in ring form.

Page 8: Organic Chemistry. Carbon has a valence of 4 which makes it capable of entering into 4 covalent bonds

Chemical compounds with the same molecular formula but different structural formulas is called an isomer.

Page 9: Organic Chemistry. Carbon has a valence of 4 which makes it capable of entering into 4 covalent bonds

Functional Groups: These are certain groups of atoms attached to the carbon skeleton. This area is usually on the end of the molecule.

Page 10: Organic Chemistry. Carbon has a valence of 4 which makes it capable of entering into 4 covalent bonds

1. Hydroxyl R- OH makes molecule polar and produces an alcohol.

Page 11: Organic Chemistry. Carbon has a valence of 4 which makes it capable of entering into 4 covalent bonds

2. Carbonyl R=O produces compounds known as ketones and aldehydes

Page 12: Organic Chemistry. Carbon has a valence of 4 which makes it capable of entering into 4 covalent bonds

3. Carboxyl R=O and OH forms organic acids (carboxylic acids: formic, acetic, etc).

Page 13: Organic Chemistry. Carbon has a valence of 4 which makes it capable of entering into 4 covalent bonds

4. Amino R- N + 1 charge, usually basic, acts as a good buffer.

Page 14: Organic Chemistry. Carbon has a valence of 4 which makes it capable of entering into 4 covalent bonds

5. Sulfhydral R- S-H thiols, stabilizes protein molecular structures.

Page 15: Organic Chemistry. Carbon has a valence of 4 which makes it capable of entering into 4 covalent bonds

6. Phosphate R- O- P- O plus 2 more Oxygens attached to the P. energy storage that can be passed on from one molecule to another by the transfer of the group.

Page 16: Organic Chemistry. Carbon has a valence of 4 which makes it capable of entering into 4 covalent bonds

Structure and Function of MacromoleculesOrganic molecules that weigh more than 100,000 daltons are referred to as macromolecules. These macromolecules are constructed of smaller units called polymers. These polymers are subdivided into their basic units called monomers.

Page 17: Organic Chemistry. Carbon has a valence of 4 which makes it capable of entering into 4 covalent bonds

Polymers can be broken down to monomers in two ways: 1.Dehydration synthesis(removal of water) 2.Hydrolysis (addition of water).

Page 18: Organic Chemistry. Carbon has a valence of 4 which makes it capable of entering into 4 covalent bonds

Carbohydrates: include sugars and their polymers. They include monosaccharides disaccharides, and polysaccharides. The monosaccharide is a monomer, the disaccharide is a polymer,and the polysaccharides are macromolecules.

Page 19: Organic Chemistry. Carbon has a valence of 4 which makes it capable of entering into 4 covalent bonds

Lipids: A group of polymers that have one characteristic in common, they do not mix with water. They are hydrophobic. Some important groups are fats, phospholipids, and steroids.

Page 20: Organic Chemistry. Carbon has a valence of 4 which makes it capable of entering into 4 covalent bonds

Proteins: macromolecules that make up 50% of the dry weight of most cells.

Page 21: Organic Chemistry. Carbon has a valence of 4 which makes it capable of entering into 4 covalent bonds

Nucleic Acids: DNA and RNA.

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