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Get the notes packet from the front.
Get the notes packet from the front. Get out your “nomenclature” worksheet Not the right attitude!!!
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Copyright Pearson Prentice Hall
Carbon is found in all living organisms. Carbon atoms can bond with hydrogen, oxygen, nitrogen, sulfur, and phosphorus to form organic compounds. Organic compounds are the building blocks for organisms and the major source of their chemical energy. CARBON COMPOUNDS = ORGANIC COMPOUNDS! Copyright Pearson Prentice Hall 2
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Organic Compounds Carbon-based compounds include: Simple hydrocarbons (made of H and C) Small carbon-containing molecules with functional groups. Complex polymers Biological molecules. Petrochemicals contain hydrocarbons, including propane, butane, and octane. Common pharmaceuticals that are organic compounds include aspirin, vitamins, insulin and many others. There is a close relationship between the properties and structure of organic molecules.
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Why is CARBON so Important?
Carbon atoms have the ability to form strong bonds. Not only can carbon atoms bond to H, N, O, P and S atoms, but a carbon atom can bond to other carbon atoms! -this gives carbon the ability to form long chains -the carbon-carbon bonds can be single, double, or triple covalent bonds -chains of carbon atoms can close and form rings Allows carbon to be the foundation of organic molecules. Allows for a large variety of structures such as DNA, RNA, lipids, carbohydrates and proteins (amino acids). The Bonding characteristics of carbon contribute to its stability and allow it to be the foundation of organic molecules.
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Polymers
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Monomer - A molecule that can combine with others of the same kind to form a polymer.
Polymer - Small molecules link to make large molecules that have combination of repetitive subunits.
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A string of Pearls + + + ….. =
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Natural Polymers
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Proteins Monomer - Amino acids
Polymer - When many amino acids bond together to create long chains, the polymer is called a protein (it is also called a polypeptide because it contains many peptide bonds).
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Insulin – A Human protein
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DNA (a nucleic acid) is a polymer
DNA is made of monomers called __Nucleotides_
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DNA is made of monomers called nucleotides
G
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Carbohydrates Polymer - The complex carbohydrates.
Monomer - The simple sugars Glucose, sucrose, fructose (and many others) Polymer - The complex carbohydrates. Starch and Cellulose are long chains of simple sugars
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Lipids Monomer = fatty acid
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Saturation The saturation depends on the amount of hydrogen bonded to the carbons. When there are double of triple bonds, the molecule is less saturated (less H). The number and orientation of the hydrogen attached to the carbon backbone affects the shape and reactivity of the carbon compounds.
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Synthetic Polymers: Plastics
Polyvinyl chloride (PVC) ……[C2H3Cl]n…… Monomer: Vinyl chloride C2H3Cl
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Synthetic Polymers Human-made (synthetic) polymers include polythene, nylon and Kevlar. These Plastics made from petrochemicals are organic compounds that consist of long chains of carbons.
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Synthetic Polymers and Their Uses
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Drawing Structures for Organic Compounds
Ugh! Drawing Again????
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Drawing Lewis Dot Structures
Put the Carbons in the middle. Connect the C atoms together in a chain. If you have any atoms other than H, they connect to the Carbon. Put the hydrogen as symmetrically as possible on the outside of everything else. Give everything an octet (8 e-) except H gets 2 e-. These simple organic chains can join together into ring structures – as you will see on the “Organic Functional Groups” WS.
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Propane: C3H8
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Ethene: C2H4
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Butanol CH3CH2CH2CH2OH or C4H9OH
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Benzene (ring) C6H6
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Organic Functional Groups (look at WKS)
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