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Organic Reactions. Complete Combustion Hydrocarbon ignited in a condition of excess oxygen will combust (oxidize) Forms carbon dioxide, energy and water.

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Presentation on theme: "Organic Reactions. Complete Combustion Hydrocarbon ignited in a condition of excess oxygen will combust (oxidize) Forms carbon dioxide, energy and water."— Presentation transcript:

1 Organic Reactions

2 Complete Combustion Hydrocarbon ignited in a condition of excess oxygen will combust (oxidize) Forms carbon dioxide, energy and water

3 Combustion is an exothermic reaction (so the net reaction involves the net output of heat energy)

4 Example Write the chemical equation that describes the combustion of propane in an oxygenated environment.

5 Incomplete Combustion chemical combustion is assumed complete unless otherwise stated If the oxygen is stoichiometrically limited, the combustion is incomplete

6 Products of Incomplete Combustion CO2, CO and C are all created and manifest as soot or ash

7 Substitution One or more hydrogen atoms are replaced by another atom (or group) Occurs on alkanes Only 1 atom may be added per substitution

8 Often occurs with halogens (producing a halocarbon and hydrogen halide) HC + halogen  halocarbon + hydrogen halide

9 Examples 1.Reaction of butane with bromine 2.Reaction of toluene with iodine 3.Reaction of decane with fluorine

10 Addition Addition reactions involve the breaking of UNSATURATED BONDS (double or triple bonds) 4 types of addition:

11 1. Hydrogenation hydrogen atoms are added to an unsaturated compound to make it more saturated

12 2. Hydration Water is added to unsaturated hydrocarbons to create an alcohol

13 3. Addition of Halogens, Hydrogen Halides and Acids Halogens break the unsaturated bonds to add attached atoms

14 4. Multiple Additions Multiple molecular additions are usually additions with aromatics or alkynes

15 Examples 1.The addition of hydrogen to propene 1.The addition of water to cyclohexene 2.The addition of fluorine to ethyne can occur twice 3.The addition of water to prop-1-yne followed by the addition of iodine

16

17 Cracking In the presence of a catalyst and / or heat, hydrogen gas can be used to split hydrocarbon chains addition of 2 hydrogens

18 Example Cracking 2,3,5-trimethyl nonane on the 4 th bond

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20 Reforming Opposite of hydrocarbon cracking Heat and / or catalyst is used to join smaller molecules Hydrogen gas is produced

21 Dehydrogenation Creating an unsaturated bond from a saturated hydrocarbon Example: Creating butene from butane in the presence of heat

22 Esterification Condensation reaction between a carboxylic acid and an alcohol produces an ester and water

23 The hydrogen atom leaves the alcohol and a hydroxyl group leaves the carboxylic acid (creating water)

24 Example 1. The reaction between ethanol and butanoic acid 2. The reaction between pentanoic acid and decanol 3. The reaction between benzenoic acid and phenol

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26 Elimination Reaction of an alkyl halide with a hydroxide ion to form an alkene, a halide ion and water

27 The hydroxide (OH-) takes a hydrogen from the hydrocarbon to form water The halide breaks away from the hydrocarbon chain and the HC forms a double bond

28 Example 1.The addition of hydroxide ion to 3-chloroheptane 2.The addition of hydroxide ion to iodo- cyclooctane

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