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Amines, Aldehydes, Ketones
Chemistry B11 Chapter 14 Amines, Aldehydes, Ketones and Carboxylic Acids
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Amines
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Amines Amines: Are derivatives of ammonia NH3.
Contain N attached to one or more alkyl (Aliphatic amine) or aromatic groups (Aromatic amine). CH3-NH CH3-NH-CH3 -NH2 amino group NH2
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Amines Amines are classified into three groups:
depending on the number of carbon groups bonded to nitrogen. CH CH3 CH3—NH2 CH3—NH CH3—N—CH3 Primary 1° Secondary 2° Tertiary 3°
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Naming Amines IUPAC name – 1° amines
The same method as we did for alcohols. - Drop the final “-e” of the parent alkane and replace it by “-amine”. - Use a number to locate the amino group (-NH2) on the parent chain. CH3-CH-CH3 NH2 CH3-CH-CH-CH3 NH2 Cl 3 5 3 1 6 4 2 1 3 2 2 1 4 2-propanamine 3-chloro-2-butanamine 1,6-hexanediamine
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Names of alkyl groups (In alphabetical order) + “amine”
Naming Amines Common name Names of alkyl groups (In alphabetical order) + “amine” CH3—CH2—NH2 ethylamine CH3—NH —CH3 dimethylamine CH3 | CH3—N—CH2—CH3 ethyldimethylamine
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Aniline (common name) NH2 Aniline NH2 NH2 NH2 CH3 CH3 Cl NO2
1 1 1 2 3 CH3 3 3 4 CH3 4 Cl NO2 4-Nitroaniline 3-Methylaniline 4-Chloro-3-methylaniline
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Naming Amines IUPAC name – 2° and 3° amines aniline CH3 CH3-N-CH2-CH3
Take the largest group bonded to nitrogen as the parent amine. Name the smaller group(s) bonded to nitrogen, and show their locations on nitrogen by using the prefix “N”. aniline CH3-N-CH2-CH3 CH3 N,N-Dimethylethanamine
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Heterocyclic amines When N is one of the atoms of a ring. Pyrrolidine
CH3 Pyrrolidine Pyridine Nicotine
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Physical properties of Amines
They have unpleasant odors (rotting fish like ammonia). They are polar compounds. Difference in electronegativity between N - H (3.0 – 2.1 = 0.9) 3. 1° and 2° amines have hydrogen bonds (N-H). Weaker than alcohols (O-H). 3° amines do not form hydrogen bonds (no H atom). Boiling points: Hydrocarbons< Amines < Alcohols Almost soluble in water (hydrogen bonding)(like dissolves like)
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. Chemical properties of Amines
They are weak bases (like ammonia): react with acids. (to form water-soluble salts) N H CH3 . + H – O – H O – H - Some amines present in our blood and make it just basic (pH = 7.4).
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Chemical properties of Amines
Aliphatic amines are weak bases by comparison with inorganic bases such as NaOH, they are strong bases among organic compounds. Aliphatic amines are stronger bases than aromatic amines. (slightly stronger than NH3)
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Examples Complete each acid-base reaction and name the salt formed.
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Complete each acid-base reaction and name the salt formed.
Examples Complete each acid-base reaction and name the salt formed. Solutions:
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Aldehydes Ketones
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Carbonyl group C = O Aldehydes Ketones Carboxylic acids Esters
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= Aldehydes and Ketones O C
In an aldehyde, at least one H atom is attached to the carbonyl. In a ketone, two carbon groups are attached to the carbonyl. Formaldehyde Acetone
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Naming Aldehydes Step 1 Step 2 Step 3 Step 4
Select the longest carbon chain that contains the carbonyl group (C=O). Step 2 Number from the end nearest C=O group. Step 3 Change the ending of parent alkane from -e to -al. Step 4 Give the location and name of each substituent (alphabetical order) as a prefix to the name of the main chain.
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H─C─H CH3─ C ─H CH3─CH2─ C ─H methanal ethanal propanal
Naming Aldehydes Common names for the first two aldehydes use the prefixes “form” (1C) and “acet” (2C) followed by “aldehyde”. O O O ║ ║ ║ H─C─H CH3─ C ─H CH3─CH2─ C ─H methanal ethanal propanal (formaldehyde) (acetaldehyde)
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CH3─CH─CH2─ C─H 3-Methylbutanal
O ║ CH3─CH─CH2─ C─H 3-Methylbutanal Cl─CH2─CH2─ C─H 3-chloropropanal CH3 4 3 2 1 3 2 1
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Naming Ketones Step 1 Step 2 Step 3 Step 4
Select the longest carbon chain that contains the carbonyl group (C=O). Step 2 Number from the end nearest C=O group. Step 3 Change the ending of parent alkane from -e to -one. Use the number to show the location of C=O. Step 4 Give the location and name of each substituent (alphabetical order) as a prefix to the name of the main chain.
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(dimethyl ketone) (ethyl methyl ketone)
Naming Ketones In the common name, name the “alkyl groups” alphabetically attached to the carbonyl group and add the word “ketone”. O O ║ ║ CH3 ─ C ─CH CH3─C─CH2─CH3 propanone butanone (dimethyl ketone) (ethyl methyl ketone) 1 2 3 4
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3-Chloro Cl
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Physical properties of Aldehydes and Ketones
They have strong odors (ketones have pleasant odors). They are polar compounds. Only dipole-dipole interactions (no hydrogen bonding). Low boiling points compared to amines and alcohols. Soluble in water (not soluble in nonpolar compounds). δ+ δ- C-O = 1 Higher than alkanes. H δ+ O H δ+ δ- Hydrogen bond with water.
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Chemical properties of Aldehydes and Ketones
1. Oxidation: only for aldehydes (not for ketones). CH3─CH2─CH2─CH2─C─H = O Pentanal O K2Cr2O7 = CH3─CH2─CH2─CH2─C─OH H2SO4 Pentanoic acid K2Cr2O7: Strong Oxidizing agent Liquid aldehydes are sensetive to oxidation. No oxidizing agent
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Chemical properties of Aldehydes and Ketones
2. Reduction: Like reducing the alkene (C = C) to alkane (C – C): Reduction of an aldehyde gives a primary alcohol (-CH2OH). Reduction of a ketone gives a secondary alcohol (-CHOH-). O t r a n s i o m e l c y = CH3─CH2─CH2─CH2─C─ H + H 2 CH3─CH2─CH2─CH2─CH2─ OH Pentanal 1 - P e n t a o l H 2 t r a n s i o m e l c y + CH3─C─CH2─CH3 = O CH3─CH─CH2─CH3 - OH 2-butanol 2-butanone
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Carboxylic Acids
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Carboxylic Acids A carboxylic acid contains a carboxyl group, which is a carbonyl group attach to a hydroxyl group. carbonyl group O CH3 — C—OH hydroxyl group or CH3COOH carboxyl group CH3CO2H
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Naming Carboxylic Acids
In the IUPAC name of carboxylic acids, the “-e” in the name of the longest chain is replaced by “-oic acid”. The common names use prefixes “form-” and “acet-” for the first two carboxylic acids. H-COOH methanoic acid formic acid CH3-COOH ethanoic acid acetic acid CH3-CH2-COOH propanoic acid CH3-CH2-CH2-COOH butanoic acid
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Naming Carboxylic Acids
Number the chain beginning with the carbon of the carboxyl group. Because the carboxyl carbon is understood to be carbon 1, there is no need to give it a number. CH3 CH2 – CH3 3 1 2 1 CH3─CH─CH2─COOH CH3─CH2─CH─COOH 3-Methylbutanoic acid 2-Ethylbutanoic acid O H O 4 1 5 H 2 N C O H 1 O H 5-Hydroxylhexanoic acid 4-Aminobenzoic acid
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Naming Dicarboxylic Acids
Add the suffix “-dioic acid” to the name of the parent alkane that contains both carboxyl groups; thus, “-ane” becomes “-anedioic acid”. The numbers of the carboxyl carbons are not indicated because they can be only at the ends of the chain. O O O H O 1 3 1 2 O H H O O H O Ehanedioic acid Propanedioic acid O O O O H O 1 5 1 H O 1 4 6 O H H O O H O H O O Butanedioic acid Pentanedioic acid Hexanedioic acid
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Physical properties of Carboxylic Acids
1- The carboxyl group contains three polar covalent bonds; C=O, C-O, and O-H. So they are polar. 2- Carboxylic acids have higher boiling points than other types of organic compounds (with the same molecular weight) because of hydrogen bonding. 3- They are more soluble in water than alcohols, ethers, aldehydes, and ketones because of stronger hydrogen bonding. 4- Liquid carboxylic acids have sharp and disagreeable odors. 5- They taste sour (exist in pickles, limes, and lemons). H 3 C O d - + Hydrogen bonding between two molecules
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Chemical properties of Carboxylic Acids
1- They are weak acids. Substituents of high electronegativity, especially -OH, -Cl, and -NH3+, near the carboxyl group increase the acidity of carboxylic acids. 2- Reaction with bases: They react with NaOH, KOH, NH3, and other strong bases to form water-soluble salts.
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Chemical properties of Carboxylic Acids
3- Fischer Esterification: - A carboxylic acid reacts with an alcohol to form an ester. - Using an acid catalyst such as concentrated sulfuric acid. The best way to prepare an ester.
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