Nitriles, Amines and Amides

Question 1

What are amines

Answer 1

1. Amines are organic compounds derived from ammonia, NH3, in which one or more hydrogen atoms in ammonia have been replaced by a carbon chain or ring

Question 2

What is an aliphatic amine

Answer 2

1. In an aliphatic amine the nitrogen atom is attached to at least one straight or branched carbon chain (alkyl group).
2. Methylamine is the simplest aliphatic amine CH3NH2

Question 3

What is an aromatic amine

Answer 3

1. In an aromatic amine the nitrogen atom is attached to an aromatic ring
2. Phenylamine is the simplest aromatic amine C6H5NH2

Question 4

What is the difference between primary, secondary and tertiary amines and give examples

Answer 4

1. Primary- 1 alkyl/aryl group attached to the nitrogen
   e. g. CH3CH2CH2NH2, C6H5NH2
2. Secondary- 2 alkyl/aryl groups attached to the nitrogen
   e. g. (C2H5)2NH, C6H5NH(CH3)
3. Tertiary- 3 alkyl/aryl groups attached to the nitrogen
   e. g. (CH3)3N, C6H5N(CH3)2

Question 5

How do you name amines

Answer 5

1. Primary amine with NH2 on the end of the chain- Add the suffix amine to the name of the alkyl chain e.g ethylamine
2. Primary amine with NH2 on any other carbon except C-1 - Use prefix amino and a number in front to indicate its position on the carbon chain e.g 2-aminobutane
3. Secondary/tertiary amines that contain the same alkyl group- prefix di or tri are used to indicate number of alkyl groups attached e.g (CH3)2NH is dimethylamine
4. When two or more different groups are attached to a nitrogen atom- the compound is named as a N-substituted derivative of a larger group. e.g CH3NHCH2CH2CH3 is N-methylpropylamine
5. Practice naming p6 of study pack

Question 6

Name the following compounds:

1. NH2CH2CH2CH2CH2NH2
2. CH3CH2CH(NH2)CH2CH2CH3

Answer 6

1. 1,4-diaminobutane

2. Hexyl-3-amine

Question 7

How do amines behave in their chemical reactions and give an example with ethlyamine

Answer 7

1. Behave as bases
2. As the lone pair of electrons on the nitrogen atom can accept a proton
3. When an amine accepts a proton, a dative covalent bond is formed between the lone pair of electrons on the nitrogen atom and the proton
4. C2H5HN2 + H+ → [C2H5NH3]+
   ethylamine + proton→ ethylammonium ion

Question 8

What is formed when amines react with acids and give 2 examples:

1. Propylamine + HCl
2. Ethylamine + H2SO4

Answer 8

1. They neutralise acids to make salts as they are bases
2. CH3CH2CH2NH2 + HCl → CH3CH2CH2NH3+Cl-
   propylamine + HCl → propylammonium chloride
3. 2CH3CH2NH2 + H2SO4 → (CH3CH2NH3+)2SO4 2-
   ethylamine + H2SO4 → ethylammonium sulfate

Question 9

Describe and explain the difference of boiling point of 1-aminobutane compared to pentane and butan-1-ol

Answer 9

1. 1-aminobutane has hydrogen bonds between molecules which are stronger than London forces in pentane
2. However, the hydrogen bonds are weaker than those in butan-1-ol

Question 10

Describe the formation of primary amines and show an example with 1-chloropropane

Answer 10

1. Ammonia has a lone pair of electrons o the nitrogen atom which allows ammonia to act as a nucleophile in a substitution reaction with a haloalkane. Forming an ammonium salt
   CH3CH2CH2Cl + NH3 → CH3CH2CH2NH3+Cl-
   1-chloropropane + NH3 → propylammonium chloride (salt)
2. Aqueous alkali is then added to generate the amine from the salt.
   CH3CH2CH2NH3+Cl- + NaOH → CH3CH2CH2NH2 + NaCl + H2O
   propylammonium chloride + NaOH → propylamine

Question 11

What are the conditions needed for the formation of primary amines

Answer 11

1. Ethanol is used as the solvent- this prevents any substitution of the haloalkane by water to produce alcohols. And haloalkanes aren’t soluble in water.
2. Excess ammonia is used- this reduces further substitution of the amine group to form secondary and tertiary amines

Question 12

Describe the formation of secondary and tertiary amines and five an example with propylamine and 1-chloropropane

Answer 12

1. The reaction to make primary amines is unsuitable for making a pure primary amine.
2. The product still contains a lone pair of electrons on the nitrogen atom that can react further with a haloalkane to form a secondary amine- the product is an ammonium salt.
   CH3CH2CH2Cl + CH3CH2CH2NH2 → (CH3CH2CH2)2NH2+Cl-
   1-chloropropane + propylamine → dipropylammonium chloride
3. The secondary amine is obtained from the salt by reacting with NaOH
   (CH3CH2CH2)2NH2+Cl- + NaOH → (CH3CH2CH2)2NH + NaCl + H2O
   dipropylammonium chloride → dipropylamine
4. Tertiary amines can also be formed by further reaction of the secondary amine e.g form tripropylamine

Question 13

Describe the preparation of aromatic amines and give an example using phenylamine

Answer 13

1. Phenylamine is made by the reduction of nitrobenzene
2. Nitrobenzene is heated under reflux with tin and HCl to form the ammonium salt phenylammonium chloride
3. This is then reacted with excess NaOH to produce the aromatic amine
4. The tin and HCl act as reducing agent.
5. Nitrobenzene + 6[H] → phenylamine + 2H2O
6. Sn/conc Hcl and excess NaOH (aq) are written above and below the arrow

Question 14

Which functional groups are present in all amino acids

Answer 14

1. Carboxylic acid

2. Amine

Question 15

Describe and draw the basic structure of an α-amino acid

Answer 15

1. Amine group is attached to the α-carbon atom- the second carbon next to the carborxylic acid group
2. They differ by side chain R
3. General formula- RCH(NH2)COOH

Question 16

Describe the reactions of the amine group in an amino acid and show an example with 2-aminopropanoic acid and HCl

Answer 16

1. The amine group is basic and reacts with acids to make salts. So amino acids will also react with acids to form salts
2. CH3CH(NH2)COOH + HCl → CH3CH(NH3+)COOH + Cl-

Question 17

What are the two main reactions of the carboxylic acid group in amino acids

Answer 17

1. React with alkalis to form salts

2. React with alcohols to form esters

Question 18

Describe the reactions of the carboxylic acid group in amino acids and aqueous alkalis and give example with aminoethanoic acid

Answer 18

1. An amino acid reacts with an aqueous alkali e.g Na/KOH to form a salt and water
2. CH2(NH2)COOH + NaOH → CH2(NH2)COO-Na+ + H2O

Question 19

Describe the reactions of the carboxylic acid group in amino acids and alcohols and give example with aminoethanoic acid

Answer 19

1. Amino acids are easily esterified by heating with an alcohol in the presence of concentrated sulfuric acid
2. CH2OHCH(NH2)COOH + C2H5OH + H+ → CH2OHCH(NH3+)COOC2H5 + H2O
3. The acidic conditions protonate the basic amine group of the ester.

Question 20

What are amides

Answer 20

1. Amides are the products of reactions of acyl chlorides with ammonia and amines
2. There are primary, secondary and tertiary amides
3. It consists of a carbonyl group bonded to a nitrogen
4. Primary if the nitrogen is attached to one carbon
5. Secondary if nitrogen is attached to two carbons etc.

Question 21

Describe the reaction between acyl chlorides and ammonia and give example with ethanoyl chloride

Answer 21

1. Ammonia can act as a nucleophile by donating the lone pair of electrons on the nitrogen atom to an electron-deficient species
2. Forms primary amides when reacting with acyl chlorides (Nitrogen atom attached to one carbon atom)
3. CH3COCl + 2NH3 → CH3CONH2 + NH4Cl

Question 22

Describe the reaction between acyl chlorides and amines and give an example with ethanoyl chloride and methylamine

Answer 22

1. Primary amine reacts with acyl chloride in the same way as ammonia to form secondary amide (Nitrogen atom attached to two carbon atoms)
2. CH3COCl + 2CH3NH2 → CH3CONHCH3 + CH3NH3+Cl-

Question 23

Write an equation for the reaction of ethanoyl chloride with ammonia

Answer 23

CH3COCl + NH3 →CH3CONH2 + HCl

Question 24

Define stereoisomers

Answer 24

Compounds with the same structural formula but with a different arrangement of the atoms in space

Question 25

Define optical isomers

Answer 25

Stereoisomers that are non-superimposable mirror images of each other; also called enantiomers

Question 26

Name the two main types of isomerism and give examples of each

Answer 26

1. Structural isomerism- different structural formula
   - chain isomerism
   - positional isomerism
   - functional group isomerism
2. Stereoisomerism
   - E/Z isomerism
   - optical isomerism

Question 27

Describe where optical isomerism is found

Answer 27

1. Optical isomerism is found in molecules that contain a chiral centre (carbon atom that is attached to four different atoms of groups of atoms)- doesn’t have to be carbon but in organic chemistry it normally is
2. The presence of a chiral carbon atom in a molecule leads to the existence of two non-superimposable mirror image structures
3. For each chiral carbon there is always one pair of optical isomers

Question 28

Describe how you get optical isomers in amino acids

Answer 28

1. Except for glycine- H2NCH2COOH, all α-amino acids contain a chiral carbon atom
2. The α-carbon atom is bonded to four different atoms or groups

Question 29

How do you draw an optical isomer

Answer 29

1. They are drawn to show 3D tetrahedral arrangement of the four different groups around the central chiral carbon atom.
2. Once one isomer has been drawn, the other isomer is drawn as a mirror image, reflecting the first structure.
3. A dotted line between the two isomers is often drawn to represent a mirror

Question 30

Give two examples of condensation polymers

Answer 30

1. Polyesters

2. Polyamides

Question 31

Describe the different combinations of monomers that can form polyamides

Answer 31

1. One monomer containing both a carboxylic acid and an amine group
2. Two monomers- one containing two carboxylic groups and one containing two amine groups

Question 32

Describe the formation of polyamides from one monomer containing two functional groups

Answer 32

1. Amino acids contain carboxylic acid group and an amine group
2. They can undergo condensation polymerisation of form polypeptides or proteins
3. Water is lost in this reactions when an amide bond is formed
4. The bond forms between COOH group and NH2 group, the OH and H break off to form water.

Question 33

Describe the formation of polyamides from two monomers each with two functional groups

Answer 33

1. Reaction of dicarboxylic acid with diamine
2. An amide bond forms between the amine on one monomer and the carboxyl group on the other monomer.
3. Water is formed

Question 34

State the two ways that a polyamide can be hydrolysed

Answer 34

Reflux with either:

1. Using hot aqueous alkali (NaOH)
2. Hot aqueous acid (HCl)

Question 35

What are the products of the acid hydrolysis of a polyamide

Answer 35

1. Carboxylic acid

2. Amine salt

Question 36

What are the products of the alkaline hydrolysis of a polyamide

Answer 36

1. Carboxylate salt

2. Amine