Types of Polymers and reactions

1. Types of Polymers and reactions Formations and linkages

2. What are polymers? • Alkene molecules have the ability to add onto one another and produce large molecules these are polymers. • Therefore what are monomers? • The process of these large molecules forming is termed addition polymerisation. • NOTE POLYMERISATION IS NOT RESTRICTED TO CARBON-CARBON DOUBLE BOND COMPOUNDS.

3. TYPES • Condensation polymers eg. Polyester, polyamides, proteins • Polysaccharides • Disaccharides • Monosaccharide

4. Condensation Polymers • This is the process where molecules that have functional groups either end undergo a condensation reaction with another molecule and its functional group and as a result a ester is formed. The process condensation polymerisation and the polymer is condensation polymer.

5. Polyesters • Please explain how polyesters are formed and give a example, make sure you use appropriate terminology in your explanation. (time limit 8-10min)

6. Polyamides • Are condensation polymers where monomers join by amide links these are similar to polyesters in that they can form homopolymers and copolymers. • What is meant by homopolymersand copolymers? And what is the difference between functional groups in these polymers?

7. Proteins • Proteins are high molecular mass copolymers made from condensation polymerisation between amino acids monomers. • There are 20 different monomers proteins can be constructed from so these make up a large number of proteins. • What are the four structural features in proteins that the amino acids have in common?

8. The protein polymer • To form peptide linkages two amino acids link together. One alpha amino acid reacts its NH₂ group with the other amino acids COOH group forming the link CO-NH. • If we have a smaller number of monomers linked together than having a complete protein we call these polypeptides. Obviously if we have two monomers linked together this is called a dipeptide. • http://www.studyon.com.au/secure/Index?pk=019235b40e6d11fe&isbn=1742160859&fp=1&sectionNo=0&cookie=0 • http://www.studyon.com.au/secure/Index?pk=019235b40e6d11fe&isbn=1742160859&fp=1&sectionNo=0&cookie=0

9. Summary of peptide linkage

10. Polysaccharides • Or known as carbohydrates/sugars, the simplest form of these are monosaccharides if we have two of these sugars bonded together these are disaccharides. • Oligosaccharides are when we have 3 up to 10 mono’s per molecule • Polysaccharides is when we have 10 to thousands of mono’s

11. Monosaccharides • These are linked together by a C-O-C known as a ether linkage or glycosidic bond. • http://www.studyon.com.au/secure/Index?pk=019235b40e6d11fe&isbn=1742160859&fp=1&sectionNo=0&cookie=0 • Also please refer to page 230 figure 7.45

12. Polysaccharides • The three main polysaccharides that you will need to know are glycogen, starch and cellulose. • These each differ from each other in relation to their ether linkages the amount of branches in their polymer chains and the degree of polymeristion.

13. Fractional distillation • http://www.studyon.com.au/secure/Index?pk=019235b40e6d11fe&isbn=1742160859&fp=1&sectionNo=0&cookie=0 • Read pages 233-235 • Pre-treatment • Atmospheric distillation • Vacuum distillation • cracking

14. Questions • Ex 7.4 all • Ex 7.5 Q3,4,5,6 • Ex 7.6 Q1,3 • Review Q5,6