1. Organic chemistry
2. Physical chemistry

1. To learn essential concepts of formation, physical chemistry, structure and properties of polymers (A,B)
2. To provide a foundation for industrial practice in polymer science and engineering (A,C,D)
3. To provide a foundation for graduate courses and research in polymer science and engineering (A,B)

1. Chapters 1, 2 and 3: General Introduction
   1. Polymers: bonding in polymers; conformation and configurations of polymers; branches and networks in polymers; transitions in polymers; molecular weight distributions and averages; solid state structure; plasticization.
2. Chapter 4: Polymer Formation
   1. Polymerization: kinetics of step growth; Polymerization: kinetics of chain growth; Free radical and ionic polymerizations; Steroregular polymerization; Ring-opening polymerization; Copolymerization
3. Chapters 5, 13 and 14: Polymerization Processes
   1. Bulk, Solution, Suspension, Emulsion Polymerization
4. Chapter 7: Flow
   1. Dilute solutions and intrinsic viscosity; effect of concentration, molecular weight; temperature and pressure on viscosity; models of non-Newtonian viscosity; measurement of viscosity; elasticity in polymer fluids
5. Chapter 8: mechanical Properties
   1. Thermodynamics of deformation and rubber elasticity; Mechanical properties (phenomenological): creep; stress relaxation; viscoelastic behavior and models; dynamic mechanical properties; time and temperature effects; structure - property relations
6. Chapters 9, 10 and 11
   1. Ultimate Properties: General Properties; Degradation/stabilization

Homework

Exams

15

85