| | Measurements and significant figures, chemical reactions; stoichiometry; the gaseous state; thermochemistry; electronic structure and periodicity; chemical bonding; molecular shapes; states of matter and intermolecular forces. | First Year |
| | The course includes experiments dealing with the following topics: safety and laboratory rules; chemical observations; stoichiometry; volumetric analysis; oxidation and reduction; colligative properties; thermochemistry, chemical kinetics; equilibrium; electrochemistry; thermodynamics. | First Year |
| | The course includes experiments dealing with the following topics: safety and laboratory rules; chemical observations; stoichiometry; volumetric analysis; oxidation and reduction; colligative properties; thermochemistry and equilibrium. | First Year |
| | Measurements and significant figures, chemical reactions; stoichiometry; the gaseous state; thermochemistry; electronic structure and periodicity; chemical bonding; molecular shapes; states of matter and intermolecular forces. | First Year |
| | Laws of thermodynamics, energy and entropy, criterion for equilibrium, introduction to statistical thermodynamics, construction of phase diagrams, multicomponent and multiphase systems, solid solutions, incongruent melting and peritectics, application of phase diagrams: prediction of a material’s microstructure, properties and engineering applications, surface energy and capillary effects; phase boundary shifts, electrochemistry: equilibrium in electrolytes. | second Year |
| | The course includes experiments dealing with the following topics: enthalpy of combustion; enthalpy of vaporization; volumetric analysis; partial molar volume; binary phase diagram; ternary phase diagram; electromistry; chemical kinetics; rate order; chemical equilibrium. | second Year |
| | Measurements and significant figures, chemical reactions; stoichiometry; the gaseous state; thermochemistry; electronic structure and periodicity; chemical bonding; molecular shapes; states of matter and intermolecular forces. | First Year |
| | Physical properties of solutions; Chemical kinetics; chemical equilibrium; chemical thermodynamics; acid-base equilibria in aqueous solutions; solubility and complex ion equilibria; electrochemistry. | First Year |
| | The course includes experiments dealing with the following topics: safety and laboratory rules; chemical observations; stoichiometry; volumetric analysis; oxidation and reduction; colligative properties; thermochemistry, chemical kinetics; equilibrium; electrochemistry; thermodynamics. | First Year |
| | The course includes experiments dealing with the following topics: safety and laboratory rules; chemical observations; stoichiometry; volumetric analysis; oxidation and reduction; colligative properties; thermochemistry and equilibrium. | First Year |
| | Fundamentals of nanomaterials formation, Nanochemistry Basics,Layer-By-Layer Self-Asembly, Nanocluster Self-Assembly, Self-Assembling Block Copolymers, Self-Assembly of Large Building Blocks, Nanochemistry and Nanolabs, Properties and applications of nanomaterials, Scanning Probe Microscopy techniques. | PhD |
| | Fundamentals of nanomaterials formation, Nanochemistry Basics,Layer-By-Layer Self-Asembly, Nanocluster Self-Assembly, Self-Assembling Block Copolymers, Self-Assembly of Large Building Blocks, Nanochemistry and Nanolabs, Properties and applications of nanomaterials, Scanning Probe Microscopy techniques. | PhD |
| | Measurements and significant figures, chemical reactions; stoichiometry; the gaseous state; thermochemistry; electronic structure and periodicity; chemical bonding; molecular shapes; states of matter and intermolecular forces. | 2007-2008 |
| | The course includes experiments dealing with the following topics: safety and laboratory rules; chemical observations; stoichiometry; volumetric analysis; oxidation and reduction; colligative properties; thermochemistry and equilibrium. | First Year |
| |
Chemistry Labs
Classification and nomenclature of polymers; polymer structure and physical properties, methods of molecular weight determination, polymers in solution and viscosity of dilute polymer solutions, step reaction polymerization, chain reaction polymerization, copolymerization, technology of polymerization processes.
| Fourth Year |
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Chemistry Labs
Alkanes and cycloakanes; alkenes and alkynes; stereochemistry; common organic reactions: substitution, addition, elimination. | second Year |
