Students are given the practical aspects of principles taught. This includes the use of analytical instruments for elemental analysis.
This course provides students with a firm foundation and a general understanding of the various physical properties of chemical systems. Topics to be discussed will include: Thermodynamics (system, surroundings, work, heat energy; Laws of Thermodynamics, Hess’s Law, enthalpy of reactions, entropy, free energy changes), Chemical Kinetics (reaction rates, molecularity, order and rate constant, determination of reaction order, factors affecting rates of chemical reactions, and Transition State Theory) and Electrochemistry (types of electrochemical cells, standard electrode potentials, spontaneity of redox reaction, applications of cell measurements, and determination of thermodynamic functions, corrosion, and electrolysis).
This course builds on MAT 102. It introduces students to the concept of Differentiation and Integration.
Students would be introduced to Windows and office applications. This would enable them to write reports, analysis and presentations.
Students are given the practical aspects of principles taught. This includes the use of analytical instruments for elemental analysis.
This course provides students with a firm foundation and a general understanding of the various physical properties of chemical systems. Topics to be discussed will include: Thermodynamics (system, surroundings, work, heat energy; Laws of Thermodynamics, Hess’s Law, enthalpy of reactions, entropy, free energy changes), Chemical Kinetics (reaction rates, molecularity, order and rate constant, determination of reaction order, factors affecting rates of chemical reactions, and Transition State Theory) and Electrochemistry (types of electrochemical cells, standard electrode potentials, spontaneity of redox reaction, applications of cell measurements, and determination of thermodynamic functions, corrosion, and electrolysis).
This course introduces students to concepts in Waves, Optics, Electricity and Magnetism.
This course introduces students to the fundamentals of differential and integral calculus. It also covers their application to various chemical processing conditions.
This is a laboratory-based organic course, which introduces students to the practical aspects of Basic Organic Chemistry. It includes most of the basic separation processes.
This course introduces students to the basic concepts in organic chemistry. It covers molecular composition of structures, purification of organic compounds,
structural formulae and isomerism as well as Nomenclature.
