CHEM2012: CORE CHEMISTRY 2

• Core Chemistry 1 (CHEM1078) AND EITHER Mathematical and Experimental Tools required in Chemistry (CHEM1111) OR [Single Mathematics A (MATH1561) AND Single Mathematics B (MATH1571)] OR [Calculus I (MATH1061) AND Linear Algebra I (MATH1071)].

• None.

• Molecules in Action (CHEM1061).

• To teach the fundamentals of Chemistry and to provide a foundation on which later courses can be based.

• Transition-metal chemistry.
• Symmetry, group theory and applications.
• Organic Chemistry of -systems.
• Introduction to Organic synthesis and retrosynthetic analysis.
• Quantisation and spectroscopy.
• Thermodynamics.
• Applied spectroscopy.

Subject-specific Knowledge:

• Rationalize the bonding in transition metal complexes, and thus understand their formation and magnetic properties, and to utilize this information in a predictive manner.
• Describe key trends in the chemistry of the transition elements and use these trends as tools to assist in problem solving in any area of chemistry involving transition metals.
• Determine the symmetry elements and point groups of molecules.
• Use group theory to construct symmetry adapted linear combinations of atomic orbitals and then determine qualitative molecular orbital diagrams for simple molecules.
• Apply group theory to molecular vibrations and use it to predict infrared and Raman activity.
• Use retrosynthetic analyses to design and plan reasonable synthetic routes to moderately complex organic molecules.
• Describe and rationalize outcomes of organic reaction processes involving control of enolate chemistry and redox reactions.
• Describe aromaticity in a bonding and structure context and use this to explain reactions and directing effects of both carbocyclic and heterocyclic arenes.
• Develop comparisons between arene, alkene, and more complex pi systems chemistry and apply this knowledge to organic synthesis.
• Outline the basic principles of quantum mechanics and group theory and be able to apply these to simple systems to predict their structure and spectroscopy.
• Apply thermodynamics to predict values of equilibrium constants and the direction of spontaneous change of chemical reactions.
• Determine enthalpies from phase transition data.
• Calculate colligative properties.
• Apply thermodynamics to non-ideal systems of gases, gas mixtures, liquid mixtures, and solutions.

Subject-specific Skills:

• Predict simple NMR spectra, and interpret MS infra-red, Raman and more complex multinuclear NMR spectral data.

Key Skills:

• Group working, encouraged and developed through workshop teaching.
• Written communication, advanced through the use of essay type questions in lecture-support worksheets.
• Problem-solving, developed through worksheets and spectroscopy problems sessions.

• Lectures are used to convey concepts, demonstrate what is required to be learned and to illustrate the application of theory to practical examples. When appropriate, lectures will be supported by written on-line material, or by information and relevant links on Blackboard Learn Ultra.
• Private study should be used by students to develop their subject-specific knowledge and self-motivation, through reading textbooks and literature. Students will be able to obtain further help in their studies by approaching their lecturers, either after lectures or at other mutually convenient times.
• Tutorials are used to develop understanding of key concepts in inorganic and organic chemistry. These are formatively assessed.
• Workshops are where groups of students consider problems and explore common shared difficulties. Problem exercises provide students the chance to develop their theoretical understanding and problem-solving skills. This ensures that students have understood the work and can apply it to real life situations. These are formatively assessed.
• Computer practicals give students the opportunity to learn to use off the shelf computer packages and those specific to chemists. A summative coursework assessment follows.

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