On completion of the course, the student should be able to:
name organic compounds from the major classes, use stereochemical terminology to describe the three-dimensional structure of organic compounds and correlate chemical and physical properties or organic compounds to their structure
account for basic organic reactions such as proton transfer, addition, substitution, elimination, oxidation and reduction in organic chemistry
explain and account for technical production and industrial use of some important organic compounds and carry out basic economical and environmental assessments in connection thereby
describe the structure of commonly occurring biomolecules and synthetic macromolecules and be familiar with spectroscopic methods routinely used by organic chemists
plan and carry out laboratory work in a correct and safe manner, carry out simple risk and security assessments, document laboratory work in a lab log and account for the results of the laboratory session orally and in writing
give examples of how parts of the course connect to activities within society and industry and describe how the course content has importance for man, the environment, and society
Chemical bonds, Lewis structures, formal charge, functional groups. Conformations of molecules. Physical properties (melting, boiling, solubility) in relation to structure. Stereochemistry, stereochemical concepts. Acids and bases, pKa, the relation between structure and acid/base strength. Alkenes, alkynes conjugated systems, arenas, aromaticity, absorption of light. Electrophiles, nucleophiles. Addition, substitution and elimination reactions. Reactions classifications (SN1, SN2, E1, E2). Reactions of alcohols, amines, ethers, epoxides. Carboxylic acids and derivatives (esters, amides) and their reactions. Reactions of aldehydes and ketones. Radicals and reactions involving radicals. Reactions of arenes. Carbohydrates, amino acids, peptides, proteins, lipids. Bulk polymers, addition polymers, condensation polymers. Laboratory work: Organic syntheses that illustrate both theory and different laboratory technologies that are used for preparation, workup and characterisation of organic compounds.
The teaching is given as lectures, lessons laboratory sessions and invited lectures/seminars. Laboratory sessions and related overviews and presentations, as well as invited lectures/seminars are compulsory. Communication training is integrated with other course parts.
Written examination at the end of the course corresponds to 5 credits. Laboratory work together with other compulsory components of the course correspond to 5 credits. The final grade of the course is based on the different components of the course.
If there are special reasons for doing so, an examiner may make an exception from the method of assessment indicated and allow a student to be assessed by another method. An example of special reasons might be a certificate regarding special pedagogical support from the disability coordinator of the university.