Objectives:
The course aims to provide an introduction and overview of basic methods and procedures used in the synthesis and analysis of organic and inorganic compounds using micro- and semi-micro-scale. In the laboratory course, a selection of chemical reactions that are useful in connection with the synthesis of important organic and inorganic compounds are performed.
Content:
The course will demonstrate how organic reactions provide a basis for different industries such as the pharmaceutical industry, the food industry, animal health, electronics, flavour and fragrance and other industries based on organic fine chemical.
The laboratory courses provide a knowledge-based illustrative review of trends and type of reactions from the chemistry of elements to d-transition metals.
The course will provide a basic introduction to the use of qualitative analyzes as well as spectroscopic methods such as infrared (IR), ultraviolet-visible (UV-Vis) and nuclear magnetic resonance (NMR) spectroscopy for structural analysis of chemical compounds.
Experimental laboratory work with modern synthetic reactions will illustrate what synthetic chemistry means for our society. The laboratory course provides a thorough introduction to how experimental results are summarized in a laboratory report and how to work in line with the basic regulations for health, environment, and safety for laboratory work.
On completion of the course the student should have the following learning outcomes defined in terms of knowledge, skills and general competence:
Knowledge
The student
Skills
The student
General competence
The student
FARM124
Access to the course requires admission to the Master¿s Programme in Pharmacy
Teaching is given in the form of lectures, workshops and laboratory work.
Lectures, 2-4 hours a week for 8 weeks.
Laboratory work, 6 hours a week for 8 weeks.
Workshop in report writing 6 hours.
Compulsory attendance at selected lectures (HSE, report writing) and all laboratory exercises.
Electronic submission of laboratory records (8 out of 8).
Compulsory submissions of satisfactory quality must be delivered within set deadlines in order to get compulsory activities approved (at least 6 out of 8 laboratory reports must be approved) to achieve a final passing portfolio evaluation.
Approved HSE course. If you have not previously approved an HSE course at the Department of Chemistry, UiB, the course must be taken in the same semester prior to the teaching. More about the HSE course at: http://www.uib.no/kj/utdanning/obligatorisk-hms-kurs.
Serious breaches of HSE rules will result in one losing the right to complete the laboratory course.
The subject uses the following forms of assessment.
Portfolio assessment.
Pass/fail
Evaluation is only taking place during the teaching semester.