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| Detailinformationen |
| Quellcurriculum |
Bachelorstudium Biological Chemistry 2026W |
| Lernergebnisse |
Kompetenzen |
| (*)This course introduces students to the fundamental field of physical chemistry, which is focused on systems, states and transformation processes in biochemical systems. Based on the fundamental thermodynamic principles, the thermodynamic properties of single-phase and multiphase systems as well as the fundamentals of chemical reaction kinetics, transport and surface processes and basic knowledge of electrochemistry are introduced. Students gain an overview of the most important physical-chemical terms and concepts for describing multiphase systems and their physical-chemical transformation processes in various environments. Students acquire scientifically sound, fundamental and method-orientated knowledge of physical chemistry, which they can use to understand and explain biochemical processes. In the exercises, calculation techniques on these topics are deepened and in particular the ability to solve application tasks reliably is taught.
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Fertigkeiten |
Kenntnisse |
| (*)"More specifically, upon completion of the course they will be able to
- know, explain and apply the terms of thermodynamics correctly and explain and apply concepts of physical chemistry clearly in their own words (k2, k3, k4)
- relate or transform thermodynamic quantities such as heat and work from one to the other. (k3, k4)
- describe chemical and phase equilibria of single-phase systems qualitatively and quantitatively within the framework of thermodynamics. (k2, k3, k4)
- know, explain and relate terms of multiphase thermodynamics, e.e. solution, mixtures, chemical potential, colligative poperties, from one to the other. (k3, k4)
- apply the contents of the lecture in practice using calculation examples and to work out solutions independently. (k3, k5)
- present their results on the blackboard and discuss them orally. (k3, k6)"
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(*)"Underlying concepts and details of
- concepts in thermodynamics, different thermodynamic quantities such as heat and work and how they are measured, related or transformed from one to the other.
- concepts of thermodynamic laws and important quantities.
- states of matter and how they depend on temperature and pressure as well as how they co-exist in phase equilibria.
- chemical equilibrium and its relationship with thermodynamic quantities.
- Concepts of multiphase thermodynamics and associated quantities and properties such as solubility, miscibility chemical potential and colligative properties"
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| Beurteilungskriterien |
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| Literatur |
(*)"Thermodynamics of Chemical Processes , Gareth Price Oxford University Press, 2019
• Elements of Physical Chemistry , Peter Atkins, Julio de Paula Wiley, 2017
• Physical Chemistry for the Life Sciences, Peter Atkins, George Ratcliff, Mark Wormald, Julio de Paula, Oxford University Press; 3 th edition, 2023
• Physical Chemistry: Principles and Applications in Biological Sciences Tinoco Jr., Ignacio, Kenneth Sauer, James C. Wang , Joseph D. Puglisi , Gerard Harbison, David Rovnyak, Pearson; 15th edition 2013"
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| Lehrinhalte wechselnd? |
Nein |
| Gilt als absolviert, wenn |
(*)663PHCHPC1V20: VL Physical Chemistry for Biological Chemistry I (4,5 ECTS) AND 290PHCHCTDK18: KV Chemical Thermodynamics (1,5 ECTS)
to 663PHCHBKTV25: VL Biochemical Kinetics and Transportphenomena (3 ECTS) AND 663PHCHBCTK25: KV Biochemical Thermodynamics (3 ECTS)
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