Inhalt
[ 290PHCHCTDK18 ] KV Chemical Thermodynamics
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| Workload |
Education level |
Study areas |
Responsible person |
Hours per week |
Coordinating university |
| 1,5 ECTS |
B1 - Bachelor's programme 1. year |
Chemistry |
Sabine Hild |
1 hpw |
Johannes Kepler University Linz |
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| Detailed information |
| Original study plan |
Bachelor's programme Chemistry and Chemical Technology 2025W |
| Learning Outcomes |
Competences |
| This course introduces students to the basics of physical chemistry, which revolves around the topics of systems, states and transformation processes focussing on fundamental thermodynamics. Students learn scientifically sound, fundamental and method-orientated knowledge of chemical thermodynamics, which they can use to understand and explain chemical processes. They are given an overview of the most important physical-chemical terms and concepts with which they can describe material systems and their physical-chemical conversion 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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| Skills |
Knowledge |
| Specifically, after completing the course, they will be capable of
- correctly using, explaining and applying specific terms and concepts of thermodynamics in their own words. (k2, k3, k4)
- relating or transforming different thermodynamic quantities such as heat and work from one to the other. (k3, k4)
- describing chemical equilibria and phase equilibria of single-phase systems qualitatively and quantitatively within the framework of thermodynamics. (k2, k3, k4)
- applying the contents of the lecture in practice using calculation examples and to work out solutions independently. (k3, k5)
- presenting 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 described
- 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
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| Criteria for evaluation |
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| Language |
German or English |
| Study material |
English:
• 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 (3rd Ed.), Peter Atkins, George Ratcliff, Mark Wormald, Julio de Paula, Oxford University Press, 2023
• Physical Chemistry: Principles and Applications in Biological Sciences (5th Ed.), Tinoco Jr., Ignacio, Kenneth Sauer, James C. Wang, Joseph D. Puglisi, Gerard Harbison, David Rovnyak, Pearson, 2013
German
• Thermodynamik: Eine Einführung, Günther Jakob Lauth, Jürgen Kowalcyk, Springer Spektrum; 2. Aufl., 2022
• Physikalische Chemie kompakt, Günther Jakob Lauth, Springer Spektrum; 1. Aufl., 2022
• Physikalische Chemie kapieren, Sebastian Seiffert, Wolfgang Schärtl, De Gruyter Studium, 2021
• Physikalische Chemie I: Thermodynamik und Kinetik M. Elstner, Springer Spektrum; 1. Aufl., 2017
• Kurzlehrbuch Physikalische Chemie, Peter Atkins, Julio de Paula, Wiley, 2020
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| Changing subject? |
No |
| Corresponding lecture |
in collaboration with 290PHCHELCV18: VL Electrochemistry (1,5 ECTS) + 290PHCHPC1V18: VL Physical Chemistry I (4,5 ECTS) equivalent to
TCBPDVOPYC1: VO Physical Chemistry I (5,2 ECTS)
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in collaboration with 663PHCHPC1V20: VL Physical Chemistry for Biological Chemistry I (4,5 ECTS) equivalent to
BCBPPVOPHYC: VO Physical Chemistry 1 (5,2 ECTS)
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| On-site course |
| Maximum number of participants |
25 |
| Assignment procedure |
Direct assignment |
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