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KE523: Physical chemistry (5 ECTS)

STADS: 10010001

Level
Bachelor course

Teaching period
The course is offered in the autumn semester.

Teacher responsible
Email: mip@sdu.dk
Email: pcs@sdu.dk

Timetable
Group Type Day Time Classroom Weeks Comment
Common I Monday 14-15 U55 37-38,40-41,43-46
Common I Tuesday 14-15 U55 36
Common I Thursday 08-09 U55 38
Common I Thursday 14-15 U55 43
Common I Friday 11-12 U55 36-37,40-41,45
Common I Friday 10-12 U55 39
Common I Friday 10-11 U55 44
Common I Friday 12-13 U55 46
H1 TL Monday 14-18 Lab 3 og 4 49-51
H1 TE Thursday 08-10 U31 43
H1 TE Friday 14-16 U31 37-41,44-48
H2 TE Monday 12-14 U56 37-38,40-41,43-45
H2 TE Monday 12-14 U61 47
H2 TE Tuesday 14-16 U152 48
H2 TL Tuesday 14-18 Lab 3 og 4 49-51
H2 TE Thursday 08-10 U31 39
H2 TE Thursday 08-10 U20 46
H3 TE Wednesday 12-14 U14 37-41,43-48
H3 TL Wednesday 14-18 Lab 3 og 4 49-51
H4 TE Thursday 10-12 U153 37-41,43-48
H4 TL Thursday 14-18 Lab 3 og 4 49-51
H5 TL Monday 08-12 Lab 3 og 4 49-51
H5 TE Wednesday 14-16 U14 37,41,47
H5 TE Wednesday 16-18 U14 38-40,44-46,48
H5 TE Thursday 15-17 U131 43
H6 TE Tuesday 08-10 U27 39-41,43-48
H6 TL Tuesday 08-12 Lab 3 og 4 49-51
H6 TE Friday 08-10 U152 37-38
H7 TE Wednesday 08-10 U155 37-41,43-48
H7 TL Wednesday 08-12 Lab 3 og 4 49-51
H8 TE Thursday 08-10 U145 43
H8 TL Thursday 08-12 Lab 3 og 4 49-51
H8 TE Friday 14-16 U145 37-41,44-48
H9 TE Monday 12-14 U171 37-38,40-41,43-45,47
H9 TE Tuesday 12-14 U145 48
H9 TE Thursday 08-10 U145 39,46
H10 TE Wednesday 12-14 U69A 37
H10 TE Wednesday 12-14 U160A 38
H10 TE Wednesday 12-14 U23A 39
H10 TE Wednesday 12-14 U48 40
H10 TE Wednesday 12-14 U50A 41
H10 TE Wednesday 12-14 U13 43-48
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Prerequisites:
None.

Academic preconditions:
The course is based on fundamental knowledge within general and organic chemistry, biology, physics and mathematics, corresponding to the first year of the study programme.

Course introduction
The course aims to make the students familiar with the application of a variety of physical chemistry concepts to solve problems within a range of contexts in the scope of physics, chemistry and biology.

The course builds on the knowledge acquired in the courses FF503 / FF504 / FF507 (or KE501 Fundamental Chemistry) and FF502 / FF506 / MM529 (or MM501 and MM502 as well as either FY501, FY519 or FY520), and gives an academic basis for studying topics that involve basic physical chemistry concepts.

In relation to the competence profile of the degree it is the explicit focus of the course to:

  • Give understanding of a range of concepts in physical chemistry
  • Apply such knowledge to solving problems


Expected learning outcome
The learning objectives of the course is that the student demonstrates the ability to:
  • Apply the ideal gas law and explain deviations from ideality for real gases.
  • Apply the thermodynamic laws and be able to use concepts such as internal energy, enthalpy, entropy, free energy, as well as their dependence on pressure and temperature.
  • Interpret phase diagrams for pure substances and use the relevant formulae to describe quantitatively the different part of such a phase diagram.
  • Apply thermodynamics to the quantitative description of simple mixtures of gases and fluids, including use of the chemical potential.
  • Apply thermodynamics to equilibrium chemistry and electrochemistry for situations with deviations from ideality, including being able to use the concept of activity.
  • Describe the time dependence of chemical reactions using kinetics and the associated integrated expressions, and relate this to equilibrium chemistry and thermodynamics.
  • Combine aforementioned competences to solve problems in physical chemistry.
Subject overview
The following main topics are contained in the course:
  • The properties of gases
  • 1st law of thermodynamics, energy, enthalpy
  • 2nd law of thermodynamics, entropy, Helmholtz and Gibbs functions
  • Chemical potential
  • The concept of activity
  • Sublimation, vaporization and fusion of pure substances
  • Mixtures, binary phase diagrams, colligative properties
  • Chemical reactions and equilibria
  • Gas liquid interfaces and interfacial tension
  • Equilibrium electrochemistry, electrochemical cells
  • Reaction kinetics
Literature
  • Peter Atkins og Julio de Paula: Atkins Physical Chemistry, Oxford University Press, 9. udgave 2010 eller 10. udgave, 2014.


Website
This course uses e-learn (blackboard).

Prerequisites for participating in the exam
  1. Participation in three laboratory exercises is a prerequisite for participating in evaluation a.
  2. It is a prerequisite for participating in evaluation b to pass six out of eight compulsory exercises

Evaluation for both: Pass/fail, internal marking by teacher.



Assessment and marking:
  1. Approval of individual reports. Evaluated by pass / fail. Internal marking by the teacher (1 ECTS). (10010012).
  2. A 4-hour written examination. Exam aids allowed. External examiner. Marks according to the Danish 7-point scale (4 ECTS). (10010002).

Reexamination a. will take place in week 5. Reexamination b. will take place in week 9. The mode of exam at the reexamination in both a. and b. may differ from the mode of exam at the ordinary exam.



Expected working hours
The teaching method is based on three phase model.
Intro phase: 20 hours
Skills training phase: 31 hours, hereof:
 - Tutorials: 22 hours
 - Laboratory exercises: 9 hours

Educational activities

Educational form
Activities during the study phase:
  • Reading textbook
  • Reading lecture notes
  • Solving problems


Language
This course is taught in English.

Course enrollment
See deadline of enrolment.

Tuition fees for single courses
See fees for single courses.