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Course unit, curriculum year 2024–2025
KEM.250

Physical Chemistry 2, 5 cr

Tampere University
Teaching periods
Active in period 1 (1.8.2024–20.10.2024)
Active in period 4 (3.3.2025–31.5.2025)
Course code
KEM.250
Language of instruction
English, Finnish
Academic years
2024–2025, 2025–2026, 2026–2027
Level of study
Intermediate studies
Grading scale
General scale, 0-5
Persons responsible
Responsible teacher:
Elina Vuorimaa-Laukkanen
Responsible organisation
Faculty of Engineering and Natural Sciences 100 %
Coordinating organisation
Environmental Engineering and Chemistry Studies 100 %
Core content
  • Electrochemical cell and its notation, Nernst equation and the connection between cell potential and equilibrium constant.
  • Statistical thermodynamics: Boltzman distribution, dominant configuration and their and its physical significance. Molecular partition function and molecular energy levels. Calculating the thermodynamic quantites from molecular partition functions.
  • Transport phenomena: diffusion, heat transport in gas phase, viscosity, ionic conductivity.
  • Chemical kinetics: reaction rate, rate laws, integrated rate laws, order of reaction, elementary reactions, steady-state approximation, activated complex theory.
  • Complex reaction mechanisms, homogeneous catalysis, enzyme catalysis, heterogenous catalysis, Langmuir adsorption isotherm, radical chain reactions.
Complementary knowledge
  • Cell potential and activity coefficients.
  • Canonical partition function and residual entropy.
  • viscocity for liquids, experimental setups for determining diffusion coefficients, measuring viscosities, sedimentation.
  • Determining the rate of reactions, diffusion controlled reactions, potential energy surfaces in chemical reactions, experimental techniques for measuring reaction rates.
  • Preequilibrium approximation. Lindeman mechanism, infibitors, photophysical properties, Jablonski diagram.
Specialist knowledge
  • Perturbation-relaxation methhod,
  • Fluorescence quantum yield, fluorescence lifetime, Stern-Volmer equation, photochemicl reactions.
Learning outcomes
Prerequisites
Compulsory prerequisites
Recommended prerequisites
Further information
Learning material
Equivalences
Studies that include this course
Completion option 1
Estimated total time student spents in this course is 130 h. The only mandatory part of the course is passing the exam.
Completion of all options is required.

Exam

28.08.2024 28.08.2024
Active in period 1 (1.8.2024–20.10.2024)
12.05.2025 12.05.2025
Active in period 4 (3.3.2025–31.5.2025)
06.05.2025 06.05.2025
Active in period 4 (3.3.2025–31.5.2025)

Participation in teaching

03.03.2025 30.04.2025
Active in period 4 (3.3.2025–31.5.2025)
04.03.2025 30.04.2025
Active in period 4 (3.3.2025–31.5.2025)