(in Polish) Spectroscopy 310-ERS-1SPMO

lecture 35 hours,
laboratories 45 hours;
Summary student workload: 125 h. Participation in lectures and classes: 80 h.; preparation for classes: 35 h.; preparation of the report, written work: 12 h, preparation for the exam: 10h individual study of the subject of classes 35 h

Type of course

obligatory courses

Mode

(in Polish) w sali
Self-reading

Prerequisites (description)

Spectroscopy course provides an introduction to the knowledge of the spectroscopy methods about structure of the chemistry compounds, as well as experimental usage of chosen methods (IR, NMR, UV- VIS) during the labs.

Course coordinators

Alina Dubis

Learning outcomes

1. Understand quantum chemical principles.
2. Student will know the basic physical chemistry law that govern molecular spectroscopy.
3. Student will know basic information on molecular methods (IR, Raman, UV-VIS, NMR, EPR).
4. Student will be able to select molecular spectroscopy methods suitable for solving given scientific problem.
5. Student will be able to analyze results of measurements using molecular spectroscopy methods.
6. Student shows interest in the phenomenon of the interaction of light with matter in terms of the relationship with the molecular structure.

Assessment criteria

Student Assessment
Satisfactory completion of Labs and Exam
Final mark= 70% of exam + 30% of the practical

Bibliography

Strongly required textbooks:
Peter W. Atkins – Physical Chemistry, eighth Edition, New York, 2006, Chapters 10-15, page 320-560.
Supplementary:
Peter W. Atkins, Julio De Paula, Physical Chemistry for the Life Sciences, New York, 2011 , part 4 Biochemical spectroscopy, page 461-545.
Peter J. Larkin, IR and Raman Spectroscopy, Principles and Spectral Interpretation, Elsevier, 2011.

Additional information

Additional information (registration calendar, class conductors, localization and schedules of classes), might be available in the USOSweb system:

Description of 310-ERS-1SPMO in USOSweb