Universität Wien

270066 VO+UE Molecular Spectroscopy (2020W)

4.00 ECTS (3.00 SWS), SPL 27 - Chemie
Continuous assessment of course work

Summary

1 Schröder , Moodle
2 Schröder , Moodle
3 Schröder , Moodle

Registration/Deregistration

Note: The time of your registration within the registration period has no effect on the allocation of places (no first come, first served).
Registration information is available for each group.

Groups

Group 1

max. 25 participants
Language: German
LMS: Moodle

Lecturers

Classes

Currently we plan to have BigBlueButton conferences each week, probably on Tuesday morning.

Aims, contents and method of the course

Fundamental concepts in spectroscopy
Evaluation and interpretation of
* NMR
* dielectric
* IR
* UV/Vis
* X-Ray
spectra

Assessment and permitted materials

Several Multiple Choice and Openbook exams

Minimum requirements and assessment criteria

Mathematics
Physical chemistry (PC I)
Theoretical chemistry

The evaluation is based on the ratio of scores in multiple choice and Openbook exams.

Examination topics

* Symmetry
* electromagnetic spectrum
* NMR
* rotational and vibrational spectroscopy
* electron spectroscopy
* laser

Reading list

* Atkins, de Paula, "Physikalische Chemie", VCH Verlagsges.
* Hesse, Meier, Zeeeh "Spektroskopische Methoden in der organischen Chemie", Thieme
* Hollas, "Modern Spectroscopy", Wiley

Group 2

max. 25 participants
Language: German
LMS: Moodle

Lecturers

Classes

Currently we plan to have BigBlueButton conferences each week, probably on Tuesday morning.

Aims, contents and method of the course

Evaluation and interpretation of spectra and spectroscopic data.

Assessment and permitted materials

* compulsory attence!
* presentation of examples
* short exams during lab course
* final exam

Minimum requirements and assessment criteria

Evaluation of the presentation of examples, short and final exams. 50% of the total sum of graduation points are necessary to pass the exam.

Examination topics

* Symmetry
* Electromagnetic spectrum
* NMR
* Rotational and vibrational spectroscopy
* Electron spectroscopy
* Laser

Reading list

P. W. Atkins, J. de Paula, "Physikalische Chemie", VCH Verlagsges.

J. M. Hollas, "Modern Spectroscopy", Wiley

M. Hesse, H. Meier, B. Zeeh "Spektroskopische Methoden in der organischen Chemie", Thieme

Group 3

max. 25 participants
Language: German
LMS: Moodle

Lecturers

Classes

Currently we plan to have BigBlueButton conferences each week, probably on Tuesday morning.

Aims, contents and method of the course

Fundamental concepts in spectroscopy
Evaluation and interpretation of
* NMR
* dielectric
* IR
* UV/Vis
* X-Ray
spectra

Assessment and permitted materials

Several Multiple Choice and Openbook exams

Minimum requirements and assessment criteria

Mathematics
Physical chemistry (PC I)
Theoretical chemistry

The evaluation is based on the ratio of scores in multiple choice and Openbook exams.

Examination topics

* Symmetry
* electromagnetic spectrum
* NMR
* rotational and vibrational spectroscopy
* electron spectroscopy
* laser

Reading list

* Atkins, de Paula, "Physikalische Chemie", VCH Verlagsges.
* Hesse, Meier, Zeeeh "Spektroskopische Methoden in der organischen Chemie", Thieme
* Hollas, "Modern Spectroscopy", Wiley

Association in the course directory

BA CH 18b, CHE I-2

Last modified: Mo 05.10.2020 16:09