MOLECULAR SPECTROSCOPY
Quantum Mechanics is a standard prerequisite for this course.
Oral examination on both part A and B of the course (30 min). Five questions:
2 questions on the content of section 1 as in the course program.
2 questions on the content of sections 2-7 as in the course program.
1 question on the spectra obtained in the lab.
The evaluation criteria will consider:
1) the completeness of the acquired knowledge.
2) ability to report critically about the advantages and limitations of the different techniques.
3) ability to indicate the more appropriate spectroscopy to be used in different scenarios.
4) the technical terminology used.
• Knowledge and understanding
o the regions of the electromagnetic spectrum
o the main spectroscopic techniques
o spectroscopic transition rules
• Skills aims.
o Bottom-up approach to chemical problems
o Extraction of the information from an experiment using a coherent physical model
o Selection of the most suitable technique(s) according to the desired outcome
o Critical analysis of experimental results
• Communicative aims
o This lesson aims at helping learners become better able to explain the logic process that brings to the selection of a spectroscopic techniques.
• Autonomous assessment
o Selection of the spectroscopic approach
o Discussion of results
Frontal classes (48 h).
IR laboratory (24 h).
Modules
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Credits: 4
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Credits: 4