NWI-MOL019
Spectroscopic Techniques
Cursus informatieRooster
CursusNWI-MOL019
Studiepunten (ECTS)3
CategoriePB (Propedeuse)
VoertaalEngels
Aangeboden doorRadboud Universiteit; Faculteit der Natuurwetenschappen, Wiskunde en Informatica; Moleculaire Wetenschappen;
Docenten
Coördinator
dr. M. Tessari
Overige cursussen docent
Docent
dr. M. Tessari
Overige cursussen docent
Contactpersoon van de cursus
dr. M. Tessari
Overige cursussen docent
Collegejaar2017
Periode
KW4  (16-04-2018 t/m 02-09-2018)
Aanvangsblok
KW4
Onderwijsvorm
voltijd
Opmerking-
Inschrijven via OSIRISJa
Inschrijven voor bijvakkersJa
VoorinschrijvingNee
WachtlijstNee
Plaatsingsprocedure-
Cursusdoelen
At the end of this course you are able able to:
  • explain the physical principles of NMR
  • derive the most important parameters (e.g. chemical shifts, J-coupling costants) from NMR spectra
  • interpret the fine structure of NMR multiplets
  • explain what relaxation is
  • describe the influence of experimental parameters on acquired NMR spectra.
Inhoud

The basic concepts of NMR spectroscopy are introduced in this course. Important aspects of a spectroscopic measurement, such as sensitiviy, resolution, specificity, etc. are here discussed from a theoretical as well as an experimental point of view. In order to introduce the students to practical aspects of NMR spectra acquisition, I employ a virtual NMR spectrometer, i.e. software that can simulate the functionality of a real NMR apparatus. The simulated NMR spectra are extremely sensitive to the (virtual) experimental setup. The students are asked to apply their knowledge of NMR theory to optimize spectral acquisition and to interpret the results of their (virtual) measurements.

Bijzonderheden
This course will be taught in English.

Toetsinformatie
Written exam (60%) and computerpractical - NMR simulator (40%). Both parts should be 6.0 or higher

Voorkennis
This is a course in the theme 'Methods'.

Literatuur
Reader by Marco Tessari: Spectroscopische technieken

Werkvormen

• 16 hours computer course
• 16 hours lecture
• 16 hours problem session
• 36 hours individual study period

Verplicht materiaal
Dictaat
Reader by Marco Tessari: Spectroscopic techniques

Werkvormen
Comupterpracticum

Hoorcollege

Werkcollege

Zelfstudie

Toetsen
Tentamen
Weging1
GelegenhedenBlok KW4, Blok KW4