2024 Autumn 2023 Autumn 2022 Autumn 2021 Autumn 2020 Autumn 2019 Autumn 2019 Spring 2018 Autumn 2018 Spring 2017 Autumn 2017 Spring 2016 Autumn 2016 Spring 2015 Autumn 2015 Spring 2014 Autumn 2014 Spring 2013 Autumn 2013 Spring 2012 Autumn 2012 Spring 2011 Autumn 2011 Spring 2010 Autumn 2010 Spring 2009 Autumn 2009 Spring 2008 Autumn 2008 Spring 2007 Autumn 2007 Spring 2006 Autumn
Show the courses of study containg this course Se overgangsordninger
Dansk English

KE504: Analytical Spectroscopy (5 ECTS)

STADS: 10002101

Level
Bachelor course

Teaching period
The course begins in the autumn semester and continues in the spring semester.
1st and 3rd quarter.

Teacher responsible
Email: pcs@dou.dk

Timetable
Group Type Day Time Classroom Weeks Comment
Common I Monday 09-10 U55 05-09
Common I Tuesday 09-10 U45 05-07
Common I Thursday 08-09 U55 05-09
Common I Friday 09-10 U55 05-08
S1 TE Monday 11-12 Spektroskopilokalet 06-11
S1 TL Tuesday 16-18 Spektroskopilokalet 06-10
S1 TE Wednesday 14-15 Spektroskopilokalet 05,08-09
S1 TE Wednesday 14-15 Spektroskopilokalet 6-7
S1 TL Friday 10-13 Spektroskopilokalet 06-10
S12 TE Monday 12-13 Spektroskopilokalet 06-09,11
S12 TE Monday 12-13 Spektroskopilokalet 10
S12 TL Tuesday 14-16 Spektroskopilokalet 06-10
S12 TE Thursday 09-10 Spektroskopilokalet 05-09
S12 TL Thursday 10-13 Spektroskopilokalet 06-10
S13 TE Monday 08-09 Spektroskopilokalet 06
S13 TL Monday 13-16 Spektroskopilokalet 06, 08-11
S13 TE Monday 08-09 Spektroskopilokalet 7-11
S13 TL Wednesday 12-14 Spektroskopilokalet 06-10
S13 TE Friday 08-09 Spektroskopilokalet 05-09
T1 TE Monday 10-11 Spektroskopilokalet 06-11
T1 TL Wednesday 15-18 Spektroskopilokalet 06-10
T1 TE Friday 13-14 Spektroskopilokalet 05-09
T1 TL Friday 14-16 Spektroskopilokalet 06-10
Show entire timetable
 Show personal time table for this course.

Comment:
OBS! I Eksaminatorietimerne samt lab.timerne vil de studerende blive fordelt på 2 hold. S12 og S13.

Prerequisites:
None

Academic preconditions:
None.

Course introduction
The aim of the course is to provide the students with information on molecular spectroscopy and its application for analytical purposes.

Expected learning outcome
After the course, the students are expected to be able to:

• indentify functional groups and identify which form of spectroscopy being able to detection of a given group
• interpret experimental MS, IR and NMR spectra for the indeintification of small, unknown organic molecules by any of the spectroscopical methods or a combination of methods
• combine and value larger amounts of spectroscopic data from the different technices for the purpos of structure determination
• discuss the validity of a suggested molecular structures base don experimental spectra
• solve combined problems on analytical spectroscopy

Subject overview
I. Mass spectrometry (MS):
  1. Introduction to MS

  2. Determination of molecular formula

  3. Fragmentation patterns

  4. Application of MS for identification

II. Infrared spectroscopy (IR):
  1. Introduction to IR spectroscopy

  2. Application of IR spectra for identificatio

III. Magnetic resonance spectroscopy (NMR):
  1. Introduction to NMR spectroscopy

  2. Chemical shift
  3. H-NMR: Spin-spin coupling, Application of 1H-NMR for identification
  4. C-NMR: Application of 13C-NMR for identification

  5. Advanced NMR techniques: DEPT sequence, two-dimensional NMR spectroscopy (COSY spectra, HETCOR technique), application of NMR for identification.


    6. Literature
    • D.L. Pavia, G.M. Lampman og G.S. Kriz: Introduction to Spectroscopy, Harcourt College Publishers, 2001.
    • Analytisk Spektroskopi - Opgaver og øvelsesvejledning, 2004. .


    Syllabus
    See syllabus.

    Website
    This course uses e-learn (blackboard).

    Prerequisites for participating in the exam
    None

    Assessment and marking:
    (1) A 4 hour written exam graded according to the Danish 7-point scale and with external evaluation.
    This part is worth 4 ECTS points.

    (2) Obligatory assignements and reports, passed/not passed, internal evaluation by lecturer.
    This part is worth 1 ECTS point.

    Expected working hours
    The teaching method is based on three phase model.

    15 forelæsninger og 11 regneøvelser, obligatorisk laboratorieøvelser (10*2½=25 timer).
    Educational activities

    Language
    This course is taught in Danish.

    Course enrollment
    See deadline of enrolment.

    Tuition fees for single courses
    See fees for single courses.