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Last update: prof. RNDr. Jiří Barek, CSc. (18.05.2011)
The subject is finished by written credit test. |
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Last update: OPEKAR (31.01.2003)
1. Beran P., Opekar F., Stulík K.: Instrumentální analytické metody. SPN Praha 1997.
2. Barek J., Rychlovsklý P. Zima J.: Vytištěné návody k pokročilému praktiku. |
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Last update: prof. RNDr. Jiří Barek, CSc. (14.11.2011)
Zápočet je udělen na základě minimálně 80% účasti na konaných seminářích, odpřednášeného cca 30 minutového referátu s přidělenou tématikou a na základě závěrečného písemného testu s požadavkem minimálně 70% správných odpovědí. |
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Last update: OPEKAR (31.01.2003)
1. Polarography: influence of oxygen, construction of a calibration curve, standard addition method, logarithmic analysis of a polarographic curve, characterization of investigated analytes).
2. Conductimetry: conductimetric titrations of different acids, statistical evaluation of results, discussion of shapes of titration curves.
3. Automatic potentiometric titration: optimization of conditions for titrimetric determination of divalent manganese by permanganate in the presence of potassium diphosphate.
4. UV/VIS spectrophotometry: determination of the dissociation constant of a coloured indicator.
5. Flame photometry: optimization of conditions for the determination of sodium and potassium.
6. Atomic absorption spectrophotometry: determination of zinc in tape water.
7. Flow injection analysis: the influence of different parameters on sample dispersion.
8. Gas chromatography: qualitative and quantitative analysis of a mixture of hydrocarbons.
9. Liquid chromatography: HPLC analysis of a mixture of azodyes.
10. Separation on ion exchangers: determination of break-through curve of strong katex.
11. Caplillary electrophoresis: qualitative and quantitative analysis of a mixture of nitro compounds.
12. IR spectrometry: structural analysis and multicomponent analysis. |