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Students will acquire practical skills through completing laboratory tasks on topics listed in the syllabus. The tasks cover a wide range of types of analyzed materials, determined parameters, and instrumentation. Students will become familiar with the cross-sectional issues of the given area, from the preparation and processing of matrices, the use of instrumental techniques, to the evaluation and interpretation of data.
Last update: Hendrych Jiří (24.04.2025)
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Completion of all assignments. Attendance is mandatory. Evaluation is based on the tests before the laboratory work, performing the laboratory work and protocols creation. Last update: Hendrych Jiří (24.04.2025)
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Obligatory:
Optional:
Last update: Hendrych Jiří (24.04.2025)
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Students are required to familiarize themselves with the instructions for the assignments in advance, and before the work they take an entrance test focused on the principles of methods, balance calculations, etc. Furthermore, they are introduced to the specific experimental layout and instructed in how to operate the analyzers and instruments used. They carry out the assigned work and obtain experimental data. Subsequently, they evaluate the data and process the protocol. Last update: Hendrych Jiří (24.04.2025)
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Graded credit. By averaging the results from individual laboratory tasks. Partial classification from individual tasks is based on the entrance test, completion of laboratory work, processing of the task protocol. Last update: Hendrych Jiří (24.04.2025)
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Leachability according to standard procedure and determination of selected parameters Mineralization of solid matrix and determination of selected heavy metals Determination of pesticides in an environmental matrix Adsorbable organically bound halogens in an environmental matrix Acidobasic characteristics of matrix, titration curve and metal mobilization risk Evaluation of water aggressiveness by marble test Biodegradability testing of organic substances Surface water eutrophication monitoring Determination of oxygen parameters and assessment of surface water self-cleaning Determination of dry matter by various methods, determination of loss on ignition Determination of hydrocarbon content by gravimetric method Determination of hydrocarbons as C10 to C40 parameter by gas chromatography Photometric determination of formaldehyde in air Determination of nitrogen oxides in air Last update: Kujalová Hana (16.04.2025)
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Study materials available in e-learning. Last update: Hendrych Jiří (24.04.2025)
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Students will be able to apply the theoretical knowledge and practical skills in laboratory work and learn new practices, put into operation the instrumental technique, take data, process the data, draw conclusions, make documentation of the work and results. Last update: Hendrych Jiří (24.04.2025)
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General knowledge of environmental matrices, their properties and significant monitored groups of analytical parameters. Last update: Hendrych Jiří (24.04.2025)
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General knowledge of environmental matrices, their properties and significant monitored groups of analytical parameters. Last update: Bindzar Jan (22.05.2025)
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| Teaching methods | ||||
| Activity | Credits | Hours | ||
| Účast v laboratořích (na exkurzi nebo praxi) | 3 | 84 | ||
| Příprava na přednášky, semináře, laboratoře, exkurzi nebo praxi | 1 | 28 | ||
| 4 / 4 | 112 / 112 | |||
| Coursework assessment | |
| Form | Significance |
| Regular attendance | 34 |
| Report from individual projects | 33 |
| Continuous assessment of study performance and course -credit tests | 33 |