5.00 credits
30.0 h + 45.0 h
Q1
Teacher(s)
Detaille Arnaud (compensates Dupont Christine); Dupont Christine (coordinator); Huybrechts Thibaut (compensates Dupont Christine);
Language
French
Prerequisites
The prerequisite(s) for this Teaching Unit (Unité d’enseignement – UE) for the programmes/courses that offer this Teaching Unit are specified at the end of this sheet.
Content
Seminars (part B): Overview of analytical chemistry - Physico-chemistry of electrolyte solutions - Redox reactions and analytical applications - Membrane potential and potentiometric analytical methods - Precipitation and equilibria, gravimetric analysis - Acid-base reactions and analytical applications - Volumetry and titrimetry.
Laboratory practice (part A and C): Volumetric and gravimetric analysis, direct and indirect potentiometric methods, use of analytical kits.
The program is designed in such a way that:
- It illustrates the course LBIR 1349
- It develops the critical mind towards quality of results (based on statistical tools acquired in other courses)
- It ensures the progressive acquisition of autonomy in the work: application and discussion of protocols, comparison of different analytical methods, adaptation of protocols.
- It allows the treatment of samples of particular interest for future bioengineers (soil samples, bio-industrial products)
First part: analysis of a limestone, analysis of animal food samples (full protocols given) - statistical treatment of the experimental data
Second part: integrated exercises: analysis of two systems chosen by the students (protocols must be adapted to each system) - comparison of methods - global balance - communication of results between students
Laboratory practice (part A and C): Volumetric and gravimetric analysis, direct and indirect potentiometric methods, use of analytical kits.
The program is designed in such a way that:
- It illustrates the course LBIR 1349
- It develops the critical mind towards quality of results (based on statistical tools acquired in other courses)
- It ensures the progressive acquisition of autonomy in the work: application and discussion of protocols, comparison of different analytical methods, adaptation of protocols.
- It allows the treatment of samples of particular interest for future bioengineers (soil samples, bio-industrial products)
First part: analysis of a limestone, analysis of animal food samples (full protocols given) - statistical treatment of the experimental data
Second part: integrated exercises: analysis of two systems chosen by the students (protocols must be adapted to each system) - comparison of methods - global balance - communication of results between students
Teaching methods
Resolution of exercises and discussion of concepts in group; feedback on laboratory reports.
Laboratory practice, alone or in team of two or four students, and mentoring sessions to accompany planning of the work.
Laboratory practice, alone or in team of two or four students, and mentoring sessions to accompany planning of the work.
Evaluation methods
Continuous evaluation (laboratory notebook keeping, individual and group reports, intermediate tests) (75% of final grade).
Oral test, mainly related to data treatment and to the integrated exercises, at the end of the semester (25% of final grade)
No examen in January (possibility of an exam in August, limited to the oral test)
Oral test, mainly related to data treatment and to the integrated exercises, at the end of the semester (25% of final grade)
No examen in January (possibility of an exam in August, limited to the oral test)
Other information
The course is in direct relationship with LBIR1349 Analytical chemistry 1
Online resources
Moodle
On-line book:
https://chem.libretexts.org/Bookshelves/Analytical_Chemistry/Analytical_Chemistry_2.1_(Harvey)
On-line book:
https://chem.libretexts.org/Bookshelves/Analytical_Chemistry/Analytical_Chemistry_2.1_(Harvey)
Bibliography
Notes et protocoles mis à la disposition des étudiants
Informations diffusées via Moodle
Informations diffusées via Moodle
Teaching materials
- Skoog et al (2021). Fundamentals of Analytical Chemistry. 10th edition. Cengage Technology Edition
Faculty or entity
AGRO