3.00 credits
22.5 h + 7.5 h
Q1
Teacher(s)
Froment Pascal;
Language
French
Main themes
The aim of the course is threefold
- present an extended knowledge of the atomic nucleus, stable and unstable, in order to master the theoretical concepts and the various applications related to isotopes, radioactivity and nuclear reactions ;
- give a fundamental understanding of the interactions between radiations and matter, with their chemical and biological consequences and applications to radioprotection ;
- provide firm basis to appreciate the problem of energy supply by nuclear ways.
- present an extended knowledge of the atomic nucleus, stable and unstable, in order to master the theoretical concepts and the various applications related to isotopes, radioactivity and nuclear reactions ;
- give a fundamental understanding of the interactions between radiations and matter, with their chemical and biological consequences and applications to radioprotection ;
- provide firm basis to appreciate the problem of energy supply by nuclear ways.
Learning outcomes
At the end of this learning unit, the student is able to : | |
1 | The aim of the course is threefold : - present an extended knowledge of the atomic nucleus, stable and unstable, in order to master the theoretical concepts and the various applications related to isotopes, radioactivity and nuclear reactions ; - give a fundamental understanding of the interactions between radiations and matter, with their chemical and biological consequences and applications to radioprotection ; - provide firm basis to appreciate the problem of energy supply by nuclear ways. |
Content
- Stability of atomic nuclei, radioactivity and nuclear disintegrations.
- Introduction to the standard model in nuclear physics
- Production of radioelements: nuclear reactions and irradiation conditions
- Measurement of radioactivity
- Chemical and biological effects, dosimetry of radiations
- Production of energy : nuclear fission and fusion
- Applications of nuclear chemistry: isotopic exchange; use of radioactive tracers in chemistry; labelled molecules in biology and nuclear medicine; datation methods.
Teaching methods
Lectures, exercices and visits related to radioactivity will be provided
Evaluation methods
The exam contains theoretical questions to discuss and exercises to solve.
Other information
Prerequisite :
- Basic notions in general and physical chemistry (1st and 2nd year of a bachelor degree) are needed.
- Basic notions in general and physical chemistry (1st and 2nd year of a bachelor degree) are needed.
Bibliography
Deux livres de référence seront principalement utilisés:
- Radiochemistry and Nuclear Chemistry de G. Choppin (2002)
- Nuclear and Radiochemistry de K. Lieser (2001).
Faculty or entity
CHIM