Component
Faculty of Science
List of courses
Your choice: 1 of 5
Fluid biophysics
3 creditsFood-Nutrition-Health
3 creditsBiotechnologies and the challenge of sustainable agronomy
3 creditsLife chemistry
3 creditsAnimal behavior - Ethology
3 credits
Fluid biophysics
Study level
BAC +2
ECTS
3 credits
Component
Faculty of Science
The first part (around 1/3) of the module deals with (biological) processes whose time evolution is described by an exponential law (growth or decay).
Radioactivity will be discussed, as an illustration of such a process, and for its applications in the biology-health-environment field (dating, tracing, etc.).
The second part (around 2/3) of the module introduces the concepts of fluid and pressure, and presents the laws of hydrostatics (fundamental law of fluid statics, Archimedes' theorem).
Fluid dynamics will be introduced, including the concepts of flow, viscosity, sedimentation and centrifugation, in connection with the Biology-Health sector.
List of Chapters :
- Exponential variations
- Radioactivity (radioactive decay, activity)
- Fluids: definition, properties, notion of pressure
- Hydrostatics: fundamental law of fluid statics, Archimedes' theorem.
- Elements of hydrodynamics: flows, Bernouilli's theorem
- Viscosity; Sedimentation and centrifugation
Food-Nutrition-Health
Study level
BAC +2
ECTS
3 credits
Component
Faculty of Science
In a context where nutrition has become the focus of interest for an increasingly broad public, the aim of this EU course is to establish food consumption benchmarks using a scientific approach.
This course covers the basics of food and nutrition, describing nutrients (proteins, carbohydrates, lipids, fibers, vitamins and minerals), nutritional requirements and the different food groups. A number of food processes and technologies are also covered.
Biotechnologies and the challenge of sustainable agronomy
Study level
BAC +2
ECTS
3 credits
Component
Faculty of Science
This course is aimed at L2 Life Sciences students wishing to learn more about how biotechnologies can help meet current and future challenges in the sustainable production of agricultural and agri-food resources.
Man uses the properties of photosynthetic organisms and microorganisms to obtain and process a wide range of resources and services: food products for humans and livestock, therapeutic molecules, construction materials, etc. This use is dependent on natural conditions, and its impact on the environment is likely to be reciprocal, for example via the withdrawal or deterioration of limited and/or non-renewable resources (water, soil, etc.). For resource production to be sustainable, it is therefore important that its organization (the concept of agronomy) incorporates knowledge of these impacts, and relies on an understanding of the properties of plants and micro-organisms to meet these challenges. The development and use of new biotechnologies in the fields of applied genetics and plant physiology, the use of microorganisms, and the favorable or unfavorable interactions between these microorganisms and plants all play a major role in these sustainable agronomy strategies.
Animal behavior - Ethology
Study level
BAC +2
ECTS
3 credits
Component
Faculty of Science
The aim of this teaching unit is to take an integrative approach to animal behavior, in the light of Tinbergen's four "whys": from ontogeny and neurobiological causes to evolution and biological functions. In addition to historical, conceptual and methodological contributions, students will be coached to grasp the diversity of traits involved, as well as the diversity of approaches and associated scientific questioning. Using a variety of examples, this course will highlight the diversity of disciplines studying animal behavior: Neuroscience, Ethology, Behavioral Ecology, and will provide students with the information they need to continue their studies in the appropriate fields: Animal Physiology and Neuroscience/ Evolutionary Biology and Ecology/ Others....