Component
Faculty of Science
List of courses
From the molecule to the cell
4 creditsGeneral Chemistry 1 (SVSE)
4 creditsPhysical approaches to life
3 creditsFrom cells to organisms
4 creditsFrom organisms to ecosystems
2 creditsScience for the environment
4 creditsEnglish S1
1 creditsComputational methods
4 creditsScientific reinforcement
4 credits
From the molecule to the cell
ECTS
4 credits
Component
Faculty of Science
The aim of the "From molecules to cells" course is to provide L1 students with the basic notions of biology that will be necessary to follow the biochemistry, cell biology, molecular biology, virology and microbiology courses of the following semesters. The structure of biomolecules (nucleic acids, proteins, lipids and sugars) and the structural organization of the cell will be detailed with a view to understanding the origin of life and the organization of viruses, prokaryotic and eukaryotic cells.
General Chemistry 1 (SVSE)
ECTS
4 credits
Component
Faculty of Science
Physical approaches to life
ECTS
3 credits
Component
Faculty of Science
Introductions to simple physics concepts (optics, mechanics), applied to problems of biological interest.
From cells to organisms
ECTS
4 credits
Component
Faculty of Science
This is a first approach to the integrative biology of organisms.
In this course, named "from cells to organisms", the structure-function relationships at different scales are studied, from the cell (or even the molecule) to the organism in its living environment.
From organisms to ecosystems
Level of study
BAC +1
ECTS
2 credits
Component
Faculty of Science
The first objective of this teaching unit is to allow students to discover scientific ecology in all its diversity. Particular attention is paid to the definition of scientific ecology, in relation to the meaning of the term "ecology" (political ecology or ecologism) in the media and for the general public. The place of the environment in the scientific study of ecology is also clarified. With the help of tutorials and practical exercises, three major themes of ecology are covered: paleoecology, functional ecology& evolutionary ecology. It is important to note that these themes are supported by a particularly active scientific community in Montpellier.
Science for the environment
Level of study
BAC +1
ECTS
4 credits
Component
Faculty of Science
This unit of instruction is designed to provide a general context for understanding Earth science and biology while considering the Humanities and Social Sciences fields. Today's Earth is not detached from its past. To understand the impacts of environmental and climatic transformations on planet Earth, a diachronic (long time, change over time) and synchronic (spatial variations) approach is necessary.
Accordingly, this EU presents the history of the Earth through geological time. It discusses the structure, composition and processes of the Earth. Issues, concerns and problems related to natural hazards are also included. These will also be lessons providing the foundation for students to understand the societal issues around climate and environmental issues. The benefits of this course are essential for the well-being of tomorrow's society, enabling the training of young citizens or future workers capable of analyzing, criticizing and thinking about past, present and future environmental and climate issues and of participating in decision-making in societal debates dealing with environmental risks. This course has been designed by teacher-researchers from different scientific fields (Earth and Water Sciences, Ecology, Philosophy, Political Science) showing that approaches ranging from the fundamental to the operational are necessary.
Hourly volumes:
CM : 36h
Computational methods
ECTS
4 credits
Component
Faculty of Science
This EU is divided into two parts.
The first one aims at consolidating the high school knowledge that is essential for the pursuit of higher studies in science: understanding proportionality and linearity, calculating with powers, manipulating fractions, and solving simple equations.
The second part will be devoted to the study of functions of one real variable: the emphasis will be on the usual functions, the graphical representation of functions, and the mathematical notion of derivative (or instantaneous rate of increase).
Most of the concepts discussed will be illustrated with concrete examples from biology.
Scientific reinforcement
ECTS
4 credits
Component
Faculty of Science