5.00 credits
30.0 h + 30.0 h
Q1
This learning unit is not open to incoming exchange students!
Teacher(s)
Nunes Grapiglia Geovani;
Language
French
Prerequisites
This course assumes the skills of the end of secondary school in analysis (functions, calculation of derivatives and integrals).
Main themes
The course emphasizes:
- the understanding of mathematical tools and techniques based on a rigorous learning of the concepts favored by the highlighting of their concrete application,
- the rigorous manipulation of these tools and techniques within the framework of concrete applications.
- Sets and numbers
- One-variable real functions
- Boundaries
- Continuous functions
- Differentiable functions
- Integrals
Learning outcomes
At the end of this learning unit, the student is able to : | |
S1.G1 S2.2 | With regard to the AA reference system of the "Bachelor in Computer Science" program, this course contributes to the development, acquisition and evaluation of the following learning outcomes: S1.G1 S2.2 Students who successfully complete this course will be able to:
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Content
The course emphasizes:
The concepts covered in this course are described below.
Sets and numbers
- the understanding of mathematical tools and techniques based on a rigorous learning of the concepts favored by the highlighting of their concrete application,
- the rigorous manipulation of these tools and techniques within the framework of concrete applications.
The concepts covered in this course are described below.
Sets and numbers
- Sets (notation, intersection, union, difference)
- Interval, upper bound, lower bound, extremum
- Absolute value, powers and roots
- Cardinality of a set (finite and infinite) and notion of inclusion-exclusion
- Equivalence
- Elements of logic and techniques of proof
- Injective, surjective and bijective functions
- Algebraic operations on functions (including graphical interpretation)
- Polynomial functions
- Exponential, logarithmic and trigonometric functions
- Composition of functions and inverse functions
- Conditions of existence
- Limits to infinity
- Fundamental theorems of continuous functions
- Derivative at a point (including graphical interpretation)
- Derivation techniques
- L'Hospital's theorem
- Maximum and minimum
- Concavity and convexity
- Linear function approximation
- Taylor expansion
- Primitives
- Definite integrals (including graphical interpretation)
- Improper integrals
- Integration techniques
Teaching methods
Lectures and exercise-based learning activities (APE). Online assignments will also be offered. The course and the learning activities through exercises will favor interactions between teachers and students.
Some of the above activities (lessons, APE, APP) can be organized remotely.
Some of the above activities (lessons, APE, APP) can be organized remotely.
Evaluation methods
Students are assessed individually during a written exam on the basis of the learning outcomes announced above. In addition, homework results will be incorporated into the final grade as a bonus. The exact terms and conditions will be specified during the course.
Teaching materials
- Vincent Blondel, Mathématiques pour les sciences la vie - Analyse
Faculty or entity
SINC
Programmes / formations proposant cette unité d'enseignement (UE)
Title of the programme
Sigle
Credits
Prerequisites
Learning outcomes
Bachelor in Computer Science