Semester 1 and 2 - 1st year Preparatory Class - 2023-2024

Course label :	Experimental general chemistry
Teaching departement :	CMA /
Teaching manager :	Madam MIRELLA VIRGINIE
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CPI_M1_1_3_2 - Chimie générale exp.

Education team

Teachers : Madam MIRELLA VIRGINIE / Madam ANNE-SOPHIE MAMEDE / Madam AURELIE ROLLE
External contributors (business, research, secondary education): various temporary teachers

Summary

In this chemistry module, students should be introduced to the different aspects of chemistry, all of which can assist them in interpreting and understanding chemical phenomena. The chemistry lessons covered during the first year of the integrated preparatory programme (abbreviated CPI in the French education system) are divided into three complementary modules: General chemistry, general chemistry practical work, and introduction to organic chemistry. This section of EXPERIMENTAL GENERAL CHEMISTRY (60 hours) describes the methods and experimental capacities for the first-year programme that the students must master at the end of the academic year. It specifies the knowledge and know-how that must be acquired in the field of measurement and the assessment of uncertainties. - A lecture covers safety in the laboratory: in this section the essential topics are covered before the start of the practical work, namely measurements and risk prevention in the chemistry laboratory. - The practical work sessions will consist of: ? One individual preparatory practical work session: handling precision glassware (volumetric pipette, burette, performing a dilution, washing the glassware, etc). ? Students work in pairs for the 14 rotating practical work sessions: The chemical practical work sessions are divided into six themes, bringing together the concepts discussed during the general chemistry course: pH-metric and conductometric doses; complexometry, precipitation and solubility; potentiometry/oxidation-reduction; kinetics; concept of thermodynamics.

Educational goals

The learning objectives for general chemistry practical work can be broken down as follows: - Know how to make the connection between practical work sessions and the concepts from the first-year integrated preparatory programme (CPI) courses; - Work in a chemistry laboratory while applying safety rules; - Learn how to work in a group, develop adaptability skills, progressively develop autonomy in the implementation of simple protocols associated with the quantification of the most frequently measured physical and chemical quantities; - Make distinctions between glassware instruments, select and use the appropriate equipment adapted to the level of precision required and use measuring devices (mass, pH, conductance, voltage, temperature, refractive index, absorbance, etc.); - Learn how to calculate uncertainty for experimental results; - Estimate uncertainty for experimental results; - Comment on experimental results; - Use a titration curve to determine the title of the dosed species; - Use a titration curve to determine an experimental value of a thermodynamic equilibrium constant ; - Learn how to manage chemical waste.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Assessment for general experimental chemistry: - Continuous assessment (practical work reports and written in-class assessments at the start of practical work sessions); - A final in-class exam that takes into account practice and theory.

Online resources

- Practical work reports available on Moodle can be printed out; - Videos available on Moodle on best practices regarding the handling of equipment in experimental chemistry: use of glassware, use of precision scales, performing a dilution, etc.

Pedagogy

- During four-hour practical work sessions students work in pairs (except for session 1 and during the exam); - Practical work carried out using a practical work handbook describing the experimental protocol; - Guided reports (documents to be completed). The emphasis is placed on the ability to use and discuss experimental results.

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	60
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

- The last two years of the chemistry programme for the scientific specialisation in secondary school (in the French education system); - Knowledge and know-how acquired in the field of measurement and the assessment of uncertainties, experimental skills from the final year of the scientific specialisation in secondary school (in the French education system) or the first year of the integrated preparatory programme (CPI1); - Handling of common laboratory equipment (scales, standard glassware, etc.); - Safety rules in chemistry laboratories.

Maximum number of registrants

Remarks

Course label :	General Chemistry
Teaching departement :	CMA /
Teaching manager :	Madam MIRELLA VIRGINIE
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CPI_M1_1_3_1 - Chimie générale

Education team

Teachers : Madam MIRELLA VIRGINIE / Madam AURELIE ROLLE / Mister CHARAFEDDINE JAMA / Mister CHRISTOPHE DUJARDIN
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	80
Number of hours - Tutorial :	60
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Introduction to organic chemistry
Teaching departement :	CMA /
Teaching manager :	Madam MIRELLA VIRGINIE
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CPI_M1_1_3_3 - Introd. à la chimie organ.

Education team

Teachers : Madam MIRELLA VIRGINIE / Madam SOPHIE DUQUESNE / Mister KEDAFI BELKHIR
External contributors (business, research, secondary education): various temporary teachers

Summary

In this chemistry module, students should be introduced to the different aspects of chemistry, all of which can assist them in interpreting and understanding chemical phenomena. The chemistry lessons covered during the first year of the integrated preparatory programme (abbreviated CPI in the French education system) are divided into three complementary modules: General chemistry, general chemistry practical work, and introduction to organic chemistry. In this section, INTRODUCTION TO ORGANIC CHEMISTRY (20 hours of lectures ￜ twelve hours of tutorials) consists of the introduction to organic synthesis. The nomenclature of the compounds studied is given. The programme therefore covered during this first year will consist of introducing, understanding and mastering the electronic structure of molecules (the Lewis structure and wave model), the electronic effects in molecules (the inductive effect and mesomeric effect), acids and bases in organic chemistry, aromaticity (Hￜckel's Rule and conjugation), the structure of organic molecules (molecular formula and line formula), conformational analysis (Newman projection, cyclohexane chair and boat), stereoisomerism (absolute configuration, chirality, Cahn-Ingold Prelog rule).

Educational goals

The general learning objectives for the introduction to organic chemistry are as follows: - Master the fundamental concepts relating to the characteristics of bonds: hybridisation, atomic and molecular orbitals, resonance, aromaticity, etc. - Understand and be able to predict the relationships between a molecule's structure and properties: acidity, reactivity; - Represent a molecule based on its name, provided in a systematic nomenclature, taking into account the data of any stereochemical information, using a given type of representation; - Assign stereochemical descriptors to stereogenic centres; - Determine the isomerism relationship between two structures; - Compare the stability of several conformations; - Interpret the stability of a given conformer.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Assessment for the Introduction to Organic Chemistry module: - Two tests

Online resources

- Moodle

Pedagogy

- Mandatory in-person lectures (course materials made available); - The class is divided into two groups for the tutorial sessions; - Various (optional) tutoring sessions are organised for students who have difficulties following in class to help them and/or reinforce their knowledge.

Sequencing / learning methods

Number of hours - Lectures :	20
Number of hours - Tutorial :	12
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

- The last two years of the chemistry programme for the scientific specialisation in secondary school (in the French education system)

Maximum number of registrants

Remarks

Course label :	Tutorials in General Chemistry
Teaching departement :	CMA /
Teaching manager :	Madam MIRELLA VIRGINIE
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CPI_M1_1_3_1 - Chimie générale

Education team

Teachers : Madam MIRELLA VIRGINIE / Madam AURELIE ROLLE / Mister CHARAFEDDINE JAMA / Mister CHRISTOPHE DUJARDIN
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	16
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Computer science
Teaching departement :	MIN / Applied Mathematics and General Computing
Teaching manager :	Mister XAVIER BENY
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CPI_M1_1_1_2 - Mathématiques

Education team

Teachers : Mister XAVIER BENY
External contributors (business, research, secondary education): various temporary teachers

Summary

The main objective is to consolidate the algorithm basics acquired in secondary school by solving mathematical problems. The language used is Python. We also address the representation of numbers in a computer and its consequences in calculations.

Educational goals

Algorithmic fundamentals in Python Concept of a variable Integers, floating-point numbers, boolean, strings. Control structures Conditional instruction, for loop, while loop. Concept of a function Concept of a module The math, random, matplotlib, numpy, and time modules. Lists and matrices Creating, modifying, manipulating, and operations. Drawing graphics in Python Point clouds and curves Mathematical applications Calculating the nth term of a sequence Evaluation of the rate of convergence of a sequence Graphical representation of a sequence or function Approximate solution of equations (scanning algorithms, dichotomy, fixed point) Solving differential equations using the Euler method Lagrange interpolation Sorting algorithms (by selection, bubbles and insertion) Gauss pivot algorithm for linear systems Representation of numbers in computer science Basic concept for writing an integer, special cases of bases 2 and 16. Floating-point representation and practical consequences in calculations.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Two exams lasting one hour and 30 minutes each.

Online resources

Pedagogy

Ten practical work sessions lasting one hour and 30 minutes each are carried out on a computer in groups of two. They may be preceded by a brief lecture, if necessary. Students must write a brief report afterwards.

Sequencing / learning methods

Number of hours - Lectures :	8
Number of hours - Tutorial :	15
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Mathematics
Teaching departement :	MIN / Applied Mathematics and General Computing
Teaching manager :	Mister XAVIER BENY
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CPI_M1_1_1_1 - Mathématiques

Education team

Teachers : Mister XAVIER BENY
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	90
Number of hours - Tutorial :	90
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Tutorials in Mathematics
Teaching departement :	MIN / Applied Mathematics and General Computing
Teaching manager :	Mister XAVIER BENY
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CPI_M1_1_1_1 - Mathématiques

Education team

Teachers : Mister XAVIER BENY
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	30
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Experimental physics
Teaching departement :	CMA /
Teaching manager :	Mister JULIEN DAQUIN
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CPI_M1_1_2_2 - Physique expérimentale

Education team

Teachers : Mister JULIEN DAQUIN
External contributors (business, research, secondary education): various temporary teachers

Summary

The physics course unit in the first year of the integrated preparatory programme (CPI) is organised into two sections: a disciplinary portion (called the "Physics section") comprising lectures and tutorials and an experimental portion (called the "Experimental Physics section") comprising practical work. These two sections are interdependent. > ""EXPERIMENTAL PHYSICS" SECTION (4 ECTS) - Practical work no. 1: resistance measurement: Use of a multimeter, short and long lead installation, measurement uncertainties. Free mechanical oscillations: Graphical representations and use of linear regression with EXCEL, uncertainties and validation of a physical law. - Practical work no. 2: Using the oscilloscope: Presentation of the Low Frequency Generator and the digital oscilloscope and their main functions. - Practical work no. 3: Rotation dynamic: Graphic representation, uncertainties, validation of a physical law. - Practical work no. 4: Electrokinetic dipoles: Combination of passive dipoles (resistances) and characterisation. - Practical work no. 5: Verification of Cauchy's law: First approach of a prism goniometer, Cauchy's law - Practical work no. 6: Charging a capacitor: Determining a capacity, influence of the voltmeter, quantitative study of the charge. - Practical work no. 7: Basics of geometric optics: Verification and application of Descartes' laws for refraction and reflection. Thin lenses: Autocollimation method, verification of Descartes' conjugate equation - Practical work no. 8: Electric field lines: Map an electrostatic field by drawing the field lines and equipotential surfaces. - Practical work no. 9: Study of a series RLC circuit in a transient state, then in a forced sinusoidal state (Use of LatisPro). - Practical work no. 10: Changes in the condition of a pure body: Clapeyron diagram, triple dot, Franklin's boiler, Diiodine sublimation, water vaporisation enthalpy. - Practical work no. 11: Description and modelling of different movements: Quantitative study of the components of position, speed and acceleration vectors during the movement of a point object. Fluid friction force models. The Euler method.

Educational goals

The targeted skills are as follows: > Metrology: in particular practical work nos. 1 & 3. - Identify the sources of errors when performing a measurement. - Evaluate an uncertainty (type A or type B evaluation when performing a direct or indirect measurement). - Express the result of a measurement by a value and the associated uncertainty with an appropriate number of significant figures. - Know how to compare a measured value with its uncertainty associated with a reference value. - Analyse the sources of uncertainty and propose improvements to the measurement process. - Use linear regression software. - Judge whether experimental data with uncertainties are consistent with a linear or affine model. > Geometric optics: Practical work no. 5 & 7 - Use a fixed front sight and an autocollimator. - Perform a length measurement by moving the sight between two positions. - Choose one or more lenses according to experimental constraints, and choose a reasonable focal distance. - Optimise the quality of an image (alignment, limitation of aberrations, etc.). - Estimate the order of magnitude of a focal distance. - Experimentally model a commonly used optical device using several lenses. > Electrokinetics: Practical work nos. 1, 2, 4, 6 & 9 - Obtain a signal for the given average value, shape, amplitude and frequency. - Manage, in an electronic circuit, the constraints related to the connection between masses. - Define the nature of the measurement made (effective value, average value, amplitude, peak-to-peak value, etc.). - Specify the disturbance caused by the measuring instrument on the assembly and its limits (bandwidth, input resistance). - Study the influence of these input and output resistances on the signal delivered by a function generator, on the measurement made by an oscilloscope or a multimeter. - View the characteristics of a sensor using a digital oscilloscope or capture board. - Explain the link between resolution, calibre, number of measurement points. - Study the characteristic of a dipole. - For a circuit, acquire a first-order transient state and analyse its characteristics. Compare experimental results with theoretical expressions. - Acquire a second-order transient state and analyse its characteristics. - Implement an experimental system for the resonance phenomenon. > Mechanics of material points: Practical work no. 11 - Quantitatively produce and use a video recording of a movement: temporal evolution of the speed and acceleration vectors. - Experimentally validate a fluid friction force model reporting the influence of the resistance of a viscous fluid that is falling. - Implement the Euler method to numerically solve a differential equation. > Thermodynamics: Practical work no. 10 - Implement an experimental protocol to study the relationships between state quantities of a fluid at equilibrium (a pure single-phase or a two-phase body). - Implement an experimental protocol to measure an energy thermodynamic quantity (thermal capacity, state change enthalpy, etc.). > Electrostatics: Practical work no. 8 - Plot the electrostatic field lines of several load distribution shapes using equipotential curves.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: After each practical work session the students must write a report that will be marked. There is also a final practical exam.

Online resources

Pedagogy

Students work in pairs during the four-hour practical work session. Hourly volume: 48 hours Language: French

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	4
Number of hours - Practical work :	48
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Disciplinary and experimental fundamentals acquired during the Physics-Chemistry specialisation courses for the last two years of secondary school (in the French education system).

Maximum number of registrants

Remarks

Course label :	Physics
Teaching departement :	CMA /
Teaching manager :	Mister JULIEN DAQUIN
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CPI_M1_1_2_1 - Physique

Education team

Teachers : Mister JULIEN DAQUIN / Madam FREDERIQUE POURPOINT
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	90
Number of hours - Tutorial :	70
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Tutorials in Physics
Teaching departement :	CMA /
Teaching manager :	Mister JULIEN DAQUIN
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CPI_M1_1_2_1 - Physique

Education team

Teachers : Mister JULIEN DAQUIN / Madam FREDERIQUE POURPOINT
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	30
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	English
Teaching departement :	LVI / Foreign Languages
Teaching manager :	Mister ABDELAMAR BENAISSA
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CPI_M1_2_1_1 - Anglais

Education team

Teachers : Mister ABDELAMAR BENAISSA / Madam VERONIQUE HAGUE
External contributors (business, research, secondary education): various temporary teachers

Summary

Consolidate linguistic knowledge in the five language-skill domains acquired during secondary school through thematic approaches (sustainable development, new technologies, transport and chemistry, entertainment, etc.). Become independent users (level B2).

Educational goals

Write clearly and in detail on various subjects using proper grammar and structure. Express oneself easily and spontaneously on various subjects. Nuance a point of view. Take part in a debate. Understand authentic videos and audio recordings. Understand written documents. Give an oral summary of one or more written documents. Acquire and improve use of syntax and vocabulary.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Two written exams and two oral exams

Online resources

...

Pedagogy

Oral comprehension exercises (audio and video). Promote oral expression: debates, interactions, oral presentations with slides. Read press articles and give oral reports alone or in pairs. Improve syntax and vocabulary.

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	60
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

...

Maximum number of registrants

Remarks

A language test is taken at the beginning of the year to determine, if possible, the groups based on students' levels

Course label :	French as a foreign language
Teaching departement :	LVI / Foreign Languages
Teaching manager :	Madam VERONIQUE DZIWNIEL
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CPI_M1_2_4_1 - Français langue étrangère

Education team

Teachers : Madam VERONIQUE DZIWNIEL
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	60
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	German
Teaching departement :	LVI / Foreign Languages
Teaching manager :	Madam BEATE IZARD
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CPI_M1_2_2_1 - Allemand

Education team

Teachers : Madam BEATE IZARD
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	60
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Japanese
Teaching departement :	LVI / Foreign Languages
Teaching manager :	Madam FUMIKO SUGIE
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CPI_M1_2_5_1 - Japonais

Education team

Teachers : Madam FUMIKO SUGIE
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	60
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Spanish
Teaching departement :	LVI / Foreign Languages
Teaching manager :	Madam HAKIMA LARABI
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CPI_M1_2_3_1 - Espagnol

Education team

Teachers : Madam HAKIMA LARABI
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	1
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	3P
Teaching departement :	ESO / Business and Society
Teaching manager :	Madam CATHERINE RENARD
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CPI_M1_3_2_1 - 3P

Education team

Teachers : Madam CATHERINE RENARD / Madam CAROLINE PIROVANO / Madam CHARLOTTE BECQUART / Madam MURIELLE RIVENET
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	3
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	3P
Teaching departement :	ESO / Business and Society
Teaching manager :	Madam CATHERINE RENARD
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CPI_M1_3_2_1 - 3P

Education team

Teachers : Madam CATHERINE RENARD
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	1
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	20
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Communication - general knowledge
Teaching departement :	ESO / Business and Society
Teaching manager :	Madam CATHERINE RENARD
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CPI_M1_3_1_1 - Communication - Culture généra

Education team

Teachers : Madam CATHERINE RENARD
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	48
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	3P
Teaching departement :	ESO / Business and Society
Teaching manager :	Madam CATHERINE RENARD
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CPI_M1_3_3_1 - Stage découverte de l'entrepri

Education team

Teachers : Madam CATHERINE RENARD
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	2
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks