The Physicochemical Analysis Techniques 1 module covers various topics related to physicochemical separation methods for homogeneous and heterogeneous mixtures. The first chapter addresses general principles of separation methods, with an emphasis on traditional techniques such as filtration, centrifugation, and decantation. The following chapters focus on an in-depth study of different specific separation methods, including separation by phase rupture, solvent extraction, chromatography, and osmosis and dialysis.
Course Content:
1. General overview of separation methods.
2. Separation by phase break (phase separation).
3. Extraction by chemical means.
4. Extraction using an immiscible solvent.
5. Separation by change of state.
6. Chromatographic methods.
7. Osmosis and dialysis.
Assessment Method:
· Continuous assessment: 33%
· Examination: 67%
- Créateur de cours: Ilham Chadli
- Créateur de cours: Kamel Djail
This module introduces students to the basic concepts of organic chemistry, focusing on the structure, bonding, nomenclature, stereochemistry, and reactivity of organic molecules. It provides a comprehensive understanding of functional groups, their classification, and systematic naming according to IUPAC rules. Students learn the main reaction mechanisms such as nucleophilic substitutions, eliminations, additions, and resonance effects that govern organic reactivity. The course also covers isomerism (constitutional, geometric, and optical) and introduces electronic effects influencing molecular behavior
- Créateur de cours: Ilham Chadli
- Créateur de cours: Radhia Mazri
Mineral chemistry is the study of the chemical composition and bonds of minerals, which are naturally occurring inorganic solids. It examines the elements that make up minerals, how they are held together by ionic, covalent, or metallic bonds, and how these properties dictate a mineral's physical characteristics. This field also explores the chemical conditions under which minerals form and alter, and is crucial for mineral classification and identification.
- Créateur de cours: Kamel Djail
The Physicochemical Analysis Techniques 1 module covers various topics related to physicochemical separation methods for homogeneous and heterogeneous mixtures. The first chapter addresses general principles of separation methods, with an emphasis on traditional techniques such as filtration, centrifugation, and decantation. The following chapters focus on an in-depth study of different specific separation methods, including separation by phase rupture, solvent extraction, chromatography, and osmosis and dialysis.
Course Content:
1. General overview of separation methods.
2. Separation by phase break (phase separation).
3. Extraction by chemical means.
4. Extraction using an immiscible solvent.
5. Separation by change of state.
6. Chromatographic methods.
7. Osmosis and dialysis.
Assessment Method:
· Continuous assessment: 33%
· Examination: 67%
- Créateur de cours: Ilham Chadli
- Créateur de cours: faiza lehraki
- Créateur de cours: nawel benyahia
“Numerical Methods and Programming” specifically refers to a broad field of mathematics and computer science that deals with solving mathematical problems using numerical approximations rather than symbolic calculations. These numerical tools are particularly useful when analytical (exact) solutions are difficult or impossible to achieve.
An important note: courses are taught exclusively in English. The files attached to this platform are in French, pending completion of their translation.
- Créateur de cours: Kenouche Samir
A summary of organic chemistry for a second-year undergraduate covers the study of carbon compounds, their structures, and their reactivity, including alcohols, hydrocarbons (alkanes, alkenes, alkynes), and the study of elementary reactions such as addition, substitution, and elimination. The objective is to understand the reaction mechanisms, that is, the movement of electrons and atoms during chemical transformations. Functional groups, such as hydroxyl (-OH), are essential for defining the different families of organic molecules.
- Créateur de cours: djamila maanani
These lessons are dedicated to second-year students in the Materials Science department, specializing in Chemistry, following the curriculum provided by the ministry. They can also help Physics students from the same department or Mathematics students and researchers in applied fields who need to understand the basic concepts of multivariable functions and multiple integrals. \\
They can serve as foundational lessons for the second year in the department and be a starting point for more advanced training in integral calculus. These lessons are written in a clear and simple manner to motivate students to learn the basic principles and concepts of mathematical analysis, attempting to simplify the definitions and explanations of differentiation and integration methods that require describing physical or chemical phenomena and knowing certain things about these phenomena, observations, or samples.\\
In these lessons, we have integrated well-solved examples and exercises. This work is divided into four chapters, the first of which is dedicated to simple and multiple integrals. The second chapter introduces integrals, while we discuss first and second-order differential equations in the third chapter, and finally we address numerical series, function series, and Fourier series in the last chapter.
- Créateur de cours: Brahim Brahimi