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    Subject title: Elements of chemistry

    Faculty: Technology

    Department: Common Base / Engineering

    Cycle: 1st year Engineering

    Semester: 1

    Credits: 7

    Coefficients: 4

    Volume: 1h30

    Teacher: HAMZIOUI Louanes

    Email: louanes.hamzioui@univ-msila.dz


  • Objectives

    65,200+ Learning Objectives Stock Photos, Pictures & Royalty-Free Images - iStock | Learning objectives icon, Learning objectives text, Business learning objectives

    Chemistry is considered an integral part of the history of science and the contemporary world. In general, general chemistry describes the reactivity of elements and their compounds, while providing a broad overview of the principles on which chemistry is based, and is the basis of initial scientific training for chemists. This course contains theoretical developments and uses mathematical tools to understand certain notions of structural chemistry.

  • Course Questions

    REVISION DE COURS QUESTION REPONSE | Facebook

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  • Chapter I

    What is Matter?

    I. Definition of matter

    II. Changes of state of matter

    III. Classification of matter

    IV. Notion of atom, molecule, mole and Avogadro number

    V. Law of conservation of mass (Lavoisier), chemical reaction

    VI. Qualitative and quantitative aspects of matter


  • Chapter II

    Difference Between Electron and Proton (with Comparison chart) - Circuit Globe

    I. Electron: Demonstration: J.J. Thomson's experiment, Properties of cathode rays

    II. Nucleus: Demonstration: Rutherford experiment, Constitution of the atomic nucleus

    III. Element identification: Representation, Atomic mass, Relative atomic mass


  • Chapter III

    Radioactivity: Definition and Types Study Guide - Inspirit Learning Inc


    I. Natural radioactivity

    II. Artificial radioactivity and nuclear reactions: nuclear fission, nuclear fusion, transmutation

    III. Radioactive decay kinetics: radioactive decay law: activity of a radioactive nucleus, radioactive half-life or half-life time


  • Chapter IV

    Difference Between Emission and Absorption Spectra - Comparison Chart

    I. Production of atomic emission spectra

    II. Electromagnetic radiation

    III. Photon theory: emission spectrum of the hydrogen atom and the empirical Balmer-Rydberg relation

    IV. Classical models of the atom: Rutherford's planetary model and Bohr's model

    V. Quantum or wave models of the atom

    VI. Schrödinger model and probability of presence

    VII. Quantum numbers

    VIII. Electronic configuration of atoms and ions

    IX. Slater's method for polyelectronic atoms