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    University: Djilali Bounaama Khemis Miliana

    Faculty: Science and Technology

    Department: Material Sciences

    Domain: Sciences and technology

    Level: L1

    Module:  Physics I : Dynamics.

    Semester: 01 (15 weeks).

    Coefficient: 03

    Credit : 06

    Semester hourly volume: 67h30 min

    Weekly hourly volume: 4h30 min (3h00 min lessons and 1h30 min tutorial)

    Lecturer: Dr. ELBAA Mohamed.

    specialty: Materials Physics

    Diploma: Doctor in pharmaceutical analysis

    Grade: MCB

    Contact:  m.elbaa@univ-dbkm.dz.

    Assessment method: The evaluation is carried out through an interrogations and a Final Exam

    To pass the module, the general average must be greater than or equal to 10 out of 20

  • Objectives of the Course

    Conceptual hand writing showing Objectives. Business photo text Goals  planned to be achieved Desired targets Stock Illustration | Adobe Stock

    Studying kinematics and dynamics enables us to comprehend how objects move and the forces influencing their motion. Through this study, students develop problem-solving skills applicable across various fields, including engineering and physics. Engineers utilize these principles to design efficient and safe systems, while scientists employ them to understand natural phenomena and formulate theories. 

  • Prerequisites

    Notion of  vector analysis (scalar and vector field, integrals: one-dimensional, two-dimensional and three-dimensional, gradient, divergence, rotational).

  • Plan of the Course

    I.          Chapter 0 : Mathematical reminders:

    1-    Equation for dimensions.

    2-     Reminder on vectors

    II.    Chapter I : Kinematics :

    1‐ Position vector in coordinate systems (Cartesian, cylindrical, etc.) - law of motion - Trajectory.

    2‐ Velocity and acceleration in coordinate systems.

    3‐ Applications: Movement of a material point in different coordinate systems.

    4‐ Relative motion.

    III.  Chapter II. Dynamics :

    1‐ Generalities : Mass ‐ Force ‐ Moment of force – Absolute and Gallilien reference frame

    2‐ Newton's laws

    3‐ Principle of conservation of momentum.

    4‐ Differential equation of motion

    5‐ Kinetic momentum

    6‐ Applications of the fundamental law for forces (constant, time-dependent, velocity-dependent, central force, etc.).

    IV. Chapter III. Work and energy :

    1‐ Work of a force

    2‐ Kinetic energy

    3‐ Potential energy – Examples of potential energy (gravity, gravitational, elastic)

    4‐ Conservative and non-conservative forces – Total energy theorem

    V. Bibliography

  • I. Chapter o: Mathematical reminders

  • II. Chapter I: Kenimatics of a Material Point

  • III. Chapter II: Dynamics of a Material Point

  • IV. Chapter III: Work and Energy

  • V. Bibliography

    1.       Gibaud, M. Henry ; Cours de physique – Mécanique du point – Cours et exercices corrigés ; Dunod, 2007.
    2.       Marcelo Alonso, Edward J. Finn; Fundamental university physics, Volume 1: Mechanics (Addison-Wesley series in physics) Hardcover – January 1, 1967
    3.       P. Fishbane et al.; Physics For Scientists and Engineers with Modern Physics, 3rd Ed. ; 2005.
    4.       P. A. Tipler, G. Mosca ; Physics For Scientists and Engineers, 6th Ed., W. H. Freeman Company, 2008.