Explore the programs and courses offered by Bachelor in Mechanical Construction
Browse Programs Admission InformationThe Bachelor’s Degree in Mechanical Construction is an interdisciplinary program to provide students with all the knowledge necessary to understand and solve problems related to mechanical systems. This training allows students to acquire a broad scientific culture in the field of engineering sciences, with solid foundations in mechanics, mathematics and scientific calculation. It consists of :
- Training students in methods of synthesis, analysis and understanding of laws and fundamental phenomena relevant to the field of mechanical sciences.
- Providing essential complements to the applications of mathematics and computer science.
- Preparing students to acquire theoretical and practical methods for applications in various fields in general and in the field of mechanical industries in particular.
Objectives of the Program
- Master the fundamentals of mechanical engineering.
- Training students in methods of synthesis, analysis and understanding of laws and fundamental phenomena relevant to the field of mechanical engineering.
- Preparing students to acquire theoretical and practical methods for applications in various fields in general and in the field of mechanical industries in particular.
- Gain hands-on experience through practical projects, simulations, and internships.
Mathematics
Elementary Functions, Limited Expansion, Linear Algebra, etc
Physics
Kinematics, Dynamics, Work and Energy, etc. for a material point
Structure of Matter
Main Constituents of Matter, Radioactivity – Nuclear Reactions, Structure of the Atomic, Periodic Table of Elements, Chemical Bonds
Thermodynamics
First, Second, and Third Laws of Thermodynamics, Absolute Entropy, Free Energy and Enthalpy
Waves and Vibrations
Single-Degree-of-Freedom Systems, Single-Degree-of-Freedom Systems, Propagation Phenomena, Vibrating Strings, Acoustic Waves in Fluids, Electromagnetic Waves
Fluid Mechanics
Fluid Statics, Fluid Dynamics, Perfect Incompressible Fluids, Real Incompressible Fluids
Rational Mechanics
Statics, Rigid Solid Kinematics, Mass Geometry, Rigid Solid Dynamics
Manufacturing
Metal Cutting, Machine Tools
Numerical Methods
Polynomial Interpolation, Function Approximation, Numerical Integration, Solving Systems of Equations, Excel, Matlab, Python
Strength of Materials
Tensile and compression, shear, torsion, bending
Mathematics
Matrices and Determinants, Systems of Linear Equations, Integrals, Differential Equations, Functions of Several Variables, Series, Fourier Transform, Laplace Transform, Cauchy Theory
Thermodynamics
Thermodynamics of Pure Substances, Thermodynamics of Vapors and Humid Air, Compression and Expansion of Gases, Engine Cycles, Refrigeration Cycles
Physics
Electrostatics, Electrokinetics, Electromagnetism
Strength of Materials
Composite Stresses, Hyperstatic Systems, Dimensioning
Analytical Mechanics
Solid Dynamics, Principle of Virtual Work, d'Alembert Principle, Lagrange Principle, Hamilton Principle
Mechanical Construction
Threaded Joints, Joints, Springs, Gears, Shafts and Axles, Transmission, Reducers and Gearboxes
Elasticity
Tensor, Stresses, Deformations, Hooke's Laws, Rankine Law, Tresca Law, Von Mises Law
Theory of Mechanisms
Mobility, Plane Mechanisms, Four-Bar Articulated Mechanisms, Cams
Heat Transfer
Conduction, Convection, Radiation
Structural Dynamics
Vibrations with 1 and 2 degrees of freedom, N-degree-of-freedom systems
Computer-Aided Design
3D Modeling, Assemblies, SolidWorks
Admission to the Mechanical Construction bachelor's program is granted to students who have successfully completed the first year of the Science and Technology program, regardless of whether they have outstanding academic debts, based on the number of available academic places. It should be noted that entry into the Science and Technology program is restricted to candidates holding a baccalaureate in Experimental Sciences, Mathematics, or Technical Mathematics.