Bachelor of Science in Mechanics and Energy

Vision

To achieve its status as an innovative leader in academic excellence in terms of teaching and innovations, the department aims to establish a dynamic and stimulating learning atmosphere that promotes innovation, critical thinking and lifelong learning, while staying abreast of developments in the industry and energy.

Mission

This Mechanics and Energy department seeks to prepare qualified professionals who are capable of supporting the Mechanical Engineering profession as well as the Production Industry.

Program Overview

This is a three-year program comprising 180 ECTS and delivered over 6 regular semesters. It aims to prepare graduates who are professionally competent, innovative, and ethical with effective problem-solving and communication abilities. Additionally, the program provides a robust foundation in fundamental physics and mathematics while developing specific skills in mechanical design, thermodynamics, and material sciences. Special focus on research, lifelong learning, and industry interaction is maintained to enable graduates to adapt to changes in the competitive global environment.

Program Learning Outcomes

Graduates of the Mechanics and Energy program will eventually be able to:

Apply rigorous scientific knowledge in mathematics, physics, and computer science as required in mechanical technologies.
Use modern tools including Computer-Aided Design (CAD), manufacturing processes, and material selection.
Model physical problems, analyze systems, and propose optimized solutions.
Apply soft skills including project management, technical communication, and ethical responsibility.

Student Outcomes (SOs)

Create detailed 2D and 3D geometric models using industry-standard software.
Calculate stress, strain, and deformation in mechanical parts under various loads using classical mechanics and basic computational based models.
Select appropriate materials (metals, polymers, composites) based on mechanical properties, cost, and manufacturing constraints.
Apply the laws of thermodynamics and fluid mechanics to analyze various energy systems.

The Program Structure

Year	Semester	Code	Title	Credits

Year 1	Semester 1	FREN211	Expressions and Communications I	5
		ELEE211	Electricity I	5
		MATH211	Calculus I	5
		MATH212	Algebra	5
		INFO211	Information Technology and AI	3
		MECE221	Dynamics	5

Year 1	Semester 2	MATH241	Calculus II	5
		ELOE220	Logic Circuits	5
		HUME231	Culture and Humanities I	5
		ELOE221	Electronics I	5
		FREN221	Expressions and Communications II	5
		LABE221	Physics Laboratory	2
		INFO221	Introduction to Programming	5

Year 2	Semester 3	ELOE315	Electrostatics and Electromagnetism	5
		MECE241	Thermodynamics	5
		ELOE313	Signal Processing	5
		MATH231	Probability and Statistics	5
		PHYS233	Statics and Strength of Materials	5
		LABE233	Electronics Laboratory	2
		ARAB211	Arabic Language	5

Year 2	Semester 4	MANT241	Industrial Maintenance Methods	5
		ELEC241	Electrotechnics	5
		MECE310	Fluid Mechanics	5
		HUME241	Culture and Humanities II	5
		ELOE324	Microprocessors and Microcontrollers	5
		LABM241	Mechanical Laboratory I	2

Year 3	Semester 5	ELEE322	Control Systems I	5
		CIVE231	Science of Materials	3
		PHYS352	DAO / Industrial Drawing	5
		ELEE321	Electrical Machines	5
		LABM351	Mechanical Laboratory II	2
		MECE321	Heat Transfer	5
		MECE322	Mechanical Design Concepts	5

Year 3	Semester 6	ELOE361	Automation and Industrial Data Processing	5
		MECE361	Mechanical Fabrication	5
		MECE362	Heating and Air Conditioning	5
		MECE363	Sanitary Installation	5
		LABM361	Mechanical Laboratory III	2
		MECE315	Renewable Energy	4
		MECE399	Final Project	5