Master in Applied Engineering

Faculty of Engineering - Department of Mechanical and Industrial Engineering

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Description

It is concerned with the mechanical (structural) design of various mechanical systems and parts in cars, elevators, power stations, oil refineries, handling systems, production machines, robots, and others. This division is also concerned with studying methods of reducing the impact of vibrations and noise with finding effective solutions for them. This division is also concerned with means and techniques of automatic control, mechatronics, computer-assisted design, analytical study of robots, and research in the field of mechanics.

Objectives

• Preparing engineers specialized in applied mechanics who are able to compete in the labor market.

• Apply knowledge of mathematics and basic sciences and concepts of engineering sciences to solve problems in the fields of applied mechanics engineering.

Linking theoretical studies with their practical engineering applications

• Apply analytical and methodological tools and methods to design, evaluate, and develop mechanical components and systems.

• The ability to analyze engineering and deep scientific thinking

Outcomes

A Knowledge & understand

1. Understand the foundations of basic sciences, mathematics, physics and engineering sciences to solve engineering problems

2. Describe the concepts of applied mechanics in the field of machine theory, mechanical design, vibrations, control systems, mechatronics, and measurements in a scientific and engineering way

3. Understanding of engineering analysis and evaluation criteria for different types of machines and mechanical systems

4. Explanation of design theories and their application mechanisms.

5. Understanding scientific thinking methods in facing engineering problems

6. Describe the working principles of mechanical devices and experiments related to the field of applied mechanics

B Mental skills

By the end of the program, the student will be able to:

1. Using the acquired mathematical, engineering and mechanical knowledge in solving engineering problems.

2. Engineering analysis of the mechanisms of mechanical elements and systems

3. Application of design codes and standards in the analysis and design of mechanical components and systems.

4. Applying design theories and steps according to specific methods to solve mechanical design problems

5. The ability to design systems and components that meet the specific needs of engineering problems

6. Creative thinking in analyzing and interpreting data and results.

 Practical & professional skills

By the end of the program, the student will be able to:

1. Designing mechanical elements and systems using engineering programs

2. Mathematical modeling of machines and mechanical systems

3. Using different methods and tools for measurement

4. Conducting experiments and measurements, analyzing and interpreting results

5. Preparing engineering drawings and designs

6. Engineering evaluation, developing solutions and proposing alternatives to the problem under study.

 Generic and transferable skills

By the end of the program, the student will be able to:

1. Work effectively within the work team and coordinate and communicate with team members

3. Using engineering software

4. Writing technical reports

 

Certificate Rewarded

Master of Mechanical Engineering in the field of Applied Mechanics Engineering

Entry Reuirements

- The applicant must have a Bachelor's degree in Mechanical Engineering

-Successfully pass the comprehensive exam

Study Plan

The Master in Applied Engineering prepares students to qualify for Master in Applied Engineering. The student studies several subjects which have been carefully chosen in this major to cover its different aspects.

It comprises 6 Semesters of study, in which the student will study a total of 32 units, which include 0 units of general subjects, and 0 major units

Study plan for this program is shown below:

1st Semester

Code Title Credits Course Type Prerequisite
GE 604 Advanced Engineering Mathematics 03 General +

2nd Semester

Code Title Credits Course Type Prerequisite
ME612 Statistics Applications in Engineering 03 Compulsory +

ME634 Materials and Process Selection 03 Compulsory +

ME639 Advanced Manufacturing Processes 03 Compulsory +

ME641 Product Development 03 Compulsory +

3rd Semester

Code Title Credits Course Type Prerequisite
ME615 Unconventional Forming Process & Metallurgy 03 Elective +

ME619 Mechanical Behavior of Engineering Materials 03 Elective +

ME635 Computer Integrated Manufacturing Systems 03 Elective +

ME638 Product Quality 03 Elective +

4th Semester

Code Title Credits Course Type Prerequisite
ME643 Non Traditional Machining Processes 04 Elective +

ME647 Sustainable Green Manufacturing 03 Elective +

ME646 Additive Manuf. & 3D Product Modeling 03 Elective +

ME645 Composites and Polymers 03 Elective +

5th Semester

Code Title Credits Course Type Prerequisite
ME648 Advanced Metal Forming 03 Elective +

ME652 Maintenance Engineering 03 Elective +

ME658 Industrial Systems Simulation 03 Elective +

ME685 Lean Manufacturing 03 Elective +

6th Semester

Code Title Credits Course Type Prerequisite
ME698 Graduate Seminar 03 Compulsory +

ME699 M.Sc. Thesis 03 Compulsory +