The graduates from Manufacturing Engineering Program:

• Master a wide spectrum of engineering knowledge and specialized skills and can apply acquired knowledge using theories and abstract thinking in real life situations.
• Apply analytic critical and systemic thinking to identify, diagnose and solve engineering problems with a wide range of complexity and variation.
• Behave professionally and adhere to engineering ethics and standards.
• Work in and lead a heterogeneous team of professionals from different engineering specialties and assume responsibility for own and team performance.
• Recognize his/her role in promoting the engineering field and contribute in the development of the profession and the community.
• Value the importance of the environment, both physical and natural, and work to promote sustainability principles.
• Use techniques, skills and modern engineering tools necessary for engineering practice.
• Assume full responsibility for own learning and self-development, engage in lifelong learning and demonstrate the capacity to engage in post- graduate and research studies.
• Communicate effectively using different modes, tools and languages with various audiences. to deal with academic/professional challenges in a critical and creative manner.
• Demonstrate leadership qualities, business administration and entrepreneurial skills.
• Work with mechanical design and manufacturing systems.
• Use of mathematics and physical and engineering sciences and systems analysis tools in components and machines and produce design and manufacture.
• Use the computer graphics for design, communication and visualization.
• Analyze multi-disciplinary mechanical, electrical, thermal and hydraulic systems.
• Demonstrate the ability to design, develop, implement, and improve integrated systems that include people, materials, information, equipment and energy.
• Understand the engineering relationships between the management tasks of planning, organization, leadership, control, and the human elements in production, research and service organizations.
• Underlining the key roles of safety dimensions, sustainable technology, environmental friendliness, and cleaner production measures in manufacturing, materials, managerial and economic alternatives as reflected in the program course structure.
• Students will learn engineering sciences and demonstrate the application of this knowledge to electro-mechanical systems.
• Analyze and investigate the inter-disciplinary characteristics of mechanical, electrical and hydraulic systems.
• Graduates should have wide choices leading to specialization in mechanics, electronics, design, computer software or other areas.