PROGRM OUTCOMES

General

• Apply knowledge of mathematics, science and engineering concepts to the solution of engineering problems.
• Design and conduct experiments as well as analyze and interpret data.
• Design a system; component and process to meet the required needs within realistic constraints.
• Work effectively within multi-disciplinary teams.
• Identify, formulate and solve fundamental engineering problems.
• Display professional and ethical responsibilities; and contextual Understanding
• Communicate effectively.
• Consider the impacts of engineering solutions on society & environment.
• Engage in self- and life- long learning.
• Demonstrate knowledge of contemporary engineering issues.
• Use the techniques, skills, and appropriate engineering tools, necessary for engineering practice and project management.

Specialization outcomes (Industrial and Manufacturing)

• Knowledge of the fundamental science and engineering principles relevant to materials design, development and engineering application.
• Understand the relationship between nano/microstructure, characterization, properties and processing and design of materials.
• Develop students' knowledge of modern materials science and engineering and related new emerging technologies.
• Develop students' communication skills and ability to work collaboratively in the field of materials science and engineering.
• Access to exceptional state-of-the-art laboratories that enables the development of advanced expertise in materials processing and characterization.
• Ability to modeling and solving problems in materials design, processing, characterization and structural analysis.
• Enhance students' practical skills in materials selection, failure analysis and maintenance.
• Explain& present concepts of projects management including planning, scheduling, cost estimates, finance, bidding and contracts.
• Analyze and solve the problems presented by industrial entities.
• Create effective and novel solutions to practical problems.
• Apply the acquired skills in a commercial or industrial environment.
• Use the appreciate ICT tools in a variety of materials engineering aspects.
• Prepare students for careers in industry and for further study in graduate school.