Bachelor of Science (BS)
The joint major programs are designed for students who wish to undertake study in two areas of engineering in order to qualify for employment in either field or for positions in which competence in two fields is required. These curricula include the core courses in each of the major fields. While they require slightly increased course loads, they can be completed in four years. Both majors are shown on the student's transcript of record.
For students interested in materials and devices, a joint major in electrical engineering and computer sciences (EECS)/materials science and engineering (MSE) can be valuable. The program combines the study of materials from a broad perspective, as taught in MSE, with the study of their applications in electronic devices and circuits, as taught in EECS.
Admission to the Joint Major
Admission directly to a joint major is closed to freshmen and junior transfer applicants. Students interested in a joint program may apply to change majors during specific times in their academic progress. Please see the College of Engineering joint majors website for complete details.
Visit Program Website
Electrical Engineering and Computer Sciences
MISSION
- Preparing graduates to pursue postgraduate education in electrical engineering, computer science, or related fields.
- Preparing graduates for success in technical careers related to electrical and computer engineering, or computer science and engineering.
- Preparing graduates to become leaders in fields related to electrical and computer engineering or computer science and engineering.
LEARNING GOALS
- An ability to apply knowledge of mathematics, science, and engineering.
- An ability to configure, apply test conditions, and evaluate outcomes of experimental systems.
- An ability to design systems, components, or processes that conform to given specifications and cost constraints.
- An ability to work cooperatively, respectfully, creatively, and responsibly as a member of a team.
- An ability to identify, formulate, and solve engineering problems.
- An understanding of the norms of expected behavior in engineering practice and their underlying ethical foundations.
- An ability to communicate effectively by oral, written, and graphical means.
- An awareness of global and societal concerns and their importance in developing engineering solutions.
- An ability to independently acquire and apply required information, and an appreciation of the associated process of life-long learning.
- A knowledge of contemporary issues.
- An in-depth ability to use a combination of software, instrumentation, and experimental techniques practiced in circuits, physical electronics, communication, networks and systems, hardware, programming, and computer science theory.
Materials Science
Measured Curricular Outcomes
The program is designed around a set of curricular outcomes.
- Be able to apply general math, science and engineering skills to the solution of engineering problems.
- Be aware of the social, safety and environmental consequences of their work, and be able to engage in public debate regarding these issues.
- Be able to apply core concepts in materials science to solve engineering problems.
- Be knowledgeable of contemporary issues relevant to materials science and engineering.
- Be able to select materials for design and construction.
- Understand the importance of life-long learning.
- Be able to design and conduct experiments, and to analyze data.
- Understand the professional and ethical responsibilities of a materials scientist and engineer.
- Be able to work both independently and as part of a team.
- Be able to communicate effectively while speaking, employing graphics, and writing.
- Possess the skills and techniques necessary for modern materials engineering practice.
Educational Objectives for Graduates
Stated succinctly, graduates from the program will have the following skills:
- Know the fundamental science and engineering principles relevant to materials.
- Understand the relationship between nano/microstructure, characterization, properties and processing, and design of materials.
- Have the experimental and computational skills for a professional career or graduate study in materials.
- Possess a knowledge of the significance of research, the value of continued learning, and environmental/social issues surrounding materials.
- Be able to communicate effectively, to work in teams and to assume positions as leaders.
Universities In Australia 
Universities In Canada 
Universities In Germany 
Universities In Ireland 
Universities In Jordan 
Universities In New Zealand 
Universities In Saudi Arabia 
Universities In United Kingdom 
Universities In United States Of America 
