Objectives and Outcomes

Program Objectives

Graduates of the BSEET program will be able to achieve the following career and professional accomplishments:

1. Demonstrate an awareness of contemporary social and economic issues, and the relationship of those issues to their professional electronics engineering practice.
2. Demonstrate the need to maintain their technical skills and develop new ones through personal development and life-long learning.
3. Capable of conveying technical information through their proficiency in written and spoken communication skills.
4. Demonstrate an appreciation and understanding for cultural and ethnic diversity in the workplace.
5. Demonstrate an understanding of professional and ethical responsibilities to their field and to society.
6. Able to acquire and maintain successful employment using their skills in applied electronics engineering technology.

Student Learning Outcomes

Upon completion of the BSEET program in Electronics Engineering Technology, graduates will be able to:

1. Apply principles of mathematics and science to perform technical calculations and solve electronic engineering technology problems.
2. Demonstrate the ability to identify, formulate, and present creative solutions to technical problems.
3. Perform competently in a laboratory setting.
4. Operate modern computational tools for problem solving, including scientific calculators, computers, and appropriate software.
5. Demonstrate the ability to communicate and function effectively with members of multi-disciplinary teams.
6. Demonstrate a general knowledge of professional ethical responsibility toward employers, customers, and society.
7. The graduate will recognize the need for obtaining additional education, training, or certification as a means of maintaining and improving the skills necessary for career advancement and personal fulfillment.
8. Demonstrate ability to building, operate, test, and maintain electrical/electronic systems while applying skills in circuit analysis and design, computer programming, analog and digital electronics, and microcomputers.
9. Apply principles of chemistry and physics along with advanced mathematics for electrical/electronic circuit design and analysis.
10. Demonstrate project management techniques on electronic engineering projects.
11. Apply principles of advanced mathematics to electrical/electronic systems.
12. Demonstrate knowledge of control and instrumentation systems, power systems, communication systems, or computer systems.
13. Demonstrate knowledge of the impact of engineering technology solutions in a societal context.
14. Apply written, oral, and graphical communication in the class work, and proper use of references.