A UM undergraduate engineering graduate will be prepared to generate value for society through a lifetime of technical and professional creativity. Our graduates will display reasoning skills and proficiency in problem definition, problem solving and quantitative expertise, a respect for measurement and data, and the wisdom of experience. Our graduates will use these skills to achieve the following objectives within a few years of graduation:
- Contribute to technical engineering practice
- Pursue graduate education in engineering or science, either following a path towards a professional masters degree and practice, or a doctoral degree
- Pursue careers in law, medicine, education, or other fields, bringing engineering problem solving skills -- honed through practice in problem definition and quantitative problem solving -- to bear in those disciplines
Michigan Engineers will excel in all of these areas of endeavor. They will also be prepared to become successful leaders, managers, entrepreneurs, and humanitarians.
Our graduates must understand that solutions, especially for society's most critical needs, are not just technical in scope but depend on many disciplines working together, and that as engineers their core contribution will include bringing data-driven, quantitative problem solving skills to the table. We also understand that our students have many varied aspirations, and that our primary duty is to provide them with a foundational education that they can carry forward into any of the career paths they may follow over the decades of their careers.
To prepare our students for the careers of the 21st century, whether they continue in engineering or pursue other paths after graduation, our undergraduate programs support our students in developing:
An understanding of the fundamental knowledge in a discipline
An ability to recognize and define a problem, and the vision to see a solution
An ability to identify, understand, and solve ill-defined problems even in the face of uncertainty and imperfect information
Strong quantitative and qualitative problem solving skills
A mindset and skills that support continued learning both during and long after their CoE career
Personal attributes of success including:
high personal expectations
the ability to work in teams
the ability to plan a project and carry it out
the ability to gather resources and overcome barriers to success
the ability to manage risk
the ability to communicate professionally
An understanding of the human, social, and environmental dimensions of engineering practice
A drive and capability to make a difference by bringing their solutions into production
Many of the College's undergraduate degree programs are accredited by ABET. Each such program has statements of educational objectives and outcomes that are based on the College's mission and on the needs of its constituents. Those constituents include our alumni, students, employers of our students, and the graduate schools at which many of our students later study.
Graduates of the College's undergraduate programs will be able to:
- Apply their knowledge of mathematics, science, and engineering within their chosen field. (a)
- Recognize and define engineering problems and develop practical solutions using the techniques and skills of modern engineering practice. (e,k)
- Design products and processes applicable to their chosen field. (c)
- Design, conduct, and interpret the results of engineering experiments. (b)
- Work effectively in diverse teams and provide leadership to teams and organizations. (d)
- Communicate effectively using oral, graphic, and written forms. (g)
- Understand the impact of engineering decisions in global, social, economic, and environmental context. (h)
- Understand professional and ethical responsibility and apply ethical reasoning to the work. (f).
- Engage in life-long learning and recognize the importance of doing so. (i)
- A broad education necessary to contribute effectively beyond their professional careers.
- Understand and make a contribution to society. (j)
(letters) are references to ABET EAC outcomes a--k.
In this edition of the College of Engineering Bulletin, our traditional "Sample Schedule for Required Programs" has been updated to reflect the current undergraduate engineering curriculum and curricular plans in each department and program. It is important to note that the curriculum revision process is an ongoing one; therefore, the program requirements and specific course requirements, especially upper-division courses, listed here should be viewed as works-in-progress.
Important Note: Each department's Program Advising Office and Web site information has been provided for your assistance in determining specific program changes.