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Academic Minor

 

WHAT IS AN ACADEMIC MINOR?

An academic minor does not require extensive course credit hours, yet opens new opportunities for an engineering student. At University of Cincinnati, the minimum requirement is 18 credit hours of which a significant fraction can be satisfied within the major program curriculum.  Therefore a student may need only three courses outside the major program.  As a result the student acquires substantial knowledge in a distinct, but related field. A minor broadens one’s knowledge base and enhances career opportunities.  For instance, a mechanical or chemical engineering student may decide on a Materials Minor. The student will learn important concepts that are shaping emerging technology, including polymers, metallurgy, composites, and nanotechnology.  Skills in these areas are needed throughout industry where students with knowledge in materials are highly preferred by employers.
 

WHAT IS THE DEFINITION OF AN UNDERGRADUATE CERTIFICATE?
 

Certificates are intended to validate competency or knowledge of a skill or topic. They are generally not available in programs where majors are available and are intended for matriculated and non-matriculated students, with the exception as serving as a mechanism for student to earn “post-baccalaureate” minors. Although these certificates do not correspond to baccalaureate majors offered at UC, the included coursework should be at a level comparable to a minor. Undergraduate Certificates are tracked via degree progress audits (DPAs) and are transcripted.

 

 
HOW DO I CHOOSE A MINOR?

In contemporary industry, professionals work in an interdisciplinary environment that requires knowledge and experience in both technical communication and teamwork.  Studying outside one’s major enhances such skills. A materials minor, for example, enables a mechanical or aerospace student to understand issues that are involved in the design of an engine or an aerodynamic system, such as material fatigue microstructure aspects of metals that lead to fatigue. Similarly a chemical engineer learns the concepts that underlie thin-film sensing devices via understanding of the material interfaces.
 
Nanotechnology is one of the key engines that is driving twenty-first century innovation. This rapidly growing discipline impacts biomedical tools for diagnosis and therapeutics, new energy devices, and energy grid systems.  Nanotechnology research, for example, has produced such materials as imaging agents for early cancer diagnosis, nano composites for super capacitors, advanced electrochemical energy storage devices, novel pulsed power capacitors for reducing the rate and rapid cycling demand on batteries for electric vehicles, and flexible low-loss thin films for solar energy cells. All these developments are based on concepts that were unknown 15 years ago. Thus, nanomaterials expertise is emerging as an essential skill across many technologies.
 
MINORS THAT ARE AVAILABLE
 
 
HOW TO APPLY

To apply for the minor program, one must fill out the Enrollment Form with the chosen courses and have it approved by the minor program director. Upon completion of all required minor courses, the minor director and associate Dean will sign this form which will be recorded on the student’s transcript. The student receives an official certificate of completion of the minor.
 

Download - Materials Minor in Engineering Form PDF

Download - Nano Engineering Minor Form PDF

 

University Academic Minor Page