Engineering Science Degree, Bioengineering Area of Concentration
Bioengineering is a rapidly growing and developing profession. A bioengineer or biomedical engineer uses traditional engineering expertise to analyze and solve problems in biology and medicine, providing an overall enhancement of health care.
Students choose the biomedical engineering field so that they may help develop devices that enable us to live more healthful and productive lives. These devices include pacemakers, orthopedic implants, and diagnostic instruments. Bioengineers/biomedical engineers work with other health care professionals including physicians, nurses, therapists, and technicians. They also contribute to basic biological understanding, leading to new ways of preventing, diagnosing, and treating disease and helping to solve complex clinical problems. Some examples of current research and development areas are formulation of synthetic biomaterials, the design of artificial tissues and organs, and the development of new drug delivery systems.
Program Outcomes
Upon completion of this program a student will be able to:
- Identify, formulate, and solve basic physics-based, biology problems in biomechanics and biochemistry.
- Demonstrate conceptual understanding of the connections between engineering and life sciences in the context of bioengineering applications.
- Use appropriate computer application software in bioengineering.
Program Advising
Meet with your academic advisor regularly to discuss your academic plans and make sure you are on track to graduate and/or transfer. The program advising guide outlines the degree requirements and is meant to supplement the advising process.
Transfer Opportunities
This track will prepare students to transfer to a four-year university with a major in bioengineering.See all engineering transfer agreements.
Careers
For some positions listed, a bachelor's degree or higher may be required. Use theCareer and Program Explorerto see a full report for this career field. See links below chart for further guidance and/or connect with a Program Advisor to discuss career goals.
Careers possibilities include biochemical engineer, architectural and engineering manager, bioinformatics scientist, biologist, biological technician, industrial engineer, and microbiologist.
- MC Student Employment Services: Speak with the Student Employment Specialist for help with resume writing, interviewing, setting up aCollege Central Network (CCN)new windowaccount and other job search topics.
- Career Coach: Explore Career Coach to learn more about this career and/or discover related majors and in-demand careers based on your current interests! Take a Career Assessment and then browse careers and job opportunities in the area.
Curriculum
A suggested course sequence for students follows.
- All students should review the advising guide andconsult an advisor.
- Find out about related programs and course in theFields of Studysection.
- Most courses have either assessment levels that must be met or prerequisites (courses that must be taken first). Part-time students and those who need to meet assessment levels or take prerequisite courses will take longer to complete a degree. An advisor will help make sure you are taking your courses in the right order.
- All degree-seeking students must take a central group ofGeneral Educationcourses in English, mathematics, arts, behavioral and social sciences, humanities, and science. These courses are included in the suggested course sequence below.
Suggested Course Sequence
A suggested course sequence for full-time students follows. All students should review theProgram Advising Guideandconsult an advisor.
First Semester
- ENGL 102 - Critical Reading, Writing, and Research3 semester hours(ENGF)
- MATH 181 - Calculus I4 semester hours(MATF)
- CHEM 132 - Principles of Chemistry II4 semester hours
- ENES 100 - Introduction to Engineering Design3 semester hours(NSND/GEEL)
Second Semester
- ENES 102 - Statics3 semester hours
- ENES 120 - Biology for Engineers3 semester hours
- MATH 182 - Calculus II4 semester hours
- PHYS 161 - General Physics I: Mechanics and Heat3 semester hours(NSND)
- Behavioral and Social Sciences Distribution3 semester hours(BSSD) **
Third Semester
- CHEM 203 - Organic Chemistry I5 semester hours
- ENES 240 - Scientific and Engineering Computation3 semester hours
- MATH 280 - Multivariable Calculus4 semester hours
- PHYS 262 - General Physics II: Electricity and Magnetism4 semester hours(NSLD)
- Arts Distribution3 semester hours (ARTD)
Fourth Semester
- ENES 232 - Thermodynamics3 semester hours
- MATH 282 - Differential Equations3 semester hours
- Behavioral and Social Sciences Distribution3 semester hours (BSSD)**
- Humanities Distribution3 semester hours (HUMD)
** Behavioral and social sciences distribution (BSSD) courses must come from different disciplines.
Related Programs and Courses
General Studies Degree
Students who major ingeneral studiesexplore personal, professional, and academic areas of interest within a flexible framework supporting transfer.
Workforce Development and Continuing Education
MC offers a wide variety ofnoncredit classes. These courses are designed to help you upgrade your skills, pursue career training, or learn something new.