Master of Science in Engineering vs. Master of Engineering Management
While a Master of Engineering Management program might focus heavily on business, a Master of Science in Engineering combines equal parts technical skills and advanced management strategy. The result is a transformational experience that’s molding a new generation of innovative, globally conscious bioengineering leaders.
Why a Master’s in Bioengineering?
Bioengineering (also referred to as biomedical engineering) graduate programs can be tremendous career investments. According to the U.S. Bureau of Labor Statistics (BLS), biomedical engineers earn a median annual salary of nearly $90,000, with a high-range salary of almost $140,000. They find employment in a diverse range of professional arenas, including hospitals, pharmaceutical and medical manufacturers and academic institutions. Projections indicate there will be nearly 20,000 new biomedical engineering jobs created between 2012 and 2022, a growth rate much higher than the national average for all occupations.
Bioengineering graduate programs can also pave the way for a career in medical science. The BLS reports that medical scientists can earn as much as $150,000, while projections call for almost 14,000 new jobs between 2012 and 2022. Continue reading for more details about some of the career opportunities for professionals with an advanced bioengineering degree.
Biomedical engineering graduate programs can lead to a number of different career paths. Here are some possibilities:
Use your bioengineering background to create safe and effective pharmaceuticals that can change lives for the better. Pharmaceutical engineers develop, create and test medications for the treatment of all sorts of viruses, diseases and injuries. Bioengineering graduate programs are designed to give you the advanced tools to thrive as a pharmaceutical engineering leader.
Promote population health through bioengineering and medical science. Medical scientists conduct clinical trials and other research and analysis to help prevent, treat and cure a multitude of medical issues. A master’s degree in bioengineering can provide you with the abilities to make advancements in human health through medical science.
Medical Device Engineer
Improve the quality of life for people across the world through the development of new medical devices and technology. Medical device engineers design and create artificial organs, prosthetic limbs and other breakthrough products that are expanding the scope of the industry as a whole. A master’s in biomedical engineering can deliver the skill set to help you become an innovator in the world of medical device engineering.
Who Should Choose a Bioengineering Master’s?
An M.S. in Engineering with a specialization in Bioengineering (also known as biomedical engineering) can help you increase your earning power and prepare you to assume leadership roles with confidence and competence. The UCR master’s in biomedical engineering is designed to provide management expertise and technical skills that can help you make fast, significant strides in your professional development.
Our program can be completed in as few as 13 months, and is administered in a convenient 100% online format so you can continue working while you earn your degree. Your employer may even be willing to cover some, if not all, of the program costs.
Whether you’re already employed as a biomedical engineer, or you’re looking to make a change in your career focus, our online bioengineering program can help you become a cross-functional leader who can manage teams across multiple disciplines. If you have relevant professional experience or an engineering bachelor’s degree, regardless of specialization, we invite you to learn more about the program.
This targeted master’s in biomedical engineering program features coursework that focuses on modern principles and practices in biomedical engineering, including:
||– Engineering Analysis of Physiological Systems
||– Cellular and Molecular Engineering
||– Integration of Computational and Experimental Biology
||– Biotransport Phenomena
Each specialization features the following professional series coursework to develop the business skills necessary for success in the marketplace.
||Engineering in the Global Environment
||Technology Innovation and Strategy for Engineers
||Introduction to Systems Engineering
||Principles of Engineering Management
Project Design Course
All students must complete a project course in an area of interest respective to their specialization of study. The project course spans the entire program from new student orientation to literature review and the final project presentation.
|ENGR 296 V
||Project Design Course A, B, C, D
*Curriculum subject to change.