Master Program in Bioengineering in North America

Search Masters Programs in Bioengineering in North America 2018/2019

In order to successfully obtain a Masters qualification, you will need to obtain a number of credits by passing individual modules. Most taught Masters will have a number of core modules which you must take and pass in order to obtain the qualification. The assessment of research Masters is almost always entirely by a single dissertation module or project.

A student of bioengineering learns about the various principles of engineering as they relate to biology and biomedicine. Applications of bioengineering include engineered organs, bacteria designed to produce specific chemicals, and compact diagnostic devices.

The United States of America is a large country in Northern America, often known as the "USA", the "US", the "United States", "America", or simply "the States". It also gathers over 310 million people which is the world's third largest population. It includes densely populated cities with sprawling suburbs, and vast, uninhabited and naturally beautiful areas at the same time.

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Online Masters in Bioengineering

University of Maryland, A. James Clark School of Engineering
Online Full time Part time 1 - 5 years January 2019 USA College Park + 1 more

Students in our bioengineering degree programs will learn to integrate principles of engineering and biological systems to develop new technologies and devices that improve human health, fight disease, and aid persons with disabilities. Our biomedical engineering masters program is uniquley positioned to offer educational strengths in engineering, biology, and medicine. [+]

Requirements specific to the bioengineering program include:

A bachelor's degree, GPA of 3.0 or better, in engineering, biology, chemistry, physics, or another technical field from an accredited institution Successful completion of calculus I, II, and III, and differential equations At least one course in biology For non-engineering undergraduate degrees, we look for coursework indicating an aptitude for bioengineering. High marks in related undergraduate courses such as molecular biology and physical chemistry would indicate such aptitude. Applicants who do not have an adequate background in engineering science will be required to take ENPM672, Fundamentals of Thermal Systems, in their first semester. [-]

Master of Engineering in Chemical and Biological Engineering

University of British Columbia - Faculty of Applied Science
Campus Full time 12 - 16 months September 2019 Canada Vancouver

The Department has opened applications to its course based Master of Engineering (MEng) degree program. The Master of Engineering is a course-based program designed for engineers wishing to upgrade their training. During this 12-16 month program, students take a prescribed set of courses. [+]

The Department has opened applications to its course based Master of Engineering (MEng) degree program. The Master of Engineering is a course-based program designed for engineers wishing to upgrade their training. During this 12-16 month program, students take a prescribed set of courses.

Course Requirements

The MEng is not a research degree and is intended primarily for candidates who have work experience in addition to a bachelor's degree in Chemical and Biological Engineering. The degree requires 30 credits of advanced coursework, which are divided as follows:

12 credits of CHBE 500 level fundamental courses. Additional 6 credits of CHBE 500 level courses OR MEng report. The remaining 12 credits may be chosen from CHBE or non-CHBE (Engineering & Science) courses. For the non-CHBE courses, 6 credits at the 300 or 400 level will be permitted. CHBE courses include IWME, GBPR and CEEN courses. ... [-]

Master of Applied Science in Chemical and Biological Engineering

University of British Columbia - Faculty of Applied Science
Campus Full time September 2019 Canada Vancouver

Chemical and Chemical & Biological engineers create and develop processes to change raw materials into the products that society depends on; food, chemicals, fuels, energy, metals, pharmaceuticals, paper, plastics, and personal care products. Chemical and process engineers help to manage natural resources, protect the environment, control health and safety procedures and recycle materials while developing and managing the processes which make the products we use. [+]

Chemical and Chemical & Biological engineers create and develop processes to change raw materials into the products that society depends on; food, chemicals, fuels, energy, metals, pharmaceuticals, paper, plastics, and personal care products. Chemical and process engineers help to manage natural resources, protect the environment, control health and safety procedures and recycle materials while developing and managing the processes which make the products we use.

The Department of Chemical and Biological Engineering was established in 1999 at UBC and reflects the growing need for engineers in the fields of biotechnology, biomedical and bio-resource engineering. At present, there are 24 full-time faculty members in the Department of Chemical and Biological Engineering, together with a support staff of 17.... [-]