Biomedical Engineering (MSc) - Thesis-based program

Full Time / Part-time

Biomedical Engineering (MSc) - Thesis-based program

University of Calgary
  • $ See Details
    1st year fees
  • Unkown
    CREDITS
  • Campus
    BASED
  • Masters
    DEGREE
  • 2 years
    DURATION

Introduction

Biomedical Engineering (MSc) - Thesis-based program is a 2 years Masters program taught at University of Calgary, . The program is offered in campus-based modes with full Time and part-time options. To successfully obtain Biomedical Engineering (MSc) - Thesis-based program from University of Calgary you are required to complete credit hours. After completion of Biomedical Engineering (MSc) - Thesis-based program you will be able to further continue for advance studies or start career as Biomedical Engineer, Biomedical Researcher.

Admission Requirements

The minimum requirements for admission in Biomedical Engineering (MSc) - Thesis-based program at University of Calgary for all applicants (Domestic or International) are:

  • program specific academic requirment set by University of Calgary.
  • English Language OR any other language requirments as set by University of Calgary as pre-requiste for admission in Biomedical Engineering (MSc) - Thesis-based program.

Note: Please check the university website in the link below.

Courses Units

You need to complete credit hours to successfully obtain this degree. Please check detail of study units at https://grad.ucalgary.ca/future-students/explore-programs/biomedical-engineering-msc-thesis

More Information

The Biomedical Engineering Graduate Program MSc degree offers a focus on cutting-edge research that prepares graduates for work in industry, academia or government. Areas of application range from prevention and healthy aging to improved diagnostics, as well as technologies for better therapeutics. The degree is part of an interdisciplinary program aimed at students with backgrounds in areas such as engineering, kinesiology, physical sciences, medicine, or life sciences. Students gain hands-on experience at various active university and hospital-based research centres. Areas of study include biomechanics, medical imaging, cell and tissue engineering, as well as biomedical instrumentation.

Completing this program

  • BME Foundations Course: Students will study core concepts in biomedical engineering, selecting between a biology or engineering focus.
  • Additional Courses: May be chosen from across a wide range of faculties, in areas related to the student’s research topic, which may include medical imaging, biomechanics, cellular and molecular engineering, statistics, bioelectrical engineering, among others.
  • Thesis: Students are required to complete a research project and to submit a written thesis.
  • BME Core I and II Courses: May include biomedical engineering research, ethics, careers paths, research skills, methodology or other areas.
  • Medical Imaging Specialization: Requires three courses in Medical Imaging in addition to core program requirements.

Career Opportunities

You can join one of the following careers:

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