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Full Time MSc Degrees in Engineering, Canada

We have 16 Full Time MSc Degrees in Engineering, Canada

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Students in the Biomedical Engineering (BME) Graduate Program are interested in cutting-edge, multidisciplinary biomedical research. Read more
Students in the Biomedical Engineering (BME) Graduate Program are interested in cutting-edge, multidisciplinary biomedical research. The BME Graduate Program enables graduate students to undertake MEng (Thesis), MSc, or PhD programs that intersect the fields of engineering, kinesiology, medicine, science and veterinary medicine.

The BME Graduate Program is jointly coordinated by the Schulich School of Engineering, Cumming School of Medicine and Faculty of Kinesiology, with additional participating faculty members from the Faculties of Science and Veterinary Medicine. The BME Graduate Program supports the University of Calgary’s Engineering Solutions for Health: Biomedical Engineering Research Strategy. By coordinating and consolidating complementary research and teaching programs across the University of Calgary and linking with health care facilities, the BME Graduate Program forms an integral part of a Canadian centre of excellence in BME graduate education and research.

The unique, multi-disciplinary, design of this program means our trainees have access to cutting edge research laboratories and equipment.

The BME Graduate Program was approved by The University of Calgary Board of Governors in 1997. It was initially funded by a three-year Whitaker Foundation Special Opportunity Award, part of a joint proposal with the University of Alberta. Provincially based activities continue to this day and are highlighted by the now University of Calgary-led Alberta BME Conference. This annual meeting now includes participation from the University of Lethbridge, as well as other western Canadian BME programs. The meeting attracts over 160 individuals and has been held every year since 2000 in Banff, Alberta.

While the BME Graduate Program is an established program supporting a diverse research community, it continues to evolve in response to new opportunities and changing needs of students and the biomedical community in Alberta. It is a key component of The University of Calgary’s Eyes High vision and supports both the university’s academic and research plans, particularly the strategic research theme of Engineering Healthcare Solutions.

Areas of Biomedical Engineering

-Bioelectricity
-Biomechanics
-Cell and tissue engineering (or biomaterials)
-Imaging
-Bioinstrumentation
-Clinical engineering
-Rehabilitation engineering

The University of Calgary is recognized as a leader in the first four areas, and is actively growing expertise in bioinstrumentation. Bioelectricity, biomechanics, cell and tissue engineering (biomaterials) and imaging represent the current four themes of the BME Graduate Program.

BME research at the University of Calgary is carried out in numerous locations throughout engineering, kinesiology, medicine, science, and veterinary medicine. BME active university and hospital-based research centers and institutes include, the Alberta Children’s Hospital Research Institute, the Hotchkiss Brain Institute, the Libin Cardiovascular Institute of Alberta, the McCaig Institute for Bone and Joint Health, the Calgary Centre for Innovative Technology, the Experimental Imaging Centre, the Human Performance Laboratory, the Pharmaceutical Production Research Facility, the Seaman Family MR Research Centre, and the Sports Medicine Centre.

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As a graduate student in the Department of Chemical and Petroleum Engineering, you'll have the opportunity to make a difference in the world by being part of an active research community that conducts valuable research on practical problems. Read more
As a graduate student in the Department of Chemical and Petroleum Engineering, you'll have the opportunity to make a difference in the world by being part of an active research community that conducts valuable research on practical problems.

Our department attracts over $15 million each year in research funding and is internationally recognized for its research in biomedical engineering, chemical processing, energy, environment, and advanced materials.

The Schulich School of Engineering is located in Calgary, the energy capital of Canada, which gives us a strong connection to the oil and gas industry. Our professors understand the needs and challenges of the industry and can prepare students for successful careers in this growing and evolving sector.

What degree programs are offered?

Master of Science
The MSc is a research-based degree that usually takes two years of full-time study beyond a bachelor's degree.

Master of Engineering (course based)
This MEng program can be taken on either a full time or part time basis. However, it is normally expected that those enrolled in the Petroleum Specialization will complete all of their course requirements in two terms of full time study. Part time students typically require four to six years of study beyond a bachelor's degree in order to complete their course requirements.

Master of Engineering (thesis based)
This MEng program is a thesis-based degree that usually takes two years of full-time study beyond a bachelor’s degree. Note: the MEng thesis based program is temporarily suspended. This program is only offered in exceptional cases.

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As a graduate student in the Department of Electrical and Computer Engineering, you’ll be part of a vibrant community of researchers who are focused on finding practical solutions to real-world problems. Read more
As a graduate student in the Department of Electrical and Computer Engineering, you’ll be part of a vibrant community of researchers who are focused on finding practical solutions to real-world problems.

Our department is known internationally for its leadership in biomedical engineering, radio systems, software engineering, micro- and nano-scale systems, power energy and control systems research. We have 40 full-time faculty members, 7 research chairs, nearly 200 graduate students and over 450 undergraduate students.

What degree programs are offered?

Master of Science
The MSc is a research-based degree that usually takes two years of full-time study beyond a bachelor's degree.

Master of Engineering (course based)
This MEng program is often taken on a part-time basis and usually takes four to six years of part-time study beyond a bachelor's degree.

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As a graduate student in the Department of Civil Engineering, you'll have an opportunity to collaborate with some of the most creative and innovative researchers in the country. Read more
As a graduate student in the Department of Civil Engineering, you'll have an opportunity to collaborate with some of the most creative and innovative researchers in the country. We offer graduate degrees at the master's and doctoral levels with specializations in a wide range of exciting fields of study.

What degree programs are offered?

Master of Science
The MSc is a research-based degree that usually takes two years of full-time study beyond a bachelor's degree.

Master of Engineering (course based)
The MEng program is offered on a full or part-time basis. Full time can be completed in as little as one year.

Master of Engineering (thesis/project)
This MEng program is often taken on a part-time basis and may be completed by course and thesis/project.

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Geomatics engineering is a varied and exciting technology discipline that leads to careers with a great indoor/outdoor balance. It requires a combination of design, computer, and measurement skills with field work, lab experiments, and computer modeling to solve a variety of problems that have a common attribute. Read more
Geomatics engineering is a varied and exciting technology discipline that leads to careers with a great indoor/outdoor balance. It requires a combination of design, computer, and measurement skills with field work, lab experiments, and computer modeling to solve a variety of problems that have a common attribute: spatial location.

The profession is in growing demand both in Canada and internationally with available careers in both the private and public sectors. In the private sector, geomatics engineers work in small to medium enterprises or large multinational corporations with global opportunities such as Google, Microsoft, Apple, Trimble, Shell, Encana, ESRI, NASA, Altalink and others. In the public sector, geomatics engineers are in demand in government agencies (e.g., Natural Resources Canada), colleges and universities.

The goal of the Department of Geomatics Engineering is to provide students with a high-quality education guided by innovative research and practical applications. Departmental strengths include: international recognition of degree program excellence, strong linkages with industry and government agencies, and an undergraduate internship program.

A graduate program in geomatics engineering is a multi-dimensional learning experience which requires motivation and initiative, in addition to adequate academic preparation and intellectual capability. Advanced course work is only part of the experience. Interaction with professors and fellow students, exposure to research methodologies, design procedures, and resources are other indispensable components. Most important, especially at the PhD level, is the ability to think creatively when formulating and solving problems

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The Department of Materials Engineering offers opportunities for study in the following fields. Read more

Program Overview

The Department of Materials Engineering offers opportunities for study in the following fields: casting and solidification of metals; ceramic processing and properties; refractories; corrosion; composites; high temperature coatings; biomaterials; extractive metallurgy including hydrometallurgy, bio-hydrometallurgy, electrometallurgy, and pyrometallurgy; physical metallurgy; thermo-mechanical processing related to materials production; environmental issues related to materials productions; electronic materials; nanofibers; textile structural composites.

Materials Engineers are experts on the entire life cycle of materials, including recovery of materials from minerals, making engineered materials, manufacturing materials into products, understanding and evaluating materials performance, proper disposal and recycling of materials, and evaluating societal and economic benefits.

Quick Facts

- Degree: Master of Science
- Specialization: Materials Engineering
- Subject: Engineering
- Mode of delivery: On campus
- Program components: Coursework + Thesis required
- Faculty: Faculty of Applied Science

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Please see http://www.chbe.ubc.ca/academics/graduate/. - Degree. Master of Science. - Specialization. Chemical and Biological Engineering. Read more
Please see http://www.chbe.ubc.ca/academics/graduate/

Quick Facts

- Degree: Master of Science
- Specialization: Chemical and Biological Engineering
- Subject: Engineering
- Mode of delivery: On campus
- Program components: Coursework + Thesis required
- Faculty: Faculty of Applied Science

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The University of Calgary’s Master of Science in Sustainable Energy Development (SEDV) is an interdisciplinary graduate program providing a balanced education related to energy and environmental management. Read more
The University of Calgary’s Master of Science in Sustainable Energy Development (SEDV) is an interdisciplinary graduate program providing a balanced education related to energy and environmental management. A combined offering through the Haskayne School of Business, Schulich School of Engineering and the Faculties of Law and Environmental Design, SEDV is an unprecedented program designed for professionals and students who are seeking a broad-based and comprehensive education in sustainable energy.

SEDV curriculum is delivered by recognized experts, leading academics and professionals from the associated faculties. This highly qualified group works together to ensure the courses are relevant and speak to current themes seen in today’s energy sector; it is this interdisciplinary blend that provides a unique experience for our graduate students.

Upon completion, graduates leave equipped to effectively manage sustainable energy projects and operations, while minimizing impact on the environment and maximizing the socio-economic benefits to society. SEDV alumni can be found in a variety of roles within oil and gas, renewable energy, government and non-government organizations, policy-making bodies, environmental consultation, etc. As more companies move toward sustainable energy practices, your possibilities are endless!

Regardless of your background - be it design, business or law, economics, biology, or engineering - if you want to drive the future of sustainable energy development, you belong here.

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