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Masters 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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There are more than 100,000 vessels in the world’s fleet – designed, built, maintained and managed by naval architects and marine engineers. Read more

There are more than 100,000 vessels in the world’s fleet – designed, built, maintained and managed by naval architects and marine engineers. It’s a growing sector, and it’s growing here in BC. UBC is the only centre for naval architecture and marine engineering study on the Pacific Coast of North America. The university’s MEL in Naval Architecture & Marine Engineering is a unique graduate program that empowers you to develop the sector-relevant cross-disciplinary technical skills in demand by top employers.

The Master of Engineering Leadership (MEL) in Naval Architecture & Marine Engineering is an intensive one-year degree program intended for engineers three to five years or more into their careers. This program combines the engineering and physics of ship design with broad business and leadership training. Strong leadership and business skills are essential for career success. As we developed this program, our industry partners told us that they were looking for engineers who combined sector-specific technical skills with strong leadership skills. 60 per cent of your classes will focus on your technical specialization and will include a technical work experience placement in the summer. The remaining 40 per cent are leadership development courses that will enhance your business, communication and people skills. Delivery of the management and leadership courses are in partnership with UBC's Sauder School of Business.

For more recent engineering graduates, UBC also offers a more technical Master of Engineering degree in Naval Architecture and Marine Engineering.

What Makes The Program Unique?

The MEL in Naval Architecture & Marine Engineering degree was developed in close collaboration with industry partners, who told us they need to hire leaders with cross-functional technical and business skills to develop innovative solutions, manage teams and direct projects. The combination of technical expertise and leadership development makes the MEL in Naval Architecture & Marine Engineering program unique and highly relevant in today’s business environment. UBC’s Vancouver campus offers a strategic coastal setting and state-of-the-art research and learning facilities. Program faculty members also maintain vigorous links to the regional marine industry.

To complement your academic studies, professional development workshops, delivered by industry leaders, are offered throughout the year-long program. These extra-curricular sessions cover a range of topics such as:

-Leadership fundamentals

-Giving and receiving feedback

-Learning how to deliver a successful pitch

-Effective presenting

The workshops also provide opportunities to network with professionals from a wide range of industries, UBC faculty and students in the MEL and MHLP programs.

Career Options

Our graduates will be in high demand locally, nationally and internationally by employers seeking technical experts who can also manage and lead teams. Job opportunities include working as a ship surveyor, in a shipyard engineering position, as a design engineer and as a class society representative.

There is a growing need for talented engineers who can bridge the gap between technical staff and business leaders. Graduates of the MEL program will be highly sought after for their ability to bridge this divide and for their unique combination of leadership and technical sector-specific skills.



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Come join one of the world’s leading mining schools. Receive a Master of Engineering Degree from one of the world’s strongest mining departments, at a top ranked university and in one of the most beautiful and liveable cities in the world. Read more

MASTERS OF ENGINEERING

Come join one of the world’s leading mining schools.

Receive a Master of Engineering Degree from one of the world’s strongest mining departments, at a top ranked university and in one of the most beautiful and liveable cities in the world.

The purpose of a M.Eng. degree is to increase student’s skills and knowledge in a particular aspect of mining or mineral processing. This program has the same admission requirements as the MASc and offers the same courses but instead of a thesis, students are expected to take additional courses. Currently, M.Eng. degree students can specialize in four areas:
- Mining geotechnics,
- Mineral processing,
- Mine economics, or
- Mining sustainability and the environment.

Gain practical experience with an 4-8 month paid work term.

Take advantage of our institute’s strong sense of community and close industrial support.

The Master of Engineering in Mining Engineering (M.Eng.) is an intensive study program designed for professionals and engineering graduates eager to upgrade their skills in order to build a solid base for a career in the global mining industry. It includes at least 30 credits of course work with the option to complete a coop work term. The program takes up to 2 years to complete.

Quick Facts

- Degree: Master of Engineering
- Specialization: Mining Engineering
- Subject: Engineering
- Mode of delivery: On campus
- Program components: Coursework only
- Faculty: Faculty of Applied Science

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The Masters of Engineering (M.Eng.) program is suited to students who wish to pursue their electrical and computer engineering education beyond the undergraduate level but do not wish to pursue a thesis based research program. Read more
The Masters of Engineering (M.Eng.) program is suited to students who wish to pursue their electrical and computer engineering education beyond the undergraduate level but do not wish to pursue a thesis based research program. The program requires students to complete 30 credits of course work with the option of completing a supervised project.

The typical completion time for the M.Eng. is 12-16 months, if pursued on a full-time basis. M.Eng. degree candidates registered as full-time students are required to spend at least one winter session at the University. Candidates can also complete the M.Eng. on a part-time basis. In either case the program must be completed within 5 years of initial registration. Course selection must also be approved by their Graduate Supervisor.

A M.Eng. candidate may write an engineering report based on an appropriate engineering project in the candidate's chosen area of specialization, in lieu of 6 credits of course work. The subject of the report should be agreed upon between the candidate and the Graduate Supervisor.

The M.Eng. program is administered by the Faculty of Applied Science, rather than the Faculty of Graduate Studies. Financial aid is generally not available to M.Eng. students and tuition fees are higher than for the M.A.Sc.

Quick Facts

- Degree: Master of Engineering
- Specialization: Electrical and Computer Engineering
- Subject: Engineering
- Mode of delivery: On campus
- Program components: Coursework only
- Faculty: Faculty of Applied Science

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As we improve existing technologies and transition to more sustainable energy systems, clean energy technologies will become increasingly vital to the world's energy mix. Read more

As we improve existing technologies and transition to more sustainable energy systems, clean energy technologies will become increasingly vital to the world's energy mix. Industry and government are critically dependent on hiring talented technical leaders who can develop innovative and practical solutions. There is a growing need across multiple industries for technical experts in clean energy engineering. Our planet needs viable energy solutions to minimize environmental impacts, promote geopolitical stability and enable economic diversification. The Master of Engineering Leadership (MEL) Clean Energy Engineering is an intensive one-year degree program for engineers and environmental science graduates who want to make their sustainable vision a reality and advance their careers in the in-demand field of clean energy.

The project-based curriculum covers all stages of the industry value chain and exposes you to alternative energy systems including hydro, wind, solar, tidal, geothermal and other emerging technologies. You will work in world-class facilities, including the Clean Energy Research Centre. This interdisciplinary research centre brings together engineers and industry partners who collaborate to develop practical solutions that can reduce the environmental impact of energy use and seek sustainable solutions.

While 60 per cent of your classes will focus on your technical specialization, the remaining 40 per cent are leadership development courses that will enhance your business, communication and people skills. Delivery of the management and leadership courses are in partnership with UBC's Sauder School of Business.

What Makes The Program Unique?

The MEL in Clean Energy Engineering degree was developed in close collaboration with industry partners, who told us they need to hire leaders with cross-functional technical and business skills to develop innovative solutions, manage teams and direct projects. The combination of technical expertise and leadership development makes the MEL in Clean Energy Engineering program unique and highly relevant in today's business environment. The MEL in Clean Energy Engineering degree is a unique graduate program that empowers you to develop the sector-relevant cross-disciplinary technical skills required by top employers. As a graduate of this program, you will have the skills to take your career in clean energy to the next level; tackling complex engineering challenges in this in-demand field while confidently leading collaborative teams.

To complement your academic studies, professional development workshops, delivered by industry leaders, are offered throughout the year-long program. These extra-curricular sessions cover a range of topics such as:

-Leadership fundamentals

-Giving and receiving feedback

-Learning how to deliver a successful pitch

-Effective presenting

The workshops also provide opportunities to network with professionals from a wide range of industries, UBC faculty and students in the MEL and MHLP programs.

Career Options

Our graduates will be in high demand locally, nationally and internationally, with government and industry employers constantly seeking experts in the field who can develop new processes and systems. Typical job roles of CEEN students are Renewable Energy Consultant, Renewable Energy Engineer, Energy Analyst, Energy & Building Consultant, Energy Efficiency Engineer, Energy Management Engineer, Energy Manager, Project Engineer and Project Manager.



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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 Applied Science
- Specialization: Materials Engineering
- Subject: Engineering
- Mode of delivery: On campus
- Program components: Coursework + Thesis required
- Registration options: Full-time
- Faculty: Faculty of Applied Science

Research focus

Composites, Microstructure Engineering, Extractive Metallurgy, Solidification, Biomaterials & Ceramics

Research highlights

In our research, we work closely with industry partners internationally. We have faculty with world-renowned expertise in hydrometallurgy, sustainability, nanomaterials, biomaterials and ceramics. Recent research developments in the department are helping to reduce environmental impact in the mining industry and enabling new possibilities in medical treatments. We also have a leading role in MagNet, an initiative that aims to achieve significant reductions in carbon dioxide emissions in the transportation sector. We have a long history of providing excellence in education and offer one of the top-rated materials programs in North America. Graduates of our program are enjoying rewarding careers locally and internationally in a wide range of industries from mining to advanced electronics, health care and aerospace.

Related Study Areas

Biomaterials, Ceramics, Composites, Hydrometallurgy, Microstructure Engineering, Corrosion

Facilities

Research is carried out in both the Frank Forward Building and the Brimacombe Building (AMPEL) on UBC campus.

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The Master of Engineering (MEng) is a 16-month program aimed at students who wish to enhance their professional skills in biomedical engineering. Read more
The Master of Engineering (MEng) is a 16-month program aimed at students who wish to enhance their professional skills in biomedical engineering. Students engage in a combination of course work and internship or co-op work experience. The program emphasizes the clinical and industrial aspects of biomedical engineering and prepares students for careers in hospitals and private industry. Many students find employment as clinical engineers.

Quick Facts

- Degree: Master of Engineering
- Specialization: Biomedical Engineering
- Subject: Engineering
- Mode of delivery: On campus
- Program components: Coursework only
- Faculty: Faculty of Applied Science

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Backed by an unparalleled reputation for expertise and innovation in mineral extraction, mineral processing and environmental protection, the graduate program in Mining Engineering has two types of students in mind. Read more

MASTERS OF APPLIED SCIENCE

Backed by an unparalleled reputation for expertise and innovation in mineral extraction, mineral processing and environmental protection, the graduate program in Mining Engineering has two types of students in mind:

Those from industry who wish to improve their workplace skills; and

Those who wish to pursue research leading to advances in state-of-the-art or state-of-the-practice mining and mineral process engineering.

In order to best meet the needs of these two groups, the program encourages interaction between universities in North America and other countries. In many cases, this collaborative outlook leads to joint research projects and student exchanges.

Program Overview

The graduate program in Mining Engineering offers opportunity for study in the fields of mining and mineral processing, including mine environment and coal preparation. Areas of research interest are indicated below.
1. Mining. Mine economics and valuation, mine design, drilling and blasting methods, rock mechanics and slope stability, optimization and simulation of mining operations, advanced mining methods, mine services (particularly mine ventilation), and climatic control.
2. Mineral processing. Unit operations, comminution, process modeling and optimization, expert systems, instrumentation and computer control. Flotation, surface chemistry, fines recovery, coal recovery, treatment of fine and oxidized coal, and precious metals recovery.
3. Mining and Environment. Acid rock drainage, environmental protection, effluent control and treatment. Social and legal aspects of sustainable mining practices, small-scale mining in developing countries.

Quick Facts

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

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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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The Masters of Engineering (M.Eng.) program is suited to students who wish to pursue a graduate degree in a non-thesis based research program. Read more
The Masters of Engineering (M.Eng.) program is suited to students who wish to pursue a graduate degree in a non-thesis based research program.

Quick Facts

- Degree: Master of Engineering
- Specialization: Civil Engineering
- Subject: Engineering
- Mode of delivery: On campus
- Program components: Coursework only
- Faculty: Faculty of Applied Science

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The outstanding calibre of our graduate-level programs, combined with our highly motivated and internationally recognized faculty makes studying mechanical and manufacturing engineering a rewarding and valuable experience. Read more
The outstanding calibre of our graduate-level programs, combined with our highly motivated and internationally recognized faculty makes studying mechanical and manufacturing engineering a rewarding and valuable experience. As a graduate student in mechanical engineering you will have the opportunity to conduct innovative and cutting-edge research.

The high-quality research that is conducted in the Department of Mechanical and Manufacturing Engineering is internationally acknowledged through publications in high-impact journals, prestigious graduate scholarships and media attention. Graduates of the our programs go on to be future industrial and academic leaders.

Our department is home to 33 faculty members, 6 research chairs, 200 graduate students and 500 undergraduates.

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 the bachelor's degree.

Master of Engineering (course based)
The MEng program is most often taken on a part-time basis and usually takes four to six years of part-time study beyond a bachelor's degree. The MEng program does not provide financial support.

The MEng program is intended for domestic students. International students are admitted into the MSc program where they are eligible for funding.

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The Master of Applied Science (MASc) is a 2-year research-based program. The program trains students in the fundamentals of Biomedical Engineering and provides extended research experience. Read more
The Master of Applied Science (MASc) is a 2-year research-based program. The program trains students in the fundamentals of Biomedical Engineering and provides extended research experience. Graduates continue on to PhD programs as well as research and development positions in industry and other institutions.

Quick Facts

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

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Fields of research include. Read more

Program Overview

Fields of research include: acoustics; aerodynamics and fluid mechanics; automatic controls; robotics and industrial automation; energy conversion, combustion, thermodynamics and heat transfer; vibrations and space dynamics; solid mechanics; bioengineering and biomechanics; design and manufacturing processes; industrial engineering, fuel cells, micro-electromechanical systems, mechatronics, and CAD; and naval architecture. Applicants for graduate degrees may be considered for appointment as research assistants, teaching assistants, or markers in the Department. Courses are selected in consultation with faculty.

Quick Facts

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

Program Requirements

The Master of Applied Science (M.A.Sc.) is a graduate-level study program that includes a research investigation and the writing of a thesis. Requirements for the M.A.Sc. include satisfactory completion of 30 credits of graduate-level courses (up to 6 credits may be at the undergraduate level in courses numbered 300 to 499), original research under the supervision of a faculty member, and a thesis. The thesis is assigned 6 to 12 credits and is counted as part of the coursework requirement. A typical completion time for the M.A.Sc. is 24 months. Subject to satisfactory progress and acceptance by a faculty supervisor, a successful M.A.Sc. graduate may transfer to a course of studies leading to the Ph.D.

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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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