Master of Business Administration (MBA)
The University of Manitoba offers a prestigious Master of Business Administration (MBA)...
Bachelor of Science in Electrical Engineering
Winnipeg, Manitoba
INTAKE: September
Program Overview
The Bachelor of Science in Electrical Engineering program at the University of Manitoba is designed to provide students with a comprehensive education in the principles and practices of electrical engineering. This program prepares students for careers in a variety of industries, including telecommunications, power systems, electronics, and renewable energy. Through a combination of theoretical coursework, laboratory experiments, and hands-on projects, students develop the skills and knowledge necessary to design, analyze, and implement electrical systems and technologies.
Curriculum: The curriculum of the Bachelor of Science in Electrical Engineering program covers a wide range of topics relevant to the field of electrical engineering. Core courses include subjects such as circuit analysis, electromagnetic theory, digital signal processing, power systems, and control systems. In addition to core coursework, students have the opportunity to choose elective courses in specialized areas such as communications, power electronics, renewable energy, and robotics. The program emphasizes hands-on learning through laboratory experiments, design projects, and internships, allowing students to apply theoretical concepts to real-world engineering challenges.
Research Focus: The University of Manitoba is a leader in electrical engineering research, with faculty and students engaged in cutting-edge research projects across a wide range of areas. Research focus areas include but are not limited to, power systems optimization, renewable energy integration, wireless communications, biomedical electronics, and smart grid technologies. Faculty-led research initiatives tackle pressing engineering challenges, contributing to advancements in technology and innovation. Students have the opportunity to participate in research projects, gaining valuable research experience and working alongside faculty mentors to solve complex engineering problems.
Industry Engagement: The Bachelor of Science in Electrical Engineering program at the University of Manitoba maintains strong connections with industry partners through cooperative education placements, industry-sponsored projects, and professional development initiatives. Industry professionals are actively involved in curriculum development, serving on advisory boards and providing input on industry trends and practices. Students have the opportunity to gain practical experience through internships and co-op work terms with leading engineering firms, telecommunications companies, power utilities, and technology startups. These industry engagements ensure that students are well-prepared for careers in electrical engineering and have the opportunity to build professional networks within the industry.
Global Perspective: The University of Manitoba promotes a global perspective in electrical engineering education, offering opportunities for international collaboration, research partnerships, and study abroad experiences. Students have the chance to participate in exchange programs with partner universities around the world, gaining exposure to different cultures, research methodologies, and technological advancements. Faculty-led research projects address global challenges such as renewable energy deployment, sustainable development, and telecommunications infrastructure, contributing to the university's impact on a global scale. By engaging with diverse perspectives and global issues, students develop the skills and knowledge needed to thrive in today's interconnected world.
Location
Winnipeg, Manitoba
Score
IELTS 6.5
Tuition Fee
CAD 19830
Application Fees: CAD$ 120
Academic Requirements: Completion of secondary school education with a minimum average of 85%. Please note that specific programs may have additional requirements or higher admission standards.
English Language Proficiency:
- IELTS: A minimum overall score of 6.5, with no band score less than 6.
- TOEFL: A minimum score of 86 on the internet-based test (iBT).
- PTE Academic: A minimum score of 58.
- DET (Duolingo English Test): A minimum score of 120.
The University of Manitoba offers a variety of scholarships and financial aid options to support international students in their academic pursuits. These scholarships recognize academic excellence, leadership potential, and financial need.
International Student Entrance Scholarships: These scholarships are available to international students entering undergraduate programs.The scholarships are awarded based on academic achievement, with different scholarship levels based on GPA.The value of the scholarships ranges from $1,000 to $40,000.
International Graduate Student Entrance Scholarships: These scholarships are available to international students applying for graduate programs.The scholarships are awarded based on academic achievement and potential.The value of the scholarships ranges from $5,000 to $17,500.
Faculty-Specific Scholarships: Various faculties within the university offer scholarships specific to their programs of study. These scholarships are available to both undergraduate and graduate international students.The eligibility criteria and values of these scholarships vary depending on the faculty.
External Scholarships: The University of Manitoba encourages international students to explore external scholarship opportunities.There are several external scholarship programs available for international students to fund their studies at the university.The university provides guidance and support in identifying and applying for these external scholarships.
It is important to note that the eligibility criteria, application processes, and deadlines for scholarships may vary.
Graduates of the Bachelor of Science in Electrical Engineering program at the University of Manitoba have a wide range of career opportunities available to them in various industries. With a solid foundation in electrical engineering principles and practical skills acquired through coursework and hands-on projects, graduates are well-prepared to pursue fulfilling careers.
Power Systems Engineer: Power systems engineers work in the energy sector, designing, operating, and maintaining electrical power generation, transmission, and distribution systems. They may work for utility companies, renewable energy firms, or consulting firms, where they design and optimize power grids, analyze energy consumption patterns, and develop solutions for improving the efficiency and reliability of electrical power systems.
Electronics Engineer: Electronics engineers design and develop electronic components, devices, and systems for a wide range of applications. They work in industries such as telecommunications, consumer electronics, automotive, and aerospace, designing circuits, testing prototypes, and troubleshooting electronic systems. Electronics engineers may work for electronics manufacturers, research laboratories, or engineering firms, developing innovative solutions for improving communication, automation, and connectivity.
Control Systems Engineer: Control systems engineers design and implement control systems for regulating and automating processes in industries such as manufacturing, transportation, and robotics. They work on designing control algorithms, programming PLCs (Programmable Logic Controllers), and integrating sensors and actuators into control systems. Control systems engineers may work for manufacturing companies, automation firms, or research institutions, developing control solutions for improving productivity, safety, and efficiency.
Renewable Energy Engineer: Renewable energy engineers work on developing and implementing renewable energy technologies such as solar power, wind power, and hydroelectric power. They design and optimize renewable energy systems, conduct feasibility studies, and oversee the installation and operation of renewable energy projects. Renewable energy engineers may work for renewable energy companies, government agencies, or environmental consulting firms, contributing to the transition to a sustainable energy future.
Telecommunications Engineer: Telecommunications engineers design, implement, and manage telecommunications networks and systems, including telephone networks, broadband internet, and wireless communication systems. They work on designing network architectures, optimizing network performance, and ensuring network security and reliability. Telecommunications engineers may work for telecommunications companies, internet service providers, or technology firms, developing and maintaining communication infrastructure for global connectivity.
Biomedical Engineer: Biomedical engineers apply engineering principles and techniques to the field of healthcare, designing and developing medical devices, equipment, and systems. They work on projects such as medical imaging devices, prosthetics, and biomedical sensors, with the goal of improving patient care and outcomes. Biomedical engineers may work for medical device companies, hospitals, or research institutions, collaborating with healthcare professionals to develop innovative solutions for diagnosing, treating, and monitoring medical conditions.
Research and Development Engineer: Research and development engineers work on advancing technology and innovation through research, experimentation, and product development. They may work in industries such as electronics, energy, healthcare, and telecommunications, conducting research to develop new technologies, improve existing products, or solve engineering challenges. Research and development engineers may work for technology companies, research laboratories, or government agencies, contributing to the advancement of science and technology.
