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Bachelors of Electrical Engineering - (year 1 & 2 at CBU and year 3 & 4 at Dalhousie University)
Sydney, Nova Scotia
INTAKE: Jan, May & Sept
Program Overview
The Bachelor of Electrical Engineering program, offered jointly by Cape Breton University (CBU) and Dalhousie University, provides students with a comprehensive education in electrical engineering. This unique program allows students to complete their first two years of study at CBU before transferring to Dalhousie University for the final two years. The Bachelor of Electrical Engineering program offered jointly by Cape Breton University and Dalhousie University provides students with a rigorous and comprehensive education in electrical engineering. Through a combination of theoretical learning, practical experience, and hands-on projects, graduates are well-equipped to pursue successful careers in various sectors, including power generation, telecommunications, electronics, automation, and renewable energy.
Curriculum:
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Foundational Courses: During the first two years of the program at Cape Breton University, students take foundational courses in mathematics, physics, chemistry, and engineering fundamentals. These courses provide students with a solid grounding in the basic principles and concepts of electrical engineering.
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Core Electrical Engineering Courses: In the first two years at CBU, students also begin to delve into core electrical engineering courses, covering topics such as circuit analysis, digital electronics, signals and systems, and electromagnetic theory. These courses introduce students to the fundamental principles and methodologies used in electrical engineering practice.
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Laboratory Work and Hands-on Learning: The program emphasizes hands-on learning experiences, including laboratory work and practical assignments. Students have the opportunity to apply theoretical concepts learned in the classroom to real-world engineering problems. Laboratory experiments allow students to gain valuable practical skills in electronics, instrumentation, and electrical systems.
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Engineering Design Projects: Throughout the program, students engage in engineering design projects that challenge them to integrate knowledge from multiple disciplines to solve complex engineering problems. These projects encourage creativity, critical thinking, and teamwork skills essential for success in the field of electrical engineering.
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Integration of Theory and Practice: The curriculum is designed to integrate theoretical learning with practical applications. Students learn how to apply fundamental principles of mathematics, physics, and engineering to design, analyze, and optimize electrical systems and devices.
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Transfer to Dalhousie University: After completing the first two years at CBU, students transfer to Dalhousie University to complete the final two years of the program. At Dalhousie, students continue their studies with more advanced courses in electrical engineering, building upon the foundational knowledge acquired during the first two years.
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Advanced Specializations and Electives: At Dalhousie University, students have the opportunity to choose advanced specializations and electives based on their interests and career goals. Specialization areas may include power systems, telecommunications, control systems, or renewable energy. Elective courses allow students to explore specific areas of interest within the field of electrical engineering.
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Industry Partnerships and Co-op Opportunities: Both Cape Breton University and Dalhousie University have strong connections with industry partners in the electrical engineering sector. Students may have the opportunity to participate in co-op work terms or internships with engineering firms, utilities, telecommunications companies, or research institutions, gaining valuable work experience and networking opportunities.
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Professional Development and Career Preparation: Throughout the program, students receive support for professional development and career preparation. Career services offices at both universities provide resources such as resume writing workshops, interview preparation sessions, and job placement assistance. Students are encouraged to participate in professional organizations and networking events to enhance their career prospects.
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Preparation for Licensure and Professional Practice: Graduates of the program are well-prepared to pursue licensure as professional engineers (P.Eng.) after gaining the necessary work experience and passing the professional engineering exam. The program curriculum is designed to meet the educational requirements for licensure, ensuring that graduates have the knowledge and skills needed for professional practice in the field of electrical engineering.
Location
Sydney, Nova Scotia
Score
IELTS: 6.5
Tuition Fee
CAD 19579
Application Fees: CAD $ 80
Undergraduate Program:
Educational Qualifications: Indian students applying for an undergraduate programat CBU must have completed their secondary education with a minimum aggregate score of 60%. This corresponds to a passing grade in the Indian education system.
English Language Proficiency: Proficiency in the English language is essential for admission to CBU. Indian students are required to demonstrate their English language skills by submitting the results of a recognized English language proficiency test. CBU accepts various tests such as the IELTS, TOEFL, or equivalent. IELTS score of overall 6.5 band with no band less than 6 is accepted, TOEFL iBT overall score of 80 is required. PTE overall score of 59 is required and DET score of 115 is required.
Cape Breton University (CBU) offers a range of scholarships and financial aid opportunities to international students to support their educational journey. These scholarships are designed to recognize academic excellence, leadership potential, and community involvement.
International Student Entrance Scholarships: CBU offers entrance scholarships for international undergraduate students based on their academic achievements. These scholarships are available to both full-time and part-time students. The scholarship amounts vary and are renewable for up to four years, provided that the student maintains satisfactory academic standing.
Chancellor's Scholarships: This prestigious scholarship is awarded to exceptional international undergraduate students who have demonstrated outstanding academic achievements and community involvement. The scholarship covers full tuition fees for up to four years of study at CBU.
International Student Bursaries: CBU provides bursaries to international students facing financial challenges. These bursaries are awarded based on financial need and can help cover tuition fees, books, and other educational expenses.
External Scholarships: CBU encourages international students to explore external scholarship opportunities available in their home countries or through international organizations. The university provides support and guidance to students in their search for external scholarships.
Work-Study Program: CBU offers international students the opportunity to work on campus while studying through its Work-Study Program. This program provides students with valuable work experience and helps offset their living expenses.
It is important to note that the availability, eligibility criteria, and application deadlines for scholarships may vary each year.
Graduates of the Bachelor of Electrical Engineering program, offered jointly by Cape Breton University (CBU) and Dalhousie University, have a wide range of career opportunities in various sectors. Graduates of the Bachelor of Electrical Engineering program from Cape Breton University and Dalhousie University have diverse career opportunities in industries ranging from traditional power systems to emerging fields such as renewable energy, telecommunications, and automation. With their strong technical skills, problem-solving abilities, and practical experience, graduates are well-equipped to make significant contributions to society and drive innovation in the field of electrical engineering.
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Electrical Engineer: Graduates can work as electrical engineers in industries such as power generation, telecommunications, electronics, automation, and renewable energy. They are involved in designing, testing, and maintaining electrical systems and devices, ensuring they meet performance, safety, and regulatory standards.
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Power Systems Engineer: Graduates can specialize in power systems engineering, focusing on the generation, transmission, and distribution of electrical power. They design and optimize power grids, develop renewable energy projects, and ensure the reliability and efficiency of electrical networks.
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Control Systems Engineer: Graduates can work as control systems engineers, designing and implementing systems to regulate and control the operation of machinery and processes. They develop algorithms, software, and hardware solutions for applications such as industrial automation, robotics, and aerospace systems.
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Telecommunications Engineer: Graduates can pursue careers in the telecommunications industry, designing and managing communication networks and systems. They work on projects involving wired and wireless communication technologies, satellite systems, and fiber-optic networks.
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Electronics Engineer: Graduates can work as electronics engineers, designing and developing electronic circuits, devices, and systems. They may specialize in areas such as analog electronics, digital electronics, embedded systems, or integrated circuit design.
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Renewable Energy Engineer: Graduates can specialize in renewable energy engineering, working on projects related to solar power, wind power, hydropower, and other renewable energy sources. They design and optimize renewable energy systems, assess environmental impacts, and contribute to the transition to sustainable energy sources.
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Automation Engineer: Graduates can work as automation engineers, developing and implementing automated systems for manufacturing, process control, and industrial applications. They design control systems, program PLCs (Programmable Logic Controllers), and integrate robotics and artificial intelligence technologies.
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Research and Development Engineer: Graduates can work in research and development roles, conducting experiments, analyzing data, and innovating new technologies in the field of electrical engineering. They may work for companies, government agencies, or research institutions, contributing to advancements in technology and innovation.
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Consulting Engineer: Graduates can work as consulting engineers, providing technical expertise and advisory services to clients in various industries. They may specialize in areas such as energy efficiency, environmental sustainability, or regulatory compliance, offering solutions tailored to client needs.
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Entrepreneurship and Innovation: Graduates with an entrepreneurial mindset can start their own businesses or ventures, leveraging their technical knowledge and expertise to develop innovative products, solutions, or technologies in the electrical engineering field.
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Further Education and Research: Graduates may choose to pursue further education through master's or doctoral programs in electrical engineering or related fields. They can pursue careers in academia, research institutions, or specialized research and development laboratories, contributing to the advancement of knowledge in the field.
