Engineering
Explore Engineering Courses Across The World
Engineering programs offer a multidisciplinary approach to understanding and shaping the world through innovation, design, and problem-solving. These programs provide students with the theoretical knowledge, practical skills, and creative thinking needed to address complex challenges across industries. From building sustainable infrastructure to advancing cutting-edge technologies, engineering courses prepare graduates to make a meaningful impact in society.
The Bachelor of Science in Electrical Engineering program prepares students to design, analyze, and innovate electrical systems that power modern technology and infrastructure. This program combines a solid foundation in mathematics and physics with hands-on learning and cutting-edge technologies to equip graduates with the skills to drive advancements in industries such as energy, telecommunications, robotics, and electronics.
Key Highlights:
- Core Curriculum: Study essential topics such as circuit analysis, electromagnetics, signal processing, control systems, and power systems.
- Laboratory Experience: Gain practical skills through hands-on labs and projects, working with modern tools and technologies.
- Specialization Options: Explore advanced fields such as renewable energy, embedded systems, wireless communications, or microelectronics.
- Capstone Design Project: Collaborate on real-world projects to design and implement innovative electrical systems.
- Industry Integration: Engage in internships, co-op opportunities, and partnerships with leading companies in the electrical and electronics sectors.
- Ethics and Sustainability: Learn to develop sustainable and ethically responsible electrical engineering solutions.
Learning Outcomes:
Graduates will:
- Demonstrate expertise in designing and analyzing electrical systems and components.
- Apply knowledge of electronics, energy systems, and communication technologies to solve engineering challenges.
- Use modern tools and methodologies to innovate and optimize electrical solutions.
- Understand the environmental, societal, and ethical implications of electrical engineering projects.
- Collaborate effectively in multidisciplinary teams and communicate technical ideas clearly.
This program opens doors to diverse careers, including electrical engineer, systems designer, energy consultant, and telecommunications specialist. With a focus on innovation and sustainability, the Bachelor of Science in Electrical Engineering empowers graduates to lead in shaping the future of technology.
The Bachelor of Science in Biochemical Engineering program integrates principles of biology, chemistry, and engineering to design and develop processes that transform raw materials into valuable products, such as pharmaceuticals, biofuels, and food. This program equips students with the skills to solve complex problems in biotechnology, healthcare, and environmental industries while emphasizing sustainability and innovation.
Key Highlights:
- Core Curriculum: Study essential topics such as biochemical reaction engineering, molecular biology, thermodynamics, process design, and bioprocess control.
- Laboratory Experience: Gain hands-on experience with cutting-edge techniques in biotechnology, cell culture, and bioreactor operations.
- Specialization Areas: Explore advanced fields such as synthetic biology, bioenergy, biopharmaceutical manufacturing, or environmental biotechnology.
- Capstone Project: Solve real-world problems by designing and optimizing a biochemical process or product.
- Industry Integration: Benefit from internships and collaborations with biotech companies, pharmaceutical firms, and research institutions.
- Ethics and Sustainability: Focus on ethical considerations and sustainable practices in the development of biochemical processes and products.
Learning Outcomes:
Graduates will:
- Apply principles of biochemical engineering to design efficient and sustainable processes for biological and chemical products.
- Develop and optimize systems for bioproduction, ensuring scalability and quality.
- Solve complex engineering problems using biological and chemical insights.
- Address ethical and societal challenges in biotechnology and biochemical applications.
- Communicate technical concepts effectively and work collaboratively in multidisciplinary teams.
The Bachelor of Science in Biochemical Engineering prepares students for careers in industries such as biopharmaceuticals, bioenergy, food processing, and environmental technology. It also provides a strong foundation for pursuing advanced studies or entrepreneurial ventures in the fast-evolving field of biotechnology.
The Bachelor of Science in Biochemical Engineering program integrates principles of biology, chemistry, and engineering to design and develop processes that transform raw materials into valuable products, such as pharmaceuticals, biofuels, and food. This program equips students with the skills to solve complex problems in biotechnology, healthcare, and environmental industries while emphasizing sustainability and innovation.
Key Highlights:
- Core Curriculum: Study essential topics such as biochemical reaction engineering, molecular biology, thermodynamics, process design, and bioprocess control.
- Laboratory Experience: Gain hands-on experience with cutting-edge techniques in biotechnology, cell culture, and bioreactor operations.
- Specialization Areas: Explore advanced fields such as synthetic biology, bioenergy, biopharmaceutical manufacturing, or environmental biotechnology.
- Capstone Project: Solve real-world problems by designing and optimizing a biochemical process or product.
- Industry Integration: Benefit from internships and collaborations with biotech companies, pharmaceutical firms, and research institutions.
- Ethics and Sustainability: Focus on ethical considerations and sustainable practices in the development of biochemical processes and products.
Learning Outcomes:
Graduates will:
- Apply principles of biochemical engineering to design efficient and sustainable processes for biological and chemical products.
- Develop and optimize systems for bioproduction, ensuring scalability and quality.
- Solve complex engineering problems using biological and chemical insights.
- Address ethical and societal challenges in biotechnology and biochemical applications.
- Communicate technical concepts effectively and work collaboratively in multidisciplinary teams.
The Bachelor of Science in Biochemical Engineering prepares students for careers in industries such as biopharmaceuticals, bioenergy, food processing, and environmental technology. It also provides a strong foundation for pursuing advanced studies or entrepreneurial ventures in the fast-evolving field of biotechnology.
The Bachelor of Science in Civil Engineering program prepares students to design, construct, and maintain the infrastructure and systems that form the backbone of modern society. Combining technical expertise with creativity and a focus on sustainability, this program equips graduates to address complex challenges in building and managing structures, transportation networks, water resources, and environmental systems.
Key Highlights:
- Core Curriculum: Comprehensive study of structural engineering, geotechnical engineering, transportation systems, water resource management, and construction management.
- Practical Experience: Engage in hands-on labs, fieldwork, and computer-aided design (CAD) tools to bring engineering concepts to life.
- Capstone Design Project: Work in teams to solve real-world civil engineering problems, from designing bridges and buildings to optimizing transportation networks.
- Sustainability and Ethics: Emphasis on sustainable practices and ethical decision-making to create resilient and environmentally responsible solutions.
- Industry Engagement: Benefit from internships, site visits, and collaborations with construction and engineering firms to gain valuable professional experience.
Learning Outcomes:
Graduates will:
- Apply principles of civil engineering to design and construct safe, efficient, and sustainable infrastructure.
- Analyze and solve engineering challenges using technical and computational tools.
- Understand and incorporate environmental and societal considerations into engineering projects.
- Manage construction projects effectively, ensuring safety, quality, and cost-efficiency.
- Communicate and collaborate across multidisciplinary teams and stakeholders.
This program prepares students for diverse careers, including structural engineer, transportation planner, project manager, or environmental consultant. With a focus on innovation, safety, and sustainability, the Bachelor of Science in Civil Engineering is the foundation for building a better future.
The Bachelor of Science in Chemical Engineering program equips students with the knowledge and skills to design, develop, and optimize processes for the production of materials, chemicals, and energy. Combining principles of chemistry, physics, mathematics, and engineering, this program prepares graduates to tackle complex challenges in industries such as pharmaceuticals, energy, food production, and environmental protection.
Key Highlights:
- Core Curriculum: In-depth study of thermodynamics, reaction engineering, process control, transport phenomena, and materials science.
- Laboratory Experience: Gain practical insights through hands-on experiments, simulations, and pilot plant operations.
- Specialization Options: Explore advanced topics such as renewable energy, bioprocessing, nanotechnology, or environmental engineering.
- Capstone Design Project: Solve real-world engineering problems by designing and optimizing a chemical process or product.
- Industry Integration: Internships and partnerships with leading chemical and process engineering firms provide valuable professional experience.
- Sustainability and Safety: Emphasis on developing environmentally friendly solutions and ensuring safety in process design and operations.
Learning Outcomes:
Graduates will:
- Demonstrate expertise in chemical engineering principles and techniques.
- Design and analyze processes for efficient and sustainable production of chemicals, materials, and energy.
- Apply critical thinking and problem-solving skills to address industry and societal challenges.
- Understand and implement safety protocols and environmental regulations in engineering practices.
- Communicate effectively with technical and non-technical audiences.
This program prepares students for diverse roles such as process engineer, chemical researcher, environmental consultant, or production manager. It also provides a strong foundation for pursuing graduate studies or entrepreneurial ventures. The Bachelor of Science in Chemical Engineering is your gateway to innovating solutions for a better world.
Featured Universities
NorQuest College empowers learners with the skills and confidence to pursue further studies, start new careers, and contribute to society. Known for its inclusive and supportive environment, NorQuest tailors education to meet Alberta’s needs with input from industry, business, and the public sector. Offering flexible learning options—classroom, distance, and continuing education—the college helps students build on strengths, address needs, and achieve career goals. Its diploma and certificate programs focus on health, community studies, and business, preparing students for life-changing opportunities.
The British Columbia Institute of Technology (BCIT), established in 1964, equips nearly 50,000 students annually with practical career credentials, including diplomas, certificates, and degrees. Offering diverse programs across six schools—Business + Media, Computing and Academic Studies, Construction and the Environment, Energy, Health Sciences, and Transportation—BCIT emphasizes workplace-ready education. Faculty collaborate closely with industry to deliver training, provide expertise, and support innovation, shaping skilled professionals for BC and beyond.
Bow Valley College, located in downtown Calgary, serves a growing city of 1.2 million known for its excellent quality of life and proximity to nature. Designated as a Comprehensive Community College by Alberta’s government, Bow Valley plays a key role in addressing the province’s skills gap and labor demands. The college offers diverse programs in Business, Health and Wellness, Creative Technologies, Community Studies, Global Access, Academic Upgrading, Continuing Learning, and Open Studies, supporting Alberta’s prosperity and workforce needs.
Since opening in Calgary in 1916 to train WWI veterans, SAIT has adapted to community needs, including serving as a hospital during the Spanish Flu and an RCAF training school in WWII. Today, SAIT combines action-based learning, industry partnerships, and solution-driven research to prepare students for career success. With 91% of graduates hired and 97% recommending SAIT, the institute offers customized education for upskilling, career changes, and lifelong learning. Collaborating with over 11,000 industry partners, SAIT strengthens both students’ global competitiveness and the economy.
Toi Ohomai Institute of Technology, the largest tertiary provider in the Bay of Plenty and New Zealand’s third-largest institute of technology, serves over 14,000 students with 150+ programs from certificate to postgraduate levels. Formed in 2016 through the merger of Bay of Plenty Polytechnic and Waiariki Institute of Technology, Toi Ohomai prepares students for careers in fields such as agriculture, business, IT, health, and tourism. Nestled in a region of natural beauty, students can enjoy activities like hiking, kayaking, mountain biking, and hot pools, complementing a high-quality education.
New Zealand Tertiary College (NZTC), with campuses in Auckland and Christchurch, has over 30 years of expertise in early childhood education and teacher training. Offering flexible study options, including online learning, students can begin their studies immediately. NZQA-accredited programs range from certificates to master’s degrees, empowering students with the skills and knowledge to excel as early childhood educators. NZTC emphasizes practical training, respect for individuality, and the vital role of teachers in supporting young children and their families, fostering professionalism and excellence in the early childhood sector.
Careers
Salary: CAD 80,000 – CAD 150,000/year
Description: Designs, tests, and maintains aircraft, spacecraft, and related systems. A Bachelor’s in Aerospace or Mechanical Engineering and experience with simulation tools are required.
Salary: CAD 65,000 – CAD 110,000/year
Description: Optimizes processes and systems to improve efficiency and reduce costs. Requires a Bachelor’s in Industrial Engineering and experience with Lean and Six Sigma methodologies.
Salary: CAD 75,000 – CAD 130,000/year
Description: Designs and analyzes electrical systems, ensuring safety and efficiency. Requires a Bachelor’s in Electrical Engineering, P.Eng. certification, and familiarity with power systems and circuit design tools.
Salary: CAD 65,000 – CAD 110,000/year
Description: Develops, tests, and improves mechanical systems, machinery, and devices. Requires a Bachelor’s in Mechanical Engineering, with P.Eng. certification preferred. Knowledge of 3D modelling tools is vital.
Salary: CAD $65,000 – $110,000/year
Description: Plans, designs, and supervises infrastructure projects like roads, bridges, and water systems. Requires a Bachelor’s in Civil Engineering and P.Eng. certification. Proficiency in CAD software is essential.
Salary: CAD 70,000 – CAD 100,000 per year
Description: Responsible for installing and maintaining electrical systems, electricians are in high demand due to infrastructure development and retiring tradespeople. An apprenticeship or technical program is usually required.
Interst Form
Frequently Asked Questions
Entry requirements vary depending on the university and program:
- Undergraduate: Strong grades in mathematics and science subjects (e.g., Physics, Chemistry). Some programs may require specific exams like A-levels or equivalent qualifications.
- Postgraduate: A bachelor’s degree in engineering or a related field. Work experience can be beneficial for some programs.
- English language proficiency (e.g., IELTS or TOEFL) is required for international students.
- Undergraduate (BEng): Typically 3 years.
- Integrated Master’s (MEng): Typically 4 years.
- Postgraduate (MSc or PhD): 1-2 years for MSc; 3-4 years for a PhD.
Many programs include an optional placement or industrial year, which can extend the duration.
Yes, many engineering programs in the UK include internships or industrial placements as part of the curriculum. These placements provide valuable hands-on experience, enhance employability, and help you build a professional network.
Yes, international students on a UK student visa can work part-time (up to 20 hours per week) during term time and full-time during holidays. We can help you find suitable part-time job opportunities that align with your schedule.
