A career in engineering can mean a lot more than just programming and developing software applications or designing bridges and buildings. Engineering students can build careers in research, machine or equipment designing, computer-aided drafting, quality testing and assurance, safety control, specifications writing, work cell designing and many more.
The list of career options is endless for mechanical engineering students, as the field is considered to be the most diverse and widest in scope of all engineering specializations. Those interested in building careers in designing, building and testing industrial equipment, thermodynamics and material testing, machine shop operation, tool design, facility planning, job safety program development and/or product manual writing can choose to enroll themselves into a post-secondary mechanical engineering technology – industrial (PTY) course.
Career Opportunities upon Course Completion
A mechanical engineering program prepares them for diverse jobs in designing, manufacturing, production, quality control and repairing of mechanical equipment, devices, motors and machines. Upon course completion, they can find employment in various industry verticals, including automobile, nuclear, robotics, marine, oil and gas, power and energy, aerospace and heating, ventilation and air-conditioning.
The program graduates can also associate themselves with facility planning, construction and customer support services companies. They can also practice independently. The explosion of electrical, electronic and other technology equipment, machines and devices has resulted in a significant increase in the demand for mechanical engineering professionals. Already this field offers a vast range of career options and advancement in technology is further adding to the employment prospects.
Basic and Advanced Courses and Practical Learning
A mechanical engineering – industrial program helps students build strong fundamentals in physics, chemistry, mathematics, analytical geometry, fluid mechanics, statistics and calculus. With this, they also study basic engineering concepts including, properties of materials, mechanical drafting, manufacturing processes, applied electricity, strengths of materials and hydraulics and pneumatics.
It also covers more advanced engineering subjects, such as operational excellence, advanced quality concepts, project design and construction management, manufacturing automation, and facility planning. It also incorporates hands-on lab, individual and team projects and actual workplace assignments. The program also features a co-op component, which is open for academically qualified students. They can work three terms as paid employees in the field to put their classroom learning into practice and enhance their understanding.
Mechanical Engineering Courses in Toronto
A number of colleges offer post-secondary mechanical engineering courses in Toronto. Unfortunately, not all offer co-op placement component. Moreover, they may not be affiliated with any governing body. Centennial College’s three-year mechanical engineering technology – industrial (PTY) program has met the technology accreditation requirements established by the Canadian Council of Technicians and Technologists (CCTT). It has also received national accreditation status by the Canadian Technology Accreditation Board (CTAB). Moreover, the program features a co-op placement component.
Interested students need to submit their secondary school certificate or equivalent, English Grade 12 C or University or equivalent scores, and mathematics Grade 11 M or 12 C or University or equivalent while applying for the course. In order to benefit from co-op placement component, they need to meet below requirements:
Minimum C grade in COMM-170/171
Minimum 2.5 CGPA
Minimum 80 percent of year 1 & 2 courses for COOP-221