Mechanical Engineering, Bachelor of Engineering, Full-time

Program Overview

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Degree Overview:

The Bachelor of Engineering in Mechanical Engineering from BCIT is a four-year program that equips graduates with the knowledge and skills to design, analyze, and operate mechanical systems. The program emphasizes practical experience through hands-on projects and internships, preparing students for successful careers in various industries.

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Outline:

The program covers fundamental principles in engineering mechanics, thermodynamics, fluid mechanics, heat transfer, machine design, manufacturing processes, control systems, robotics, and mechatronics.

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Assessment:

Student learning is evaluated through quizzes, exams, projects, presentations, lab reports, and portfolios, based on program learning outcomes.

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Careers:

Graduates pursue careers as mechanical engineers, design engineers, manufacturing engineers, and more, in industries such as aerospace, automotive, biomedical, construction, energy, manufacturing, and robotics.

Program Outline

Overview:

The Bachelor of Engineering in Mechanical Engineering is a four-year degree program that prepares graduates for successful professional practice.

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Objectives:

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The program's objectives are to provide students with the knowledge and skills necessary to:

• Apply engineering principles to the design, analysis, and operation of mechanical systems.
• Design and conduct experiments to investigate engineering problems.
• Analyze and interpret data to draw conclusions and make recommendations.
• Communicate effectively with both technical and non-technical audiences.
• Work effectively in teams.
• Understand the ethical and social implications of engineering decisions.

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Description:

The Mechanical Engineering program at BCIT provides students with a solid foundation in the fundamental principles of mechanical engineering. Students will learn about the design, analysis, and operation of mechanical systems, as well as the materials and manufacturing processes used in mechanical engineering. The program also includes a strong emphasis on practical experience, with students completing a number of hands-on projects and internships.

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Content:

The Mechanical Engineering program at BCIT covers a wide range of topics, including:

• Engineering mechanics
• Thermodynamics
• Fluid mechanics
• Heat transfer
• Machine design
• Manufacturing processes
• Control systems
• Robotics
• Mechatronics

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Structure:

The program is divided into four years of study. The first two years provide students with a foundation in the fundamental principles of mechanical engineering. The third and fourth years allow students to specialize in a particular area of mechanical engineering.

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Course Schedule:

The course schedule for the Mechanical Engineering program can be found on the BCIT website.

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Individual Modules with Descriptions:

The Mechanical Engineering program at BCIT includes a number of individual modules, each of which focuses on a specific topic. Some of the most important modules include:

• Engineering Mechanics: This module introduces students to the fundamental principles of mechanics, including statics, dynamics, and strength of materials.
• Thermodynamics: This module introduces students to the fundamental principles of thermodynamics, including the laws of thermodynamics, heat transfer, and power cycles.
• Fluid Mechanics: This module introduces students to the fundamental principles of fluid mechanics, including fluid statics, fluid dynamics, and fluid machinery.
• Heat Transfer: This module introduces students to the fundamental principles of heat transfer, including conduction, convection, and radiation.
• Machine Design: This module introduces students to the fundamental principles of machine design, including the design of machine elements, such as gears, bearings, and shafts.
• Manufacturing Processes: This module introduces students to the fundamental principles of manufacturing processes, including casting, forging, machining, and welding.
• Control Systems: This module introduces students to the fundamental principles of control systems, including feedback control, PID control, and state-space control.
• Robotics: This module introduces students to the fundamental principles of robotics, including robot kinematics, robot dynamics, and robot control.
• Mechatronics: This module introduces students to the fundamental principles of mechatronics, including the integration of mechanical, electrical, and computer engineering.

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Assessment Methods:

The Mechanical Engineering program at BCIT uses a variety of assessment methods to evaluate student learning. These methods include:

• Quizzes
• Exams
• Projects
• Presentations
• Lab reports
• Portfolios

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Assessment Criteria:

The assessment criteria for the Mechanical Engineering program at BCIT are based on the program's learning outcomes. These outcomes include:

• Students will be able to apply engineering principles to the design, analysis, and operation of mechanical systems.

• Students will be able to design and conduct experiments to investigate engineering problems.

• Students will be able to analyze and interpret data to draw conclusions and make recommendations.

• Students will be able to communicate effectively with both technical and non-technical audiences.

• Students will be able to work effectively in teams.

• Students will be able to understand the ethical and social implications of engineering decisions.

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Teaching Methods:

The Mechanical Engineering program at BCIT uses a variety of teaching methods to deliver its curriculum. These methods include:

• Lectures
• Tutorials
• Labs
• Projects
• Field trips
• Guest lectures

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Faculty:

The Mechanical Engineering program at BCIT has a team of experienced and dedicated faculty members. Many of the faculty members have industry experience, which they bring into the classroom to help students learn about the real-world applications of mechanical engineering.

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Unique Approaches:

The Mechanical Engineering program at BCIT uses a number of unique approaches to teaching and learning. These approaches include:

• Project-based learning: Students in the Mechanical Engineering program complete a number of projects throughout their studies.
These projects allow students to apply their knowledge and skills to real-world problems.
• Hands-on learning: Students in the Mechanical Engineering program have access to a variety of state-of-the-art labs and equipment.
This allows students to get hands-on experience with the latest technologies and equipment used in the field of mechanical engineering.
• Industry partnerships: The Mechanical Engineering program at BCIT has strong partnerships with industry.
These partnerships provide students with opportunities to learn from and work with industry professionals.

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Career Paths:

Graduates of the Mechanical Engineering program at BCIT can pursue a variety of career paths, including:

• Mechanical engineer
• Design engineer
• Manufacturing engineer
• Test engineer
• Project engineer
• Sales engineer
• Technical writer
• Patent attorney

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Opportunities:

Graduates of the Mechanical Engineering program at BCIT have a wide range of opportunities available to them. They can work in a variety of industries, including:

• Aerospace
• Automotive
• Biomedical
• Construction
• Energy
• Manufacturing
• Robotics

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Outcomes:

Graduates of the Mechanical Engineering program at BCIT are well-prepared for success in their careers. They have the knowledge and skills necessary to be successful in a variety of roles in the field of mechanical engineering.