Engineering Mechanics: Covers the fundamentals of statics and dynamics, providing a basis for understanding how forces and motion impact machine design.
Thermodynamics: Focuses on the principles of energy conversion and thermal systems, which are crucial for designing efficient machines and systems.
Materials Science: Explores the properties of materials and their selection for specific applications, essential for designing components that meet desired performance criteria.
Machine Design: Delves into the principles of machine design, including stress analysis, kinematics, and dynamics, preparing students to design and analyze mechanical systems.
Computer-Aided Design (CAD): Teaches students how to use software tools for 2D and 3D modelling, enabling them to create and analyze designs digitally.
Product Development: Covers the entire product development lifecycle, from concept generation and prototyping to manufacturing and testing.
Finite Element Analysis (FEA): Introduces students to simulation techniques used for stress and thermal analysis of mechanical components.
Mechatronics: Combines mechanical engineering with electronics and controls, an increasingly important area for modern product design.
Design Engineer: Design engineers create and develop products, machinery, and systems, ensuring they meet performance, safety, and cost criteria. They work with CAD software to create detailed designs and collaborate with cross-functional teams.
Product Development Engineer: These engineers focus on the entire product development process, from concept to market launch. They are responsible for optimizing design, functionality, and manufacturability.
Mechanical Analyst: Mechanical analysts use software tools like FEA to simulate and analyze the behaviour of mechanical components, ensuring they meet design requirements and safety standards.
Manufacturing Engineer: These professionals work on the production floor, optimizing manufacturing processes and ensuring that products are produced efficiently and cost-effectively.
Automotive Engineer: Specializing in the automotive industry, these engineers design and develop vehicles, components, and systems, with a focus on safety, performance, and fuel efficiency.
Aerospace Engineer: Aerospace engineers design aircraft, spacecraft, and related systems. They must consider factors such as aerodynamics, materials, and structural integrity.
Consultant: Some engineers choose to work as design consultants, offering their expertise to various industries and companies on a project-by-project basis.
Research and Development (R&D): Graduates can also pursue careers in research and development, working on innovative projects and pushing the boundaries of mechanical engineering.