The course deals with the study of mechanisms disregarding the forces and energies that causes the motion. It provides emphasis on the analytical and graphical study of displacement, velocity and acceleration. This includes the study of the elements of mechanisms such as gears, train, rolling bodies, belt and pulleys, cams and followers.
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9: Industry, Innovation, and Infrastructure |
By understanding the core mechanisms that drive industrialization (gears, belts, robotics), students become highly valuable to employers in manufacturing, automation, and automotive industries. They aren't just learning theory; they are learning the "language" of modern infrastructure. |
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12: Responsible Consumption and Production |
By studying rolling bodies and cams analytically, students learn to minimize unnecessary motion. In the real world, "efficient motion" often translates to energy savings, making their future designs more competitive and sustainable. |
The course deals with the study of mechanisms disregarding the forces and energies that causes the motion. It provides emphasis on the analytical and graphical study of displacement, velocity and acceleration. This includes the study of the elements of mechanisms such as gears, train, rolling bodies, belt and pulleys, cams and followers.
|
9: Industry, Innovation, and Infrastructure |
By understanding the core mechanisms that drive industrialization (gears, belts, robotics), students become highly valuable to employers in manufacturing, automation, and automotive industries. They aren't just learning theory; they are learning the "language" of modern infrastructure. |
|
12: Responsible Consumption and Production |
By studying rolling bodies and cams analytically, students learn to minimize unnecessary motion. In the real world, "efficient motion" often translates to energy savings, making their future designs more competitive and sustainable. |
This course deals with the relations between externally applied load and their effects on deformable bodies. Deformations, even though small, are of major concern. The course covers stress, strain, torsion, shear and moment in beams, stresses in beams, deflection of beams, restrained beams, statically indeterminate beams, stresses on combined loads and composite beams.
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SDG 4: Quality Education |
By strengthening foundational engineering knowledge and analytical skills, the course contributes to SDG 4. Through problem-solving and design-based learning, students develop critical thinking and technical competencies aligned with high-quality engineering education. |
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SDG 9: Industry, Innovation, and Infrastructure |
By equipping students with the knowledge and skills to analyze and design structural members, the course contributes to SDG 9. The course supports the analysis and design of resilient infrastructure and innovative engineering solutions by providing methods/tools to predict material behavior and structural performance under load. |
The course deals with the nature and physical properties of fluids as well as the identification and measurement of fluid properties. It emphasizes the application of conservation laws on mass, energy and momentum to fluid systems either incompressible or compressible flow, inviscid or viscous flow as well as head loss calculation on pipes and fittings