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 also includes the study of the elements of mechanisms such as
gears, train, rolling bodies, belt and pulleys, cams and followers.
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.
This course covers the study of the methodologies used in conducting an engineering research. It includes the types and application of research, characteristics of a good research, research design, research instrument and data gathering procedures. It also deals with the study of writing a research proposal in various formats.
An introductory course that covers foundation subjects in engineering mathematics including the concepts of college algebra, topics from plane and spherical trigonometry, plane and solid geometry and analytic geometry
This course provides students with core concepts of chemistry that are important in the practice of engineering profession. A fundamental laboratory course designed to relate and apply the principles and theories in chemistry to engineering practices. It is a combination of experimental and calculation laboratory.
This course deals with the fundamental concepts of vibration as it affects operation and performance of machine components. It involves modeling of mechanical systems derivation of the differential equations for such systems and its varying solutions (responses) based on different excitations. Emphases will be on analysis, design, measurement, damping and computational aspects.
The course introduces mechanical engineering (ME) as a discipline and its various applications. It also discusses ME as a profession with emphasis on the requirements for professional practice as well career opportunities. The course also provides venues to develop engineering skills in order to succeed in engineering studies
This course deals with the different mode of heat and mass transfer; laws governing conduction, convection and radiation and its application to the design of common heat exchangers such as condenser, cooling coils, and evaporators; and the environmental impact of their operation.
An introductory course that covers foundation subjects in Engineering Mathematics including the concepts of College Algebra, Topics from Plane and Spherical Trigonometry, Plane and Solid Geometry and Analytic Geometry.
An introductory course covering the core concepts of limit, continuity and differentiability of functions involving one or more variables. This also includes the application of differential calculations in solving problems on optimization, rates of change, related rates, tangents and normal, and approximations; partial differentiation and transcendental curve tracing.