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 different modes of heat and mass transfer, laws governing conduction, convection and radiation and its applications to the design of common heat exchangers such as condenser. Cooling coils and evaporators; and the environmental impact of their operation.

This course involves the study and test of mechanical engineering equipment and machineries such as steam generator, steam turbine, heat exchanger, internal and external combustion engine, pumps, fans, blowers and compressors.

Basic concepts of calculus such as limits, continuity and differentiability of functions; differentiation of algebraic and transcendental functions involving one or more variables; applications of differential calculus to problems on optimization, rates of change, related rates, tangents and normal, and approximations; partial differentiation and transcendental curve tracing.

The course deals with the forces acting on non-moving bodies. It covers concurrent and non-concurrent forces, operation with the free body concepts, equilibrium of coplanar and non-coplanar systems, friction forces, centroids and moment of inertia.

The course deals with the nature and physical properties of FLUID 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 and inviscid or viscous flow as well as head loss calculation on pipes and fittings.

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.

 Basic concepts of calculus such as limits, continuity and differentiability of functions; differentiation of algebraic and transcendental functions involving one or more variables; applications of differential calculus to problems on optimization, rates of change, related rates, tangents and normal, and approximations; partial differentiation and transcendental curve tracing.

The course deals with the psychrometric properties of air; factors affecting human comfort; air distribution and basic duct design; drying, heating, and  ventilation; cooling load calculations; and, design of an air-conditioning system and its components.

Numerical techniques used in engineering applications. Finding roots of equations, curve fitting, interpolation, numerical differentiation and integration, systems of linear algebraic equations, solution to non-linear equations, and solutions to ordinary differential equations.

The course deals with the forces acting on bodies in motion. It includes kinematics of machines and kinetics of particles of rigid bodies such as rectilinear and curvilinear translation and rotational motions.

Vectors, kinematics, dynamics; work, energy, and power; impulse and momentum; rotation; dynamics of rotation; elasticity; oscillation. Fluids; thermal expansion, thermal stress; heat transfer; calorimetry; waves; electrostatics; electricity; magnetism; optics; image formation by plane and curved mirrors; and image formation by thin lenses.

Tecnopreneurship is a philosophy, a way of building a career or perspective in life. The course covers the value of professional and life skills in entrepreneurial thought, investment decisions, and action that students can utilize in starting technology companies or executing R & D projects in companies as they start their careers. The net result is a positive outlook towards wealth creation, high value adding, and wellness in society.