The course "Dynamics of Rigid Bodies" offered at Mapua University is designed to provide students with a comprehensive understanding of the principles and
... [Show More] applications of rigid body dynamics. As an essential course within the mechanical engineering curriculum, it focuses on studying the behavior of objects that do not deform under external forces.
Throughout this course, students will explore the intricate concepts and practical implications of rigid body dynamics. The curriculum strikes a balance between theoretical foundations and real-world applications to equip students with the knowledge and skills required to analyze and predict the behavior of rigid bodies within diverse mechanical systems.
By enrolling in this course, students will gain proficiency in the fundamental principles and laws governing rigid body dynamics. They will learn to apply mathematical techniques to analyze the motion and forces acting on these bodies. Kinetics and kinematics of rigid bodies will be explored, enabling students to comprehend their translation, rotation, angular displacement, velocity, and acceleration. Students will also develop expertise in relative motion analysis.
The study of kinetics of rigid bodies will equip students with the ability to determine moments and products of inertia. They will learn to derive equations of motion for rigid bodies and grasp the concept of torque and angular momentum. Planar motion of rigid bodies, including translation, rotation about a fixed axis, and gyroscopic motion, will also be covered extensively.
Furthermore, the course emphasizes the principles of work and energy in rigid body dynamics. Students will explore the principle of work and energy, kinetic and potential energy, and the conservation of energy. Impulse and momentum in rigid body dynamics will be examined, including linear and angular impulse, the conservation of momentum, and impact and collision analysis.
Vibration of rigid bodies will be another vital aspect of the course, where students will delve into free and forced vibrations, natural frequencies, mode shapes, damping, and resonance. Laboratory exercises and simulations will provide students with hands-on experience in verifying rigid body dynamics principles and conducting software-based analysis of rigid body systems.
Assessment methods for this course include assignments, problem sets, quizzes, theoretical and practical examinations, laboratory reports, and class participation. Students are expected to have a solid foundation in Engineering Mechanics, Calculus and Analytical Geometry, as well as Physics (Mechanics) prior to enrolling in this course.
By successfully completing the course "Dynamics of Rigid Bodies," students will emerge with a profound understanding of rigid body dynamics. They will possess the necessary skills to apply this knowledge in designing, analyzing, and optimizing mechanical systems encountered across various engineering disciplines. The course fosters critical thinking, problem-solving abilities, and a practical approach to tackling complex challenges in the field of mechanical engineering. [Show Less]