![]() These examples demonstrate essential problem-solving techniques in real-world engineering contexts. Equipped with a solid foundation, you will explore practical applications of Rigid Bodies in Equilibrium through a range of examples involving calculations in 2D and 3D. To further enhance your knowledge, the concept will be extended to consider Equilibrium of a Rigid Body in Three Dimensions. This essential topic will be explored in-depth, beginning with an overview of Equilibrium of a Rigid Body, followed by a detailed examination of the conditions necessary for achieving Rigid Body Equilibrium. ![]() In the study of Further Mathematics, grasping the concept of Rigid Bodies in Equilibrium is crucial to understanding the behaviour of objects under the action of multiple forces and moments. Finally, to reinforce your understanding and mastery of the topic, you'll be armed with valuable tips to help you break down complex Rigid Body problems, incorporating trigonometry and methodologies for calculating forces and moments for equilibrium. ![]() Izadi - Centroids and distributed loads Lecture 19 - Moment of inertia Lecture 20 - Parallel axis theorem Example by Dr.In the study of Further Mathematics, grasping the concept of Rigid Bodies in Equilibrium is crucial to understanding the behaviour of objects under the action of multiple forces and moments. Izadi - Friction in wedges and belts Lecture 17 - Centroids, composite plates | Direct integration Lecture 18 - Distributed loads, centroid of a volume Example by Dr. Izadi - Equilibrium of 3D rigid bodies Lecture 12 - Trusses, method of joints Lecture 13 - Method of sections Lecture 14 - Frames | Machines Lecture 15 - Dry friction Lecture 16 - Wedges, belts Example by Dr. Izadi - Equilibrium of 2D rigid bodies Lecture 10 - Two & three force members Lecture 11 - Rigid body equilibrium (3D) Example by Dr. ![]() Lecture 1 - Introduction: Forces in a plane, vectors | 2D components of vectors Lecture 2 - Equilibrium of a particle (2D) | Free-body diagram (FBD) Lecture 3 - Forces in space Lecture 4 - Equilibrium of a particle (3D) Lecture 5 - Vector product & applications | Moment about a point Lecture 6 - Scalar product & applications | Moment about an axis Lecture 7 - Couples Lecture 8 - Equivalent systems Lecture 9 - Rigid body equilibrium (2D) Example by Dr. Zip file containing the course syllabus and other documents discussed in the videos. Note: The following lecture series was recorded when Cal Poly Pomona was on a quarter system and only covers topics from vector statics (formerly "ME 214: Vector Statics").
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