Enroll Course: https://www.coursera.org/learn/mechanics-of-materials-1
Ever wondered how buildings stand tall and strong, defying gravity and weathering storms? The answer lies in the fundamental principles of Mechanics of Materials. This Coursera course, ‘材料力學一 (Mechanics of Materials (1))’, offers a deep dive into the science behind structural integrity, making it an indispensable resource for aspiring civil engineers, architects, and anyone fascinated by how the built world works.
The course begins by building upon the familiar Hooke’s Law, using structural steel as a practical example to explore the intricate relationship between force and deformation. It meticulously breaks down how structural members respond to axial forces (tension/compression), torsion, bending, and shear. The instructors skillfully explain the internal stresses and resulting deformations caused by these forces, providing clear explanations and practical calculation examples relevant to building design.
What sets this course apart is its clear focus on real-world applications. It doesn’t just present abstract theories; it connects them directly to engineering design decisions. You’ll learn why engineers choose specific beam depths, column thicknesses, and cross-sectional shapes (rectangular, circular, or I-beams). The syllabus covers crucial topics like stress and strain, understanding elastic and plastic behavior, analyzing statically determinate and indeterminate systems, and the critical concepts of shear force and bending moment diagrams. The course also delves into the nuances of how different cross-sectional shapes behave under shear and bending, and even touches upon shear flow and connection design for composite sections.
This course is explicitly recommended as a prerequisite for those aiming to master reinforced concrete design, steel structure design, and timber structure design. It also lays a solid foundation for those interested in elasticity and its practical engineering applications. Whether you’re a student in civil engineering or architecture, or a professional looking to solidify your understanding, ‘Mechanics of Materials (1)’ provides the essential knowledge to understand and design the structures that shape our environment.
Highly recommended for its clear explanations, practical examples, and direct relevance to structural engineering.
Enroll Course: https://www.coursera.org/learn/mechanics-of-materials-1