Engineering of Structures: Tension

Dartmouth College via Coursera

Go to Course: https://www.coursera.org/learn/engineering-of-structures-tension

Introduction

### Course Review: Engineering of Structures: Tension **Course Overview** The Coursera course **"Engineering of Structures: Tension"** offers an informative look at one of the fundamental forces in engineering—tension. This course is perfect for those intrigued by structural engineering, architecture, or physics. With a focus on the pulling force of tension and its implications in real-world structures, this course equips learners with essential knowledge about how tension influences design and stability in buildings, bridges, and various other structures. ### Course Structure and Syllabus The course comprises three comprehensive modules, each designed to build on the knowledge gained in the previous one: 1. **Introduction to Tension** - In the first module, participants delve into the concept of tension, exploring its significance in the construction and integrity of various structures. This foundation lays the groundwork for understanding how tension is harnessed in engineering to create safe and effective designs. 2. **Angles, Funicular Forms, and Bridges** - The second module takes a deeper dive into funicular forms, angles, and the design of bridges. Students will learn about the role of funicular shapes in managing tensile forces and understand the differences between suspension bridges and cable-stayed bridges. This part of the course emphasizes the geometry of tension and how it can be manipulated to support structures. 3. **Building a Cable-stayed Bridge** - The final module offers a practical application of the concepts learned throughout the course. Students will engage with the design and construction of a cable-stayed bridge, analyzing existing structures, and preparing a report on their findings. This hands-on aspect enriches the learning experience and encourages critical thinking and creativity. ### Learning Experience Participants will benefit from a blend of theoretical knowledge and practical applications throughout the course. Video lectures are complemented by quizzes and assignments that facilitate understanding and retention of key concepts. The course is structured to promote active learning, encouraging students to engage with the material and apply it to real-world scenarios. ### Who Should Take This Course? This course is ideal for: - Aspiring engineers seeking to expand their understanding of structural dynamics. - Architecture students interested in the forces that influence design. - Engineers and architects already in the field who want to refresh their knowledge or pursue professional development. ### Recommendations I highly recommend **"Engineering of Structures: Tension"** for anyone interested in the principles of structural engineering. The course is not only well-structured and informative but also offers a valuable perspective on the role of tension in building design. The integration of theoretical concepts with practical applications makes it a comprehensive learning experience. ### Conclusion In conclusion, this course provides an essential foundation for understanding tension in structural engineering. The insights gained from exploring funicular forms and the specifics of bridges can be a significant asset in any engineering or architectural endeavor. Whether you are a student or an industry professional, enrolling in this course will undoubtedly enhance your understanding and appreciation of structural engineering principles. Don’t miss the opportunity to fortify your education with this excellent resource on Coursera!

Syllabus

Introduction to Tension

This module explores tension and its importance in building structures.

Angles, Funicular Forms, and Bridges

This module explores funicular forms, angles, and bridges. You will understand the role of funicular forms in sustaining tension, how to best design elements and systems that resist tensile forces. You will also understand the similarities and differences between suspension bridges and cable-stayed bridges

Building a Cable-stayed Bridge

This module explores how to build a cable-stayed bridge. You'll also study the structures of different bridges and share a report on them.

Overview

This course deals with tension. Tension is one of the easiest forces to understand. It is a pulling force. When we tend to pull an object, it is in tension. Different elements that resist tension in buildings are ropes, cables, and funicular forms. You will study different structures and identify what role tension plays in their designs. The first module explores tension and its importance in building structures. The second module explores funicular forms, angles, and bridges. You will underst

Skills

Reviews

helpful for revising the concept of Tension, Tension members, Cable-stayed bridge, suspension bridge. helpful for stuctural engineers.

The Way to teaching makes better understanding easily...

Hello, thank you for your efforts in the course. It was very useful and beautiful. I hope you will always be healthy and happy. Mohammad Pakzad from Iran.