Master truss analysis with a simple 7-step guide covering the methods of joints and sections, complete with sample problems for practical understanding.
This course teaches you how to analyze trusses using two main methods: the Method of Joints and the Method of Sections. You’ll learn to identify crucial elements, like zero force members, and see how to tell if members are in compression or tension—all through easy steps and fun examples!
Learn the method of joints and method of sections in 7 easy to follow steps. Includes sample problems and solutions.
Truss Analysis is one of the most important topics in Statics, which is the first introductory in structural engineering curriculums. Trusses are structures that are widely used in civil engineering applications, such as bridges, steel buildings and roof structures. Trusses also appear in many mechanical and aerospace structures such as cranes, space structures, offshore platforms, and so on.
What is a Truss?
A truss is a structure usually consisting of straight members that are connected to each other at the two ends of each member. All members of a truss structure are connected together with pin joints, such that for the purpose of the design of these structures we assume the joints cannot carry or resist any moments. All external loads acting on a truss are assumed to be acting only at the joints, and therefore, all members of a truss are two-force members.
Why Must We Learn Truss Analysis?
First of all, if we plan to design and build a truss structure, such as a roof structure for carrying external loads, we need to find out how much load is carried by each member of the truss. Secondly, in the case of an existing truss structure, we may need to replace one or a few members. In this case, we need to find the internal forces carried by those few members within the truss structure. In both instances, the objective is to figure out and decide whether the members can sustain the forces or not and what size members and what type of cross sections are required.
Types of Truss Analysis
There are two major methods of analysis for finding the internal forces in members of a truss; the Method of Joints, which is typically used for the case of creating a truss to handle external loads, and the Method of Sections, which is normally used when dealing modifying the internal members of an existing truss. Both of these methods are based on the assumption that when a structure is in equilibrium, all pieces of the structure are also in equilibrium.
Course Structure
In this course, I will present a thorough overview of truss structures in the context of static analysis of structures. I will provide you with an easy-to-follow, 7-step process for the Method of Joints and the Method of Sections. Each of the 7 steps are clearly demonstrated in the presentation and sample problems, which I will walk through.
</p>Introducing an easy to understand, 7-step solution for the method of joints and the method of sections
Thoroughly explaining how to identify all zero force members in a truss, using three important criteria
Introducing an easy way to identify whether a member is in compression or in tension
1 Lectures
4 Lectures
As an educator, scholar and an administrator, Dr. Mohammad Noori has over 38 years of experience working in academia and has been a pioneer in establishing innovative industry-university-government and global partnerships. He has long been an advocate for collaboration, innovation and multi-disciplinary study, and throughout his career he has been honored with numerous recognition for his teaching and research. Dr....
excellent hard to find course on manual truss design
Es un poco lento y a veces se equivoca y debe corregirse, pero está bien. Es normal.
Very informative and educational, however some stages could be broken down further and extra working included. Also, the errors need to be edited out.
Yes definitely
Yes. I need this course for EIT exam. Instructor is very knowledgeable. I learn a lot. Do you have a pdf file for the problems you discussed?
The methods to analyse forces in trusses were taught in a clear and concise manner. Highly recommended as a refresher for working professionals and will be a good reference course for engineering students.
I wanted to revise my old knowledge of truss design that I learnt as a student. The course is helping me beautifully to do that.
Great
Very easy simplistic presentation
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Ruben C.
Sweet and straight to the point!