During your investigation and research into simple truss/framework design you are required to comprehensively report on the following: 1. Understand and explain what is meant by the term 'two-dimensional framework. 2. Understand and explain the stability concepts of a framework. 3. Understand the nature of the forces and stresses induced in the members of a two- dimensional framework due to externally applied loads. 4. Be familiar with the various methods of calculating internal forces in the members of simple trusses. 5. Derive expressions for the state of frameworks with or without foundations. 6. Using the knowledge gained from your research into two-dimensional frameworks and modules such as stress and strain, you must be able to correctly and accurately calculate the required design values as stipulated by the client's specifications. 7. Present all the above, i.e. your designs, calculations and findings in a comprehensive technical report as per Professional Communication Studies (PFC150S/PFC150X). Details for the bridge truss design: b h 9 8kN 6kN 6kN d A Warren girder bridge truss that will be subjected to loads as shown above is to be designed and analysed for the client. All triangles are to be equilateral triangles and member a-b is 2 m long. As per the design requirements the following needs to be calculated: • State the nature of the framework. • Calculate the reactions at the supports.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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During your investigation and research into simple truss/framework design you are
required to comprehensively report on the following:
1. Understand and explain what is meant by the term 'two-dimensional framework.
2. Understand and explain the stability concepts of a framework.
3. Understand the nature of the forces and stresses induced in the members of a two-
dimensional framework due to externally applied loads.
4. Be familiar with the various methods of calculating internal forces in the members
of simple trusses.
5. Derive expressions for the state of frameworks with or without foundations.
6. Using the knowledge gained from your research into two-dimensional
frameworks and modules such as stress and strain, you must be able to correctly
and accurately calculate the required design values as stipulated by the client's
specifications.
7. Present all the above, i.e. your designs, calculations and findings in a
comprehensive technical report as per Professional Communication Studies
(PFC150S/PFC150X).
Details for the bridge truss design:
b
h
9
8kN
6kN
6kN
d
A Warren girder bridge truss that will be subjected to loads as shown above is to be
designed and analysed for the client. All triangles are to be equilateral triangles and
member a-b is 2 m long. As per the design requirements the following needs to be
calculated:
• State the nature of the framework.
•
Calculate the reactions at the supports.
Transcribed Image Text:During your investigation and research into simple truss/framework design you are required to comprehensively report on the following: 1. Understand and explain what is meant by the term 'two-dimensional framework. 2. Understand and explain the stability concepts of a framework. 3. Understand the nature of the forces and stresses induced in the members of a two- dimensional framework due to externally applied loads. 4. Be familiar with the various methods of calculating internal forces in the members of simple trusses. 5. Derive expressions for the state of frameworks with or without foundations. 6. Using the knowledge gained from your research into two-dimensional frameworks and modules such as stress and strain, you must be able to correctly and accurately calculate the required design values as stipulated by the client's specifications. 7. Present all the above, i.e. your designs, calculations and findings in a comprehensive technical report as per Professional Communication Studies (PFC150S/PFC150X). Details for the bridge truss design: b h 9 8kN 6kN 6kN d A Warren girder bridge truss that will be subjected to loads as shown above is to be designed and analysed for the client. All triangles are to be equilateral triangles and member a-b is 2 m long. As per the design requirements the following needs to be calculated: • State the nature of the framework. • Calculate the reactions at the supports.
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