You have been provided with the below schematic design of a concrete beam that might be implemented at one of the sites. 'Answer the following: KN KN KN 40 KN 16 20 Figure 1: Concrete Beam 1. Find the equivalent forces of the disturbed loads. 2. Sketch the beam showing all the applied forces (reaction and equivalent forces) and their suitable locations. 3. Apply the moment equations in the equilibrium state to find the value of the reaction forces at points A and B. 4. If the given beam in Figure 1 compressed to be 19.98 meter where the original temperature was T1=200 K, find the temperature (T2) after the compression.

Structural Analysis
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ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
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You have been provided with the below schematic design of a concrete beam that might be implemented at
one of the sites. 'Answer the following:
KN
KN
KN
40
KN
16
20
Figure 1: Concrete Beam
1. Find the equivalent forces of the disturbed loads.
2. Sketch the beam showing all the applied forces (reaction and equivalent forces) and their suitable
locations.
3. Apply the moment equations in the equilibrium state to find the value of the reaction forces at
points A and B.
4. If the given beam in Figure 1 compressed to be 19.98 meter where the original temperature was
T1=200 K, find the temperature (T2) after the compression.
Transcribed Image Text:You have been provided with the below schematic design of a concrete beam that might be implemented at one of the sites. 'Answer the following: KN KN KN 40 KN 16 20 Figure 1: Concrete Beam 1. Find the equivalent forces of the disturbed loads. 2. Sketch the beam showing all the applied forces (reaction and equivalent forces) and their suitable locations. 3. Apply the moment equations in the equilibrium state to find the value of the reaction forces at points A and B. 4. If the given beam in Figure 1 compressed to be 19.98 meter where the original temperature was T1=200 K, find the temperature (T2) after the compression.
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