The frame supports a cylindrical container containing money, the container with the money weighs around 2700 kg. 1. Determine support reactions at G and H. 2. Determine the internal force in bar GM. 3. Determine the internal forces and the internal moment at section k-k' 4. Bar GM allowable normal stress: 150 MPa Bolt G allowable shearing stress: 33 MPa Supports at G allowable bearing stress: 60 MPa Using a factor of safety of 3, what are the minimum values for the following dimensions. a. Diameter of bolt G. b. Thickness of the supports. C. Dimension of bar GM. 5. Suppose bar GM behaves in a linear-elastic manner (Young's modulus = 200 GPa, Modulus of Rigidity = 75 GPa), determine the change in cross-sectional area of the midpoint of the bar in mm².

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
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0.15m
0.75m
0.60m
H
1.00m
M
1.50m
Figure 1: Representation of the frame system
T
0.60m
Figure 2: Detailing of support G
30mm
20mm
Transcribed Image Text:0.15m 0.75m 0.60m H 1.00m M 1.50m Figure 1: Representation of the frame system T 0.60m Figure 2: Detailing of support G 30mm 20mm
The frame supports a cylindrical container containing money, the container with the money weighs
around 2700 kg.
1. Determine support reactions at G and H.
2. Determine the internal force in bar GM.
Determine the internal forces and the internal moment at section k-k'
Bar GM allowable normal stress: 150 MPa
Bolt G allowable shearing stress: 33 MPa
Supports at G allowable bearing stress: 60 MPa
3.
4.
Using a factor of safety of 3, what are the minimum values for the following dimensions.
a. Diameter of bolt G.
b. Thickness of the supports.
C. Dimension of bar GM.
5. Suppose bar GM behaves in a linear-elastic manner (Young's modulus = 200 GPa, Modulus of
Rigidity = 75 GPa), determine the change in cross-sectional area of the midpoint of the bar in
mm².
Transcribed Image Text:The frame supports a cylindrical container containing money, the container with the money weighs around 2700 kg. 1. Determine support reactions at G and H. 2. Determine the internal force in bar GM. Determine the internal forces and the internal moment at section k-k' Bar GM allowable normal stress: 150 MPa Bolt G allowable shearing stress: 33 MPa Supports at G allowable bearing stress: 60 MPa 3. 4. Using a factor of safety of 3, what are the minimum values for the following dimensions. a. Diameter of bolt G. b. Thickness of the supports. C. Dimension of bar GM. 5. Suppose bar GM behaves in a linear-elastic manner (Young's modulus = 200 GPa, Modulus of Rigidity = 75 GPa), determine the change in cross-sectional area of the midpoint of the bar in mm².
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