Properties: Rod 1 8F D = 40 mm d = 20 mm L = 1.3 meter E = 80 Gpa ROD 1 ROD 2 Rod 2 D = 80 mm d = 20 mm L = 1.0 meters E = 80 Gpa 3F 2. The composite rod shown in the figure is composed of three rods rigidly welded together. Applied forces in terms of "F" are exerted in different parts of the composite rod. Compute the maximum safest value of "F" if the allowable total deformation of the composite rod is limited to 0.50 mm only. ROD 3 2F Rod 3 D = 60 mm d = 20 mm L = 1.2 meters E = 80 GPa 7F
Properties: Rod 1 8F D = 40 mm d = 20 mm L = 1.3 meter E = 80 Gpa ROD 1 ROD 2 Rod 2 D = 80 mm d = 20 mm L = 1.0 meters E = 80 Gpa 3F 2. The composite rod shown in the figure is composed of three rods rigidly welded together. Applied forces in terms of "F" are exerted in different parts of the composite rod. Compute the maximum safest value of "F" if the allowable total deformation of the composite rod is limited to 0.50 mm only. ROD 3 2F Rod 3 D = 60 mm d = 20 mm L = 1.2 meters E = 80 GPa 7F
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Transcribed Image Text:Properties:
Rod 1
8F
D = 40 mm
d = 20 mm
L = 1.3 meter
E = 80 Gpa
ROD 1
ROD 2
Rod 2
D = 80 mm
d = 20 mm
L = 1.0 meters
E = 80 Gpa
3F
2. The composite rod shown in the figure is composed of three rods rigidly welded together.
Applied forces in terms of "F" are exerted in different parts of the composite rod. Compute the
maximum safest value of "F" if the allowable total deformation of the composite rod is limited to
0.50 mm only.
ROD 3
2F
Rod 3
D = 60 mm
d = 20 mm
L = 1.2 meters
E = 80 GPa
7F
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