430 mm 430 mm 32 mm C LA 600 mm d%3D0.75m 300 mm 150 mm D (b) Top view 64 mm X 64 mm X 3 mm B y 600 mm D 430 mm 900 mm (a) PROB. 30 31. Determine the maximum tensile, compressive, and shear stresses acting on the cross section of the tube at point A of the hitch bicycle rack shown in the figure. The rack is made up of 50 mm X 50 mm steel tubing which is 3 mm thick. Assume that the weight of each of four bicycles is distributed evenly between the two support arms so that the rack can be represented as a cantilero beam (ABCDEF) in the x-y plane. The overall weight of the rack alone is W 270 N directed through C, and tie weight of each bicycle is B = 135 N.
430 mm 430 mm 32 mm C LA 600 mm d%3D0.75m 300 mm 150 mm D (b) Top view 64 mm X 64 mm X 3 mm B y 600 mm D 430 mm 900 mm (a) PROB. 30 31. Determine the maximum tensile, compressive, and shear stresses acting on the cross section of the tube at point A of the hitch bicycle rack shown in the figure. The rack is made up of 50 mm X 50 mm steel tubing which is 3 mm thick. Assume that the weight of each of four bicycles is distributed evenly between the two support arms so that the rack can be represented as a cantilero beam (ABCDEF) in the x-y plane. The overall weight of the rack alone is W 270 N directed through C, and tie weight of each bicycle is B = 135 N.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
Related questions
Question
Within few minutes
![430 mm
430 mm
32 mm
B
JA
600 mm
d%3D0.75 m-
Q'
300 mm
150 mm
(b) Top view
64 mm X 64 mm X 3 mm
y
600 mm
D
430 mm
900 mm
(a)
PROB. 30
31. Determine the maximum tensile, compressive, and shear stresses acting on the cross section of the tube at
point A of the hitch bicycle rack shown in the figure.
The rack is made up of 50 mm X 50 mm steel tubing which is 3 mm thick. Assume that the weight of each of
four bicycles is distributed evenly between the two support arms so that the rack can be represented
beam (ABCDEF) in the x-y plane. The overall weight of the rack alone is W = 270 N directed through C, and te
weight of each bicycle is B = 135 N.
as a cantilever](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F92a22be9-7da1-40d5-8b1b-a5abb83f7105%2Fb31767c8-a79a-4c61-947c-bf6dc14b6630%2F4zxxu25_processed.jpeg&w=3840&q=75)
Transcribed Image Text:430 mm
430 mm
32 mm
B
JA
600 mm
d%3D0.75 m-
Q'
300 mm
150 mm
(b) Top view
64 mm X 64 mm X 3 mm
y
600 mm
D
430 mm
900 mm
(a)
PROB. 30
31. Determine the maximum tensile, compressive, and shear stresses acting on the cross section of the tube at
point A of the hitch bicycle rack shown in the figure.
The rack is made up of 50 mm X 50 mm steel tubing which is 3 mm thick. Assume that the weight of each of
four bicycles is distributed evenly between the two support arms so that the rack can be represented
beam (ABCDEF) in the x-y plane. The overall weight of the rack alone is W = 270 N directed through C, and te
weight of each bicycle is B = 135 N.
as a cantilever
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