HW #24-5 The link, which has a rectangular cross section, is subjected to an axial load. From a front view, the link is pinned-connected at both ends. From a side view, the link is fixed-connected at both ends. Determine the maximum axial load which can be applied given a factor of safety against failure (buckling or yielding), F.S. L = 10 in d = 0.8 in t = 0.2 in E = 29,000 ksi F.S. = 2 oy = 50 ksi Ans: P = 3.05 kips (Prob. 10.2-HW1) P P FRONT L SIDE Buckled shape
HW #24-5 The link, which has a rectangular cross section, is subjected to an axial load. From a front view, the link is pinned-connected at both ends. From a side view, the link is fixed-connected at both ends. Determine the maximum axial load which can be applied given a factor of safety against failure (buckling or yielding), F.S. L = 10 in d = 0.8 in t = 0.2 in E = 29,000 ksi F.S. = 2 oy = 50 ksi Ans: P = 3.05 kips (Prob. 10.2-HW1) P P FRONT L SIDE Buckled shape
Mechanics of Materials (MindTap Course List)
9th Edition
ISBN:9781337093347
Author:Barry J. Goodno, James M. Gere
Publisher:Barry J. Goodno, James M. Gere
Chapter11: Columns
Section: Chapter Questions
Problem 11.3.21P: A pinned-end strut of aluminum (E = 10,400 ksi) with a length L = 6 ft is constructed of circular...
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![HW #24-5
The link, which has a rectangular cross section, is subjected to an axial load. From a
front view, the link is pinned-connected at both ends. From a side view, the link is
fixed-connected at both ends. Determine the maximum axial load which can be
applied given a factor of safety against failure (buckling or yielding), F.S.
L = 10 in
d = 0.8 in
t = 0.2 in
E = 29,000 ksi
F.S. = 2
Oy = 50 ksi
Ans: P = 3.05 kips
(Prob. 10.2-HW1)
P
P
FRONT
SIDE
Buckled shape
t](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F817da99b-7138-4f7f-8362-6567968c9c93%2Ff12c6891-dfdb-4bb2-b0d1-b1a32c30b279%2Fym4odem_processed.jpeg&w=3840&q=75)
Transcribed Image Text:HW #24-5
The link, which has a rectangular cross section, is subjected to an axial load. From a
front view, the link is pinned-connected at both ends. From a side view, the link is
fixed-connected at both ends. Determine the maximum axial load which can be
applied given a factor of safety against failure (buckling or yielding), F.S.
L = 10 in
d = 0.8 in
t = 0.2 in
E = 29,000 ksi
F.S. = 2
Oy = 50 ksi
Ans: P = 3.05 kips
(Prob. 10.2-HW1)
P
P
FRONT
SIDE
Buckled shape
t
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