A tubular beam ACB of length L=60in. is pin supported at its ends and loaded by an inclined force P at midlength. The distance from the point of application of the load P to the longitudinal axis of the tube is d= 5.5in. Since the support at B prevents vertical displacement but offers no resistance to horizontal displacement. The cross section of the tube is square with outer dimension b=6in. and A=20in2. And moment of inertia l=86.67in4.Determine the maximum tensile stresses (Psi) in the beam due to a load P=900 lb. d-5.5 in. b-6 in. 60 O a. 424 O b. 385 C. None O d. 347 e. 299 O O
A tubular beam ACB of length L=60in. is pin supported at its ends and loaded by an inclined force P at midlength. The distance from the point of application of the load P to the longitudinal axis of the tube is d= 5.5in. Since the support at B prevents vertical displacement but offers no resistance to horizontal displacement. The cross section of the tube is square with outer dimension b=6in. and A=20in2. And moment of inertia l=86.67in4.Determine the maximum tensile stresses (Psi) in the beam due to a load P=900 lb. d-5.5 in. b-6 in. 60 O a. 424 O b. 385 C. None O d. 347 e. 299 O O
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Transcribed Image Text:A tubular beam ACB of length L=60in. is pin supported at its ends and loaded by an inclined force P at midlength. The
distance from the point of application of the load P to the longitudinal axis of the tube is d= 5.5in. Since the support at
B prevents vertical displacement but offers no resistance to horizontal displacement. The cross section of the tube is
square with outer dimension b=6in. and A=20in2. And moment of inertia l=86.67in4.Determine the maximum tensile
stresses (Psi) in the beam due to a load P=900 Ib.
b-6 in.
d- 5.5 in.
b- 6 in.
60
O a. 424
Оь. 385
O c.
None
O d. 347
O e.
299
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