A double tee cross section is used for the beam shown below. Assume the following lengths and loads:a = 16 ftb = 8 ftc = 12 ftP= 9000 lbQ = 3000 IbThe moment of inertia of the cross section is l, = 110 in.“. Determine the magnitude (i.e., the absolute value) of the maximum tensilebending stress in the beam.3.2 in.BCD5.8 in.Answer:Omax (Tension) :ipsi

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Answered: bie tee croSs section Is used for the…

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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need help engineering of materials
Parvinbhai
Please help. Written on paper not typed on computer please. Need help on all questions. Please include all units, steps to the problem and information such as its direction or if it is in compression or tension. Thx.
41. The wide-flange I beam as shown is 20 ft. long. It is fixed at one end and free at the other. A twisting moment of 30,000 lb-in. is applied at the free end. If E=30×10° psi and G =12x10° psi, compute the maximum normal and shearing stresses due to bending and the maximum shearing stress due to twist. What is the angle of twist of the beam at the free end? 10.5" 1.368" 0.845" 10" prob 41
The cross-sectional dimensions of a beam are shown. Assume b=3 in., tetw=0.4375 in. and d=3.375 in. (a) If the bending stress at point K is 1860 psi (T), determine the internal bending moment M, acting about the z centroidal axis of the beam. (b) Determine the bending stress oH at point H (positive if tension, negative if compression). K d H bf Answers: (a) M2 = i Ib-ft. ( b) σμ i psi. %3D Save for Later Attempts: 0 of 1 used Submit Answer
. A horizontal beam with a rectangular cross section (2 inch x 6 inch) is loaded as shown with P1= 5 kipsand P2 = 10 kips. Determine the maximum normal stress in the beam

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