Part B - Determine Necessary Beam Width is generally less specific than the bending-moment specification, so it is used as the secondary design consideration. Determine the minimum width, w, of the beam that will safely support the loading P= 4 kip. The beam is 40 ft long from the pin support to the point where P is applied, 6 in tall, has a rectangular cross-section, and made of a material that has a maximum allowable bending stress of gallor = 22 ksi and a maximum allowable shear stress of Tallow = 0.7 ksi. (Figure 2) igure 2 of 3 Express your answer to three significant figures. • View Available Hint(s) P L vec ? 14.54 in
Part B - Determine Necessary Beam Width is generally less specific than the bending-moment specification, so it is used as the secondary design consideration. Determine the minimum width, w, of the beam that will safely support the loading P= 4 kip. The beam is 40 ft long from the pin support to the point where P is applied, 6 in tall, has a rectangular cross-section, and made of a material that has a maximum allowable bending stress of gallor = 22 ksi and a maximum allowable shear stress of Tallow = 0.7 ksi. (Figure 2) igure 2 of 3 Express your answer to three significant figures. • View Available Hint(s) P L vec ? 14.54 in
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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part b and c of question. Part a has no info needed for these parts
Transcribed Image Text:Part B - Determine Necessary Beam Width
is generally less specific than the bending-moment specification, so it is
used as the secondary design consideration.
Determine the minimum width, w, of the beam that will safely support the loading P= 4 kip. The beam is 40 ft long from the pin support to the point where P is applied, 6 in tall, has a
rectangular cross-section, and made of a material that has a maximum allowable bending stress of gallor = 22 ksi and a maximum allowable shear stress of Tallow = 0.7 ksi. (Figure 2)
igure
2 of 3
Express your answer to three significant figures.
• View Available Hint(s)
P
L
vec
?
14.54
in
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