Determine the maximum flexural normal stress and maximum transverse shear stress for a beam with loading and cross-section as shown below. 170 kip 14 in Tmaxx y 1.5 in = 3 ft- 10 in 10 in Check your work: 13.7 ksi 12 in B 20 ft*kip -3 ft- ↑ 뇨 35 kip/ft 6 ft-

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
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Reflection:
Be sure to understand where along the span length the greatest flexural normal stress and greatest
transverse shear stress will occur.
Be sure to understand where within the cross section the greatest flexural normal stress and greatest
transverse shear stress will occur.
Consider what aspects of the cross-section geometry most impact its moment of inertia and how moment of
inertia impacts stress magnitudes. For example, what changes could be made, without increasing the total
amount of material, to increase the moment of inertia, and how would such changes affect the stress on the
material?
Transcribed Image Text:Reflection: Be sure to understand where along the span length the greatest flexural normal stress and greatest transverse shear stress will occur. Be sure to understand where within the cross section the greatest flexural normal stress and greatest transverse shear stress will occur. Consider what aspects of the cross-section geometry most impact its moment of inertia and how moment of inertia impacts stress magnitudes. For example, what changes could be made, without increasing the total amount of material, to increase the moment of inertia, and how would such changes affect the stress on the material?
Determine the maximum flexural normal stress and maximum transverse shear stress for a beam with
loading and cross-section as shown below.
170 kip
14
in
Tmaxx
y
1.5 in
=
3 ft-
10 in
10 in
Check your work:
13.7 ksi
12 in
B
20 ft*kip
-3 ft-
↑
뇨
35 kip/ft
6 ft-
Transcribed Image Text:Determine the maximum flexural normal stress and maximum transverse shear stress for a beam with loading and cross-section as shown below. 170 kip 14 in Tmaxx y 1.5 in = 3 ft- 10 in 10 in Check your work: 13.7 ksi 12 in B 20 ft*kip -3 ft- ↑ 뇨 35 kip/ft 6 ft-
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Hi!! Thank you so much for your response, could you help me with the reflection questions to understand the thought process behind it??

Reflection:
Be sure to understand where along the span length the greatest flexural normal stress and greatest
transverse shear stress will occur.
Be sure to understand where within the cross section the greatest flexural normal stress and greatest
transverse shear stress will occur.
Consider what aspects of the cross-section geometry most impact its moment of inertia and how moment of
inertia impacts stress magnitudes. For example, what changes could be made, without increasing the total
amount of material, to increase the moment of inertia, and how would such changes affect the stress on the
material?
Transcribed Image Text:Reflection: Be sure to understand where along the span length the greatest flexural normal stress and greatest transverse shear stress will occur. Be sure to understand where within the cross section the greatest flexural normal stress and greatest transverse shear stress will occur. Consider what aspects of the cross-section geometry most impact its moment of inertia and how moment of inertia impacts stress magnitudes. For example, what changes could be made, without increasing the total amount of material, to increase the moment of inertia, and how would such changes affect the stress on the material?
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