For the section shown in Figure 7, the maximum compressive stress is:3,000 psib. 5,000 psi c.2,000 psi d.a.3 in5 inN.A.6 inTi6 inI= 136 in2 inFigure 74,000 psiM = 136,000 in-lb

M=136000 lb-in I=136 in4 yc=3in yt=5in To find maximum compressive stress

Answered: a. 3 in 5 in 3,000 psi N.A. b. 6 in…

Engineering

Civil Engineering

a. 3 in 5 in 3,000 psi N.A. b. 6 in I=136 in 5,000 psi 2 in 6 in 2,000 psi d. 4,000 psi B. Figure 7 M= 136.0

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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Concept explainers

Design of structures using FEA

An arrangement, in which various members are interconnected with their constrained relative motion, the whole arrangement is then known as a structure. The degree of freedom of such a structure is zero. In such a structure, the load can act throughout the length of the structure or at the joints.

Question

For the section shown in Figure 7, the maximum compressive stress is:
3,000 psi
b. 5,000 psi c.
2,000 psi d.
a.
3 in
5 in
N.A.
6 in
Ti
6 in
I= 136 in
2 in
Figure 7
4,000 psi
M = 136,000 in-lb

Expert Solution

Step 1

M=136000 lb-in

I=136 in⁴

y_c=3in

y_t=5in

To find maximum compressive stress

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