EBK MECHANICS OF MATERIALS
EBK MECHANICS OF MATERIALS
7th Edition
ISBN: 8220100257063
Author: BEER
Publisher: YUZU
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Chapter 5.2, Problem 48P
To determine

The maximum normal stress due to bending on section a-a.

Expert Solution & Answer
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Answer to Problem 48P

The maximum normal stress due to bending on section a-a is 139.2MPa_.

Explanation of Solution

Show the free-body diagram of the entire beam as in Figure 1.

EBK MECHANICS OF MATERIALS, Chapter 5.2, Problem 48P

Determine the vertical reaction at point A by taking moment about point B.

MB=030(0.8)+50(1.6)+50(2.4)+30(3.2)Ay(4)=024+80+120+964Ay=0Ay=80kN

Determine the vertical reaction at point B by resolving the vertical component of forces.

Fy=0Ay30505030+By=080160+By=0By=80kN

Determine the horizontal direction at point A by resolving the horizontal component of forces.

Fx=0Ax=0

Shear force:

Show the calculation of shear force as follows;

VA=+80kN

V0.8mVA=0V0.8mLeft=VA=80kN

V0.8Right=8030=50kN

V1.6mV0.8m=30V1.6mLeft=30+V0.8=30+80=50kN

V1.6mRight=5050=0

V2.4mV1.6m=50V2.4mLeft=50+V1.6m=50+50=0

V2.4mRight=050=50kN

V3.2mV2.4m=50V3.2Left=50+V2.4m=50+0=50kN

V3.2Right=5030=80kN

VBV3.2m=30VB=30+V3.2m=3050=80kN

Bending moment:

Show the calculation of bending moment as follows;

MA=0

M0.8mMA=80×0.8M0.8m=64+MA=64kN-m

M1.6mM0.8m=50×0.8M1.6m=40+M0.8m=40+64=104kN-m

MaaM1.6m=0Maa=0+M1.6m=0+104=104kN-m

M2.4mM1.6m=0M2.4m=M1.6m=104kN-m

M3.2mM2.4m=50×0.8M3.2m=40+M2.4m=40+104=64kN-m

MB=0

The bending moment at the section a-a is |Maa|=104kNm.

Refer to Appendix C “Properties of Rolled-Steel Sections” in the textbook.

The section modulus for W310×52 section is S=747×103mm3.

Determine the maximum normal stress (σm) using the equation.

σm=|M|S

Substitute 104kNm for M and 747×103mm3 for S.

σm=104kNm×1,000N1kN747×103mm3×(1m1,000mm)3=139.2×106Pa×1MPa106Pa=139.2MPa

Therefore, the maximum normal stress due to bending on section a-a is 139.2MPa_.

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Chapter 5 Solutions

EBK MECHANICS OF MATERIALS

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