Structural Analysis (10th Edition)
Structural Analysis (10th Edition)
10th Edition
ISBN: 9780134840857
Author: HIBBELER
Publisher: PEARSON
Textbook Question
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Chapter 9, Problem 9.1P

Determine the reactions at the suooorts, then draw the shear and moment diagrams. Assume the support at A is fixed and B is a roller, EI is constant.

Chapter 9, Problem 9.1P, Determine the reactions at the suooorts, then draw the shear and moment diagrams. Assume the support

Expert Solution & Answer
Check Mark
To determine

The reactions at the supports and to draw the shear and moment diagrams.

Answer to Problem 9.1P

The vertical reaction at support A is 2400lb.

The horizontal reaction at support A is 0lb.

The reaction moment at support A is 4800lb-ft.

The vertical reaction at support B is 600lb.

The shear diagram is shown below.

Structural Analysis (10th Edition), Chapter 9, Problem 9.1P , additional homework tip  1

The moment diagram is shown below.

Structural Analysis (10th Edition), Chapter 9, Problem 9.1P , additional homework tip  2

Explanation of Solution

Concept Used:

Write the expression for the net force balance in the vertical direction of the beam.

FY=0 .. (I)

Here, FY is the sum of all the vertical forces.

Write the expression for the net force balance in the horizontal direction in the beam.

FX=0 .. (II)

Here, FX is the sum of all the horizontal forces.

Write the expression for the net moment about end A of the beam.

MA=0 .... (III)

Here, MA is the sum of all the moments taken about the end A.

Calculations:

The free body diagram for the beam is shown below.

Structural Analysis (10th Edition), Chapter 9, Problem 9.1P , additional homework tip  3

       Figure (1)

Here, the vertical reaction at point A is Ay, the vertical reaction at point B is By and the horizontal reaction at point A is Ax and the reaction moment at A is MA.

Calculate the support reactions using Equation (II).

Ay+By(500×122)lb=0Ay+By=(500×122)lbAy+By=3000lb. (IV)

The uniformly varying load is replaced by a concentrated force of magnitude 3000lb as shown below.

Structural Analysis (10th Edition), Chapter 9, Problem 9.1P , additional homework tip  4

       Figure (2)

Consider the moment at point A using Equation (III).

MA+(By×12)(3000×123)=0MA+12By12000=0 (V)

The displacement of the beam for the given load is shown below.

Structural Analysis (10th Edition), Chapter 9, Problem 9.1P , additional homework tip  5

       Figure (3)

Calculate the displacement of the beam for the given load.

vB'=wL430EI (VI)

Here, the displacement of the beam for the given load is vB'.

The displacement of the beam for the reaction at point B. is shown below.

Structural Analysis (10th Edition), Chapter 9, Problem 9.1P , additional homework tip  6

Calculate the displacement of the beam for the given load.

vB"=ByL33EI (VII)

Here, the displacement of the beam for the reaction at point B is vB".

Add Equation (VI) and Equation (VII) for the displacement values according to the compatibility condition.

vB'+vB"=0wL430EI+( B y L 33EI)=0ByL33EI=wL430EIBy=wL430EI×3EIL3

By=wL10 (VIII)

Substitute 500lb/ft for w and 12ft for L in Equation (VIII).

By=500lb/ft×12ft10By=600lb (IX)

Calculate the vertical reaction at A using Equation (IV).

Substitute 600lb for By in Equation (IV).

Ay+600lb=3000lbAy=2400lb

Calculate the bending moment at A using Equation (V).

Substitute 600lb for By in Equation (V).

MA+(12×600)lb-ft12000(lb-ft)=0MA=12000lb-ft(12×600)lb-ftMA=12000lb-ft7200lb-ftMA=4800lb-ft

Consider the beam as shown below.

Structural Analysis (10th Edition), Chapter 9, Problem 9.1P , additional homework tip  7

       Figure (5)

Write the equation to determine the shear in the beam.

V+By=0.5×x×500(x12)V+600=250x212V=250x212600 (X)

Calculate shear force at a distance x=0ft.

Substitute 0ft for x in Equation (V).

V=(250× 0 212600)lb=600lb

Calculate shear force at a distance x=3ft.

Substitute 3ft for x in Equation (V).

V=(250× 3 212600)lb=(225012600)lb=(187.5600)lb=412.5lb

Calculate shear force at a distance x=6ft.

Substitute 6ft for x in Equation (V).

V=(250× 6 212600)lb=(900012600)lb=(750600)lb=150lb

Calculate shear force at a distance x=9ft.

Substitute 9ft for x in Equation (V).

V=(250× 9 212600)lb=(2025012600)lb=(1687.5600)lb=1087.5lb

Calculate shear force at a distance x=12ft.

Substitute 12ft for x in Equation (V).

V=(250× 12 212600)lb=(3600012600)lb=(3000600)lb=2400lb

Substitute 0 for V in Equation (X) to get location of maximum moment.

0=250x212600250x212=600x2=600×12250x2=28.8ft2

x=5.366ft

Write the expression for the bending moment.

(600×x)(0.5×x×500x12)(x3)+M=0M=(0.5×x×500x12)(x3)(600×x)M=(250× x 336(600×x))lb-ft. (XI)

Calculate moment at a distance x=0ft.

Substitute 0 for x in Equation (XI).

M=(250× 0 336(600×0))lb-ft=0lb-ft

Calculate moment at a distance x=3ft.

Substitute 3ft for x in Equation (XI).

M=(250× 3 336(600×3))lb-ft=(6750361800)lb-ft=(187.51800)lb-ft=1612.5lb-ft

Calculate moment at a distance x=6ft.

Substitute 6ft for x in Equation (XI).

M=(250× 6 336(600×6))lb-ft=(54000363600)lb-ft=(15003600)lb-ft=2100lb-ft

Calculate moment at a distance x=9ft.

Substitute 9ft for x in Equation (XI).

M=(250× 9 336(600×9))lb-ft=(182250365400)lb-ft=(5062.55400)lb-ft=337.5lb-ft

Calculate moment at a distance x=12ft.

Substitute 12ft for x in Equation (XI).

M=(250× 12 336(600×12))lb-ft=(432000367200)lb-ft=(120007200)lb-ft=4800lb-ft

Calculate moment at a distance x=5.366ft.

Substitute 3ft for x in Equation (XI).

M=(250× 5.366 336(600×5.366))lb-ft=(38627.091363219.6)lb-ft=(1072.973219.6)lb-ft=2146.63lb-ft

Conclusion:

The vertical reaction at support A is 2400lb.

The horizontal reaction at support A is 0lb.

The reaction moment at support A is 4800lb-ft.

The vertical reaction at support B is 600lb.

The shear diagram is shown below

Structural Analysis (10th Edition), Chapter 9, Problem 9.1P , additional homework tip  8

       Figure (6)

The moment diagram is shown below

Structural Analysis (10th Edition), Chapter 9, Problem 9.1P , additional homework tip  9

       Figure (7)

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