STRUCTURAL ANALYSIS W/MOD MAST
STRUCTURAL ANALYSIS W/MOD MAST
10th Edition
ISBN: 9780134863375
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 W/MOD MAST, Chapter 9, Problem 9.1P , additional homework tip  1

The moment diagram is shown below.

STRUCTURAL ANALYSIS W/MOD MAST, 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 W/MOD MAST, 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 W/MOD MAST, 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 W/MOD MAST, 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 W/MOD MAST, 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 W/MOD MAST, 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 W/MOD MAST, Chapter 9, Problem 9.1P , additional homework tip  8

       Figure (6)

The moment diagram is shown below

STRUCTURAL ANALYSIS W/MOD MAST, Chapter 9, Problem 9.1P , additional homework tip  9

       Figure (7)

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