Fundamentals of Structural Analysis
Fundamentals of Structural Analysis
5th Edition
ISBN: 9780073398006
Author: Kenneth M. Leet Emeritus, Chia-Ming Uang, Joel Lanning
Publisher: McGraw-Hill Education
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Chapter 12, Problem 1P
To determine

Draw the influence lines for the reaction at A.

Draw the influence lines for the shear and moment at points B and C.

Expert Solution & Answer
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Explanation of Solution

Determine the general expression of reaction RA.

Apply a 1 kip unit load between supports A and D at a distance of x from left end A.

Sketch the free body diagram of beam as shown in Figure 1.

Fundamentals of Structural Analysis, Chapter 12, Problem 1P , additional homework tip  1

Refer Figure 1.

Find the equation of support reaction at A using equilibrium equation:

Take moment about point D.

Consider moment equilibrium at point D.

Consider clockwise moment as negative and anticlockwise moment as positive

Sum of moment at point D is zero.

ΣMD=0RA(20)1(20x)=020RA=20xRA=1x20        (1)

Find the value of influence line ordinate at x=0 of reaction RA at support A.

Substitute 0 for x in Equation (1).

RA=1020=1

Similarly calculate the influence line ordinate of reaction RA for x=5,10,and20m and summarize the result in Table 1.

x (ft)RA
01
534
1012
200

Draw the influence line diagram for the vertical reactions at support A using Table 1 as shown in Figure 2.

Fundamentals of Structural Analysis, Chapter 12, Problem 1P , additional homework tip  2

Find the equation of shear force at B of portion AB (0x<5ft).

Sketch the free body diagram of the section AB as shown in Figure 3.

Fundamentals of Structural Analysis, Chapter 12, Problem 1P , additional homework tip  3

Refer Figure 3.

Apply vertical equilibrium equation of forces.

Consider upward force as positive (+) and downward force as negative ().

ΣFy=0

RAVB1=0VB=RA1VB=1x201VB=x20

Find the equation of shear force at B of portion BD (5ft<x20ft).

Sketch the free body diagram of the section BD as shown in Figure 4.

Fundamentals of Structural Analysis, Chapter 12, Problem 1P , additional homework tip  4

Refer Figure 4.

Apply vertical equilibrium equation of forces.

Consider upward force as positive (+) and downward force as negative ().

ΣFy=0

RAVB=01x20VB=0VB=1x20

Thus, the equations of the influence line for VB are,

VB=x20 0x<5ft        (2)

VB=1x20 5ft<x20ft        (3)

Find the value of influence line ordinate of shear force at B various points of x using the Equations (2) and (3) and summarize the value as in Table 2.

x (ft)VB
00
514
5+34
1012
200

Draw the influence lines for the shear force at point B using Table 2 as shown in Figure 5.

Fundamentals of Structural Analysis, Chapter 12, Problem 1P , additional homework tip  5

Refer Figure 3.

Consider clockwise moment as negative and anticlockwise moment as positive.

Find the equation of moment at B of portion AB (0x<5ft).

MB=RA(5)(1)(5x)=(1x20)(5)5+x=5x45+x=3x4

Refer Figure 4.

Consider clockwise moment as negative and anticlockwise moment as positive.

Find the equation of moment at B of portion BD (5ft<x20ft).

MB=RA(5)=(1x20)(5)=5x4

Thus, the equations of the influence line for MB are,

MB=3x4 0x<5ft        (4)

MB=5x4 5ft<x20ft        (5)

Find the value of influence line ordinate of moment at B various points of x using the Equations (4) and (5) and summarize the value as in Table 3.

x (ft)MB
00
5154
200

Draw the influence lines for the moment at point B using Table 3 as shown in Figure 6.

Fundamentals of Structural Analysis, Chapter 12, Problem 1P , additional homework tip  6

Find the equation of shear force at C of portion AC (0x<10ft).

Sketch the free body diagram of the section AC as shown in Figure 7.

Fundamentals of Structural Analysis, Chapter 12, Problem 1P , additional homework tip  7

Refer Figure 7.

Apply vertical equilibrium equation of forces.

Consider upward force as positive (+) and downward force as negative ().

ΣFy=0

RAVC1=0VB=RA1VC=1x201VC=x20

Find the equation of shear force at C of portion CD (10ft<x20ft).

Sketch the free body diagram of the section CD as shown in Figure 8.

Fundamentals of Structural Analysis, Chapter 12, Problem 1P , additional homework tip  8

Refer Figure 8.

Apply equilibrium equation of forces.

Consider upward force as positive (+) and downward force as negative ().

ΣFy=0

RAVC=01x20VC=0VC=1x20

Thus, the equations of the influence line for VC are,

VC=x20 0x<10ft        (6)

VC=1x20 10ft<x20ft        (7)

Find the value of influence line ordinate of shear force at C various points of x using the Equations (6) and (7) and summarize the value as in Table 4.

x (ft)VC
00
514
1012
10+12
200

Draw the influence lines for the shear force at point C using Table 4 as shown in Figure 9.

Fundamentals of Structural Analysis, Chapter 12, Problem 1P , additional homework tip  9

Refer Figure 7.

Consider clockwise moment as negative and anticlockwise moment as positive.

Find the equation of moment at C of portion AC (0x<10ft).

MC=RA(10)(1)(10x)=(1x20)(10)10+x=10x210+x=x2

Refer Figure 4.

Consider clockwise moment as negative and anticlockwise moment as positive.

Find the equation of moment at C of portion CD (10ft<x20ft).

MB=RA(10)=(1x20)(10)=10x2

Thus, the equations of the influence line for MC are,

MC=x2 0x<10ft        (8)

MC=10x2 10ft<x20ft        (9)

Find the value of influence line ordinate of moment at C various points of x using the Equations (8) and (9) and summarize the value as in Table 5.

x (ft)MC (k-ft/k)
00
52.5
105
200

Draw the influence lines for the moment at point C using Table 5 as shown in Figure 10.

Fundamentals of Structural Analysis, Chapter 12, Problem 1P , additional homework tip  10

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