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
Question
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Chapter 10, Problem 29P
To determine

Analyze the frame and compute all the reactions.

Expert Solution & Answer
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Explanation of Solution

Given information;

The moment of inertia of the member BC is 200in.4.

The moment of inertial of the member AB and CD is 150in.4.

The moment acting at B is 100kips-ft.

Apply the sign conventions for calculating reactions using the three equations of equilibrium as shown below.

  • For summation of forces along x-direction is equal to zero (Fx=0), consider the forces acting towards right side as positive (+) and the forces acting towards left side as negative ().
  • For summation of forces along y-direction is equal to zero (Fy=0), consider the upward force as positive (+) and the downward force as negative ().
  • For summation of moment about a point is equal to zero (Matapoint=0), consider the clockwise moment as positive and the counter clockwise moment as negative.

Determine the deflection position AB, BC, and CD as follows:

ψAB=Δ25=ψψBC=35ΔV25=34ψψCD=35ΔH20=Δ25=ψ

Set the relative stiffness to 20E=K.

Determine the stiffness factor for each member as shown below;

KAB=EIL=(K10)(150)25=35K

KBC=EIL=(K10)(200)20=K

KCD=EIL=(K10)(150)20=34K

Determine the end moment moments of each member shown below;

MAB=2EIL(2θA+θB3ψ)=2(35K)(2θA+θB3(ψ))=2.4KθA+1.2KθB+3.6KψMBA=2EIL(2θB+θA3ψ)=2(35K)(2θB+θA3(ψ))=2.4KθB+1.2KθA+3.6Kψ

Determine the end moment moments of each member shown below;

MBC=2EIL(2θB+θC3ψBC)=2(K)(2θB+θC3(34ψ))=4KθB+2KθC1.5KψMCB=2EIL(2θC+θB3ψBC)=2(K)(2θC+θB3(34ψ))=4KθC+2KθB4.5Kψ

MCD=2EIL(2θC+θD3ψCD)=2(34K)(2θC+03ψ)=3KθC4.5KψMDC=2EIL(2θD+θC3ψ)=2(34K)(2(0)+θC3ψ)=1.5KθC4.5Kψ

Show the free body diagram of the frame and point O as in Figure (1).

Fundamentals of Structural Analysis, Chapter 10, Problem 29P , additional homework tip  1

Apply Equation of equilibrium at A;

MAB=02.4KθA+1.2KθB+3.6Kψ=02.4θA+1.2θB+3.6ψ=0        (1)

Apply Equation of equilibrium at joint B;

MBA+MBC100=02.4KθB+1.2KθA+3.6Kψ+4KθB+2KθC1.5Kψ=10065θA+325θB+2θC910ψ=100K        (2)

Apply Equation of equilibrium at joint C;

MCB+MCD=04KθC+2KθB4.5Kψ+3KθC4.5Kψ=07KθC+2KθB9Kψ=0        (3)

Refer Figure (1).

Take moment about point O;

Fx=0MBA25(58.33)+100+MDC+MCD+MDC20=0[(2.4KθB+1.2KθA+3.6Kψ)25(58.33)+100+(1.5KθC4.5Kψ)+(3KθC4.5Kψ)+(1.5KθC4.5Kψ)20]=02.8KθA5.6KθB+3KθC15.9Kψ=100ψ        (4)

Solve Equation (1), (2), (3), and (4).

θA=10.158KθB=19.136KθC=4.938Kψ=0.412K

Hence, the slope at A is 10.158K_.

Hence, the slope at B is 19.136K_.

Hence, the slope at C is 4.938K_.

Determine the end moments of each member as shown below;

MAB=2.4K(10.158K)+1.2K(19.136K)+3.6K(0.412K)0MBA=2.4K(19.136K)+1.2K(10.158K)+3.6K(0.412K)=35.22kips-ft

MBC=4K(19.136K)+2K(4.938K)1.5K(0.412K)=66.05kips-ftMCB=4K(4.938K)+2K(19.136K)4.5K(0.412K)=16.67kips-ft

MCD=3K(4.938K)4.5K(0.412K)=16.67kips-ftMDC=1.5K(4.938K)4.5K(0.412K)=9.26kips-ft

Hence, the end moment of member AB is zero_.

Hence, the end moment of member BA is 35.22kips-ft_.

Hence, the end moment of member BC is 66.05kips-ft_.

Hence, the end moment of member CB is 16.67kips-ft_.

Hence, the end moment of member CD is 16.67kips-ft_.

Hence, the end moment of member DC is 9.26kips-ft_.

Consider span AB;

Show the fee body diagram of span AB as in Figure (2).

Fundamentals of Structural Analysis, Chapter 10, Problem 29P , additional homework tip  2

Determine the shear force VAB using the relation;

Take moment about point B;

MB=0VAB×(25)+100=0VAB=10025VAB=4.0kips()

Hence, the vertical reaction at A is 4.0kips()_.

Determine the shear force using VBA the relation;

V=0VAB+VBA=0VBA=4.0kipsVBA=4.0kips()

Consider span BC;

Show the free body diagram of span BC as in Figure (3).

Fundamentals of Structural Analysis, Chapter 10, Problem 29P , additional homework tip  3

Determine the shear force VBC using the relation;

Take moment about point C;

MC=0VBC×(20)+66.05+16.67=0VBC=82.7220VBC=4.1kips

Determine the shear force using VCB the relation;

V=0VBC+VCB=0VCB=4.1kipsVCB=4.1kips()

Consider member CD;

Show the free body diagram of span CD as in Figure (4).

Fundamentals of Structural Analysis, Chapter 10, Problem 29P , additional homework tip  4

Determine the shear force VCD using the relation;

Take moment about point D;

MD=0VCD×(20)16.679.26=0VCD=25.9320VCD=1.30kips

Determine the shear force using VDC the relation;

V=0VCD+VDC=0VDC=1.30kipsVDC=1.30kips()

Hence, the horizontal reaction at D is 1.3kips_.

Determine the horizontal reaction at A;

H=0HA+HD=0HA=HDHA=1.30kipsHA=1.30kips()

Determine the vertical reaction at D using the relation;

V=0RA+RD=0RD=RARD=(4kips)RD=4kips()

Hence, the vertical reaction at D is 4kips()_.

Shear force calculation;

VAB=4.0kipsVBA=4.0kips()VBC=4.1kipsVCB=4.1kips()VCD=1.30kipsVDC=1.30kips()

Bending moment calculation;

MAB=2.90kips-ftMBA=35.22kips-ftMBC=66.05kips-ftMCB=16.67kips-ftMCD=16.67kips-ftMDC=9.26kips-ft

Consider span BC;

Consider a section at a distance of x from point C within 20 ft;

Determine the where the moment is equal to zero;

Mx=016.74.1x=0x=16.74.1x=4.073ftfromsupportC

Hence, the bending moment is zero at 4.073 ft from support C.

Consider span CD;

Consider a section at a distance of x from point D within 20 ft;

Determine the where the moment is equal to zero;

Mx=09.26+1.30x=0x=9.261.30x=7.123ftfrom supportD

Hence, the bending moment is zero at 7.123 ft from support D.

Show the shear force and bending moment diagram as in Figure (5).

Fundamentals of Structural Analysis, Chapter 10, Problem 29P , additional homework tip  5

Show the deflected shape as in Figure (6).

Fundamentals of Structural Analysis, Chapter 10, Problem 29P , additional homework tip  6

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