Connect Access Card For Fundamentals Of Structural Analysis (one Semester Access) 5th Edition
Connect Access Card For Fundamentals Of Structural Analysis (one Semester Access) 5th Edition
5th Edition
ISBN: 9781259820960
Author: Leet, Kenneth
Publisher: McGraw-Hill Education
Question
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Chapter 6, Problem 1P
To determine

Calculate the reaction forces at the supports.

Calculate the magnitude of cable sag at joints B and E.

Calculate the tension force in every segment of cable and total length of the cable.

Expert Solution & Answer
Check Mark

Answer to Problem 1P

The vertical reaction at A and F is Ay=60k_ and Fy=60k_ respectively and the horizontal reaction is H=75k_.

The magnitude of cable sag at joint B and E is hB=16ft_ and hE=16ft_ respectively.

The tension force in the cable segment AB and EF is 96k_.

The tension force in the cable segment BC and DE is 80.7k_.

The tension force in the cable segment CD is 75k_.

The total length of the cable is 114.3ft_.

Explanation of Solution

Given information:

The cable supporting concentrated load as shown in given Figure P6.1.

Assumption:

Apply the sign convention for calculating the equations of equilibrium as below.

  • For the horizontal forces equilibrium condition, take the force acting towards right side as positive (+) and the force acting towards left side as negative ().
  • For the vertical forces equilibrium condition, take the upward force as positive (+) and downward force as negative ().
  • For moment equilibrium condition, take the clockwise moment as positive and counter clockwise moment as negative.

Calculation:

Draw the free body diagram as shown in Figure 1.

Connect Access Card For Fundamentals Of Structural Analysis (one Semester Access) 5th Edition, Chapter 6, Problem 1P , additional homework tip  1

Calculate the support reactions.

Take moment about F.

M=0(Ay×100)(30×80)(30×60)(30×40)(30×20)=0100Ay=2400+1800+1200+600Ay=60k

Calculate the vertical reaction at F.

Ay+Fy=(4×30k)60+Fy=120kFy=60k

Therefore, the vertical support reaction at A and F is Ay=60k_ and Fy=60k_ respectively.

Find the horizontal reaction using general cable theorem.

Take moment about C from support A.

(Ay×40)(H×24)(30×20)=0(60×40)(H×24)(30×20)=024H=1,800kH=75k

Therefore, the horizontal support reaction is H=75k_.

Calculate the magnitude of cable sag at B.

Consider the vertical distance at B is hB.

Take moment at B from support A.

(Ay×20)(H×hB)=0(60×20)(75×hB)=0hB=16ft

Calculate the magnitude of cable sag at E.

Consider the vertical distance at E is hE.

Take moment at E from support F.

(Fy×20)+(H×hE)=0(60×20)+(75×hE)=0hE=16ft

Therefore, the magnitude of cable sag at joint B and E is hB=16ft_ and hE=16ft_ respectively.

Calculate the tension force in the segment of cable AB (TAB) and EF (TEF).

Take joint A as shown in Figure 2.

Connect Access Card For Fundamentals Of Structural Analysis (one Semester Access) 5th Edition, Chapter 6, Problem 1P , additional homework tip  2

Find the horizontal angle for TAB as follows:

tanθ=16ft20ftθ=38.65°

Apply horizontal equilibrium Equation.

H=0TABcos38.65°75k=0TAB=96k

The cable with supports are symmetrical about vertical axis. Hence, the tension force in the segment AB is equal to EF. So, TEF=96k

Therefore, the tension force in the cable segment AB and EF is 96k_.

Calculate the tension force in the segment of cable BC (TBC) and DE (TDE)

Take joint B as shown in Figure 3.

Connect Access Card For Fundamentals Of Structural Analysis (one Semester Access) 5th Edition, Chapter 6, Problem 1P , additional homework tip  3

Find the horizontal angle for TBC as follows:

tanθ=8ft20ftθ=21.80°

Apply horizontal equilibrium Equation.

H=0TBCcos21.80°TABcos38.65=0TBCcos21.80°=96cos38.65TBC=80.7k

The cable with supports are symmetrical about vertical axis. Hence, the tension force in the segment BC is equal to DE. So, TDE=80.7k.

The tension force in the cable segment BC and DE is 80.7k_.

Calculate the tension force in the segment of cable CD (TCD).

Take the joint C as shown in Figure 4.

Connect Access Card For Fundamentals Of Structural Analysis (one Semester Access) 5th Edition, Chapter 6, Problem 1P , additional homework tip  4

Apply horizontal equilibrium Equation.

H=0TCDTBCcos21.80°=0TCD80.7cos21.80°=0TCD=75k

Therefore, the tension force in the cable segments CD is 75k_.

Show the vertical and horizontal length of each segment of cable as shown in Figure 5.

Connect Access Card For Fundamentals Of Structural Analysis (one Semester Access) 5th Edition, Chapter 6, Problem 1P , additional homework tip  5

Calculate the total length of the cable (L) using Figure 4.

L=LAB+LBC+LCD+LDE+LEF=202+162+202+82+20+202+82+202+162=114.3ft

Therefore, the total length of the cable is 114.3ft_.

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