Structural Analysis (MindTap Course List)
Structural Analysis (MindTap Course List)
5th Edition
ISBN: 9781133943891
Author: Aslam Kassimali
Publisher: Cengage Learning
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Chapter 7, Problem 4P
To determine

Calculate the horizontal deflection and vertical deflection at joint B.

Expert Solution & Answer
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Answer to Problem 4P

The horizontal deflection at joint B is 2.99mm_.

The vertical deflection at joint B is 4.79mm_.

Explanation of Solution

Given information:

The truss is given in the Figure.

The value of E is 200 GPa and the value of A is 1,100mm2

Procedure to find the deflection of truss by virtual work method is shown below.

  • For Real system: If the deflection of truss is determined by the external loads, then apply method of joints or method of sections to find the real axial forces (F) in all the members of the truss.
  • For virtual system: Remove all given real loads, apply a unit load at the joint where is deflection is required and also in the direction of desired deflection. Use method of joints or method of sections to find the virtual axial forces (Fv) in all the member of the truss.
  • Finally use the desired deflection equation.

Apply the sign conventions for calculating reactions, forces and moments 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 negative and the counter clockwise moment as positive.

Method of joints:

The negative value of force in any member indicates compression (C) and the positive value of force in any member indicates tension (T).

Condition for zero force members:

  1. 1. If only two non-collinear members are connected to a joint that has no external loads or reactions applied to it, then the force in both the members is zero.
  2. 2. If three members, two of which are collinear are connected to a joint that has no external loads or reactions applied to it, then the force in non-collinear member is zero.

Calculation:

Consider the real system.

Find the member axial force (F) for the real system using method of joints:

Let Ax and Ay be the horizontal and vertical reactions at the hinged support A.

Let Cy be the vertical reaction at the roller support C.

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

Structural Analysis (MindTap Course List), Chapter 7, Problem 4P , additional homework tip  1

Find the reactions at the supports using equilibrium equations:

Summation of moments about C is equal to 0.

MC=0Ay(6)50(4)+210(3)=0Ay=71.667kN

Summation of forces along y-direction is equal to 0.

+Fy=0Ay+Cy210=071.667+Cy210=0Cy=138.333kN

Summation of forces along x-direction is equal to 0.

+Fx=0Ax+50=0Ax=50kN

Apply equilibrium equation to the joint B:

Summation of forces along y-direction is equal to 0.

+Fy=0210FABsin53.13°FBCsin53.13°=0FABsin53.13°FBCsin53.13°=210        (1)

Summation of forces along x-direction is equal to 0.

+Fx=0FABcos53.13°+FBCcos53.13°+50=0FABcos53.13°+FBCcos53.13°=50        (2)

Solve Equation (1) and Equation (2).

FAB=89.583kNFBC=172.917kN

Apply equilibrium equation to the joint A:

Summation of forces along x-direction is equal to 0.

+Fx=050+FAC+FABcos53.13°=050+FAC+(89.583)cos53.13°=0FAC=103.75kN

Sketch the resultant diagram of the real forces as shown in Figure 2.

Structural Analysis (MindTap Course List), Chapter 7, Problem 4P , additional homework tip  2

Consider the virtual system:

For horizontal deflection apply l kN at joint B in horizontal direction.

Find the member axial force (Fv1 ) due to virtual load using method of joints:

Sketch the free body diagram of the truss due to virtual load as shown in Figure 3.

Structural Analysis (MindTap Course List), Chapter 7, Problem 4P , additional homework tip  3

Find the reactions at the supports using equilibrium equations:

Summation of moments about C is equal to 0.

MC=0Ay(6)1(4)=0Ay=0.667kN

Summation of forces along y-direction is equal to 0.

+Fy=0Ay+Cy=00.667+Cy=0Cy=0.667kN

Summation of forces along x-direction is equal to 0.

+Fx=0Ax+1=0Ax=1kN

Apply equilibrium equation to the joint B:

Summation of forces along y-direction is equal to 0.

+Fy=0FABsin53.13°FBCsin53.13°=0FABsin53.13°FBCsin53.13°=0        (3)

Summation of forces along x-direction is equal to 0.

+Fx=01FABcos53.13°+FBCcos53.13°+50=0FABcos53.13°+FBCcos53.13°=1        (4)

Solve Equation (3) and Equation (4).

FAB=0.833kNFBC=0.833kN

Apply equilibrium equation to the joint A:

Summation of forces along x-direction is equal to 0.

+Fx=01+FAC+FABcos53.13°=01+FAC+0.833cos53.13°=0FAC=0.5kN

Sketch the resultant diagram of the virtual system (Fv1) as shown in Figure 4.

Structural Analysis (MindTap Course List), Chapter 7, Problem 4P , additional homework tip  4

Consider the virtual system:

For vertical deflection apply l k at joint B in vertical direction.

Find the member axial force (Fv2) due to virtual load using method of joints:

Sketch the free body diagram of the truss as shown in Figure 5.

Structural Analysis (MindTap Course List), Chapter 7, Problem 4P , additional homework tip  5

Find the reactions at the supports using equilibrium equations:

Summation of moments about C is equal to 0.

MC=0Ay(6)+1(3)=0Ay=0.5kN

Summation of forces along y-direction is equal to 0.

+Fy=0Ay+Cy1=00.5+Cy1=0Cy=0.5kN

Summation of forces along x-direction is equal to 0.

+Fx=0Ax=0

Apply equilibrium equation to the joint B:

Summation of forces along y-direction is equal to 0.

+Fy=01FABsin53.13°FBCsin53.13°=0FABsin53.13°FBCsin53.13°=1        (5)

Summation of forces along x-direction is equal to 0.

+Fx=0FABcos53.13°+FBCcos53.13°=0FABcos53.13°+FBCcos53.13°=0        (6)

Solve Equation (5) and Equation (6).

FAB=0.625kNFBC=0.625kN

Apply equilibrium equation to the joint A:

Summation of forces along x-direction is equal to 0.

+Fx=0FAC+FABcos53.13°=0FAC+(0.625)cos53.13°=0FAC=0.375kN

Sketch the resultant diagram of the virtual system (Fv2) as shown in Figure 6.

Structural Analysis (MindTap Course List), Chapter 7, Problem 4P , additional homework tip  6

The expression to find the deflection 1(Δ) is shown below:

1(Δ)=Fv(FLAE)

Here, L is the length of the member, A is the area of the member, and E is the young’s modulus of the member.

For E and A is constant, the expression becomes,

(1)Δ=1AEFvFL        (7)

Find the length of member AB and BC using given Figure.

LAB=LBC=4sin53.13°=5m

Find the product of Fv1FL and Fv2FL for each member as shown in Table 1.

Member

L

(m)

F(kN)Fv1(kN)Fv1FL(kN2-m)Fv2(kN)Fv2FL(kN2-m)
AC6103.750.5311.250.375233.44
AB589.5830.833373.110.625279.95
BC5172.9170.833720.20.625540.37
   658.34 1,053.76

Find the horizontal deflection at joint B (ΔBH):

Substitute 658.34kN2-m for Fv1FL, 1,100mm2 for A, and 200GPa for E in Equation (7).

(1kN)ΔBH=658.34kN2-m(1,100mm2)(200GPa)(1kN)ΔBH=658.34kN2-m×103mm1m(1,100mm2)(200GPa×1kN/mm21GPa)ΔBH=2.99mm

Therefore, the horizontal deflection at joint B is 2.99mm_.

Find the vertical deflection at joint B (ΔBV):

Substitute 1,053.76kN2-m for Fv1FL, 1,100mm2 for A, and 200GPa for E in Equation (7).

(1kN)ΔBV=1,053.76kN2-m(1,100mm2)(200GPa)(1kN)ΔBV=1,053.76kN2-m×103mm1m(1,100mm2)(200GPa×1kN/mm21GPa)ΔBV=4.79mm

Therefore, the vertical deflection at joint B is 4.79mm_.

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