Connect 1 Semester Access Card for Vector Mechanics for Engineers: Statics and Dynamics
Connect 1 Semester Access Card for Vector Mechanics for Engineers: Statics and Dynamics
11th Edition
ISBN: 9781259639272
Author: Ferdinand P. Beer, E. Russell Johnston Jr., David Mazurek, Phillip J. Cornwell, Brian Self
Publisher: McGraw-Hill Education
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Textbook Question
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Chapter 6.3, Problem 6.89P

The 48-lb load is removed and a 288-lb · in. clockwise couple is applied successively at A, D, and E. Determine the components of the reactions at Band F if the couple is applied (a) at A, (b) at D, (c) at E.

Chapter 6.3, Problem 6.89P, The 48-lb load is removed and a 288-lb  in. clockwise couple is applied successively at A, D, and E.

(a)

Expert Solution
Check Mark
To determine

The component of reactions at point B and F when the couple is applied at A.

Answer to Problem 6.89P

The x component of the reaction force at point B is 24lb_ towards left direction, and the y component is 7.5lb_ downward direction.

The x component of force applied is 24lb_ in the positive x direction, and the y component of force is 7.5lb_ in the positive y direction.

Explanation of Solution

The free body diagram of the problem 6.89P is shown in figure 1 below.

Connect 1 Semester Access Card for Vector Mechanics for Engineers: Statics and Dynamics, Chapter 6.3, Problem 6.89P , additional homework tip  1

A clockwise couple is applied at A,D, and E. Due to this couple, resultant reaction forces are experienced in points A, D, and E.

First consider the couple applied at point A.

Write the equation to find the sum of moments of force at point F.

MF=288lbin-Bx(12in)

Here, MF is the sum of moments, Bx is the x component of reaction force at point B.

Since the sum of moments of force at a point of a system in equilibrium is zero, rewrite the equation for the sum of moments.

288lbin-Bx(12in)=0Bx=24lb

Write the equation to find the x components of force.

Fx=Bx+Fx

Here, Fx is the sum of forces, Bx is the x component of reaction force at point B, and Fx is the x component of force applied at point B.

Since the sum of forces at a point is zero in equilibrium, the above equation is rewritten.

Substitute 24lb for Bx in equation.

24lb+Fx=0Fx=24lb

Write the equation to find the sum of y component of forces.

Fy=By+Fy

Here, Fy is the sum of forces, By is the y component of reaction force at a point, and Fy is the y component of force applied at a point.

No force is applied in the y direction, therefore there will be no reaction also.

By+Fy=0 (I)

Consider figure 2.

Connect 1 Semester Access Card for Vector Mechanics for Engineers: Statics and Dynamics, Chapter 6.3, Problem 6.89P , additional homework tip  2

Write the equation to find the y component of reaction force at point B.

ByBx=rBYrBX (II)

Here, By is the y component of reaction force at point B, Bx is the x component of reaction force at point B, rBY is the y component of distance between point B and C, and rBX is the x component of distance between point B and C.

Rewrite equation (I) to find the value of Fy.

By+Fy=0 (III)

Conclusion:

Observe figure 2.

Substitute 24lb for Bx , 5in for rBY , and 16in for rBX in equation (II) to find By.

By24lb=5in16inBy=7.5lb

The y component of reaction force at point B is having a magnitude of 7.5lb and is directed in the negative y direction.

Substitute 7.5lb for By in equation (III) to get Fy.

7.5lb+Fy=0Fy=7.5lb

The y component of the force applied at point b is 7.5lb in the positive y direction.’

Therefore, the x component of the reaction force at point B is 24lb_ in the negative direction, and the y component is 7.5lb_ in the negative y direction.

The x component of force applied is 24lb_ in the positive x direction, and the y component of force is 7.5lb_ in the positive y direction.

(b)

Expert Solution
Check Mark
To determine

The component of reactions at point B and F when the couple is applied at D.

Answer to Problem 6.89P

The x component of the reaction force at point B is 24lb in the negative x direction, and the y component is 10.50lb in the positive y direction.

The x component of force applied is 24lb in the positive x direction, and the y component of force is 10.50lb in the negative y direction.

Explanation of Solution

The free body diagram of the problem 6.89P is shown in figure 1.

A clockwise couple is applied at A,D, and E. Due to this couple, resultant reaction forces are experienced in points A, D, and E.

Consider the couple applied at point D.

Write the equation to find the sum of moments of force at point F.

MF=288lbin-Bx(12in)

Here, MF is the sum of moments, Bx is the x component of reaction force at point B.

Since the sum of moments of force at a point of a system in equilibrium is zero, rewrite the equation for the sum of moments.

288lbin-Bx(12in)=0Bx=24lb

Write the equation to find the x components of force.

Fx=Bx+Fx

Here, Fx is the sum of forces, Bx is the x component of reaction force at point B, and Fx is the x component of force applied at point B.

Since the sum of forces at a point is zero in equilibrium, the above equation is rewritten.

Substitute 24lb for Bx in equation.

24lb+Fx=0Fx=24lb

Write the equation to find the sum of y component of forces.

Fy=By+Fy

Here, Fy is the sum of forces, By is the y component of reaction force at a point, and Fy is the y component of force applied at a point.

No force is applied in the y direction, therefore there will be no reaction also.

By+Fy=0 (IV)

Consider figure 3.

Connect 1 Semester Access Card for Vector Mechanics for Engineers: Statics and Dynamics, Chapter 6.3, Problem 6.89P , additional homework tip  3

Write the equation to find the y component of reaction force at point B.

FyFx=rFYrFX (V)

Here, Fy is the y component of force at point B, Fx is the x component of reaction force at point B, rFY is the y component of distance between point F and C, and rFX is the x component of distance between point F and C.

Rewrite equation (I) to find the value of By.

By+Fy=0 (VI)

Conclusion:

Observe figure 3.

Substitute 24lb for Fx , 7in for rFY , and 16in for rFX in equation (V) to find Fy.

Fy24lb=7in16inFy=10.5lb

The y component of force at point B is having a magnitude of 10.5lb and is directed in the negative y direction.

Substitute 10.5lb for Fy in equation (VI) to get By.

10.5lb+By=0By=10.5lb

The y component of the reaction force applied at point B is 10.5lb in the positive y direction.’

Therefore, the x component of the reaction force at point B is 24lb_ in the negative x direction, and the y component is 10.5lb_ in the positive y direction.

The x component of force applied is 24lb_ in the positive x direction, and the y component of force is 10.5lb_ in the negative y direction.

(c)

Expert Solution
Check Mark
To determine

The component of reactions at point B and F when the couple is applied at E.

Answer to Problem 6.89P

The x component of the reaction force at point B is 24lb_ in the negative x direction, and the y component is 10.50lb_ in the positive y direction.

The x component of force applied is 24lb_ in the positive x direction, and the y component of force is 10.50lb_ in the negative y direction.

Explanation of Solution

The free body diagram of the problem 6.89P is shown in figure 1.

A clockwise couple is applied at A,D, and E. Due to this couple, resultant reaction forces are experienced in points A, D, and E.

First consider the couple applied at point E.

Write the equation to find the sum of moments of force at point F.

MF=288lbin-Bx(12in)

Here, MF is the sum of moments, Bx is the x component of reaction force at point B.

Since the sum of moments of force at a point of a system in equilibrium is zero, rewrite the equation for the sum of moments.

288lbin-Bx(12in)=0Bx=24lb

Write the equation to find the x components of force.

Fx=Bx+Fx

Here, Fx is the sum of forces, Bx is the x component of reaction force at point B, and Fx is the x component of force applied at point B.

Since the sum of forces at a point is zero in equilibrium, the above equation is rewritten.

Substitute 24lb for Bx in equation.

24lb+Fx=0Fx=24lb

Write the equation to find the sum of y component of forces.

Fy=By+Fy

Here, Fy is the sum of forces, By is the y component of reaction force at a point, and Fy is the y component of force applied at a point.

No force is applied in the y direction, therefore there will be no reaction also.

By+Fy=0 (VII)

Consider figure 4.

Connect 1 Semester Access Card for Vector Mechanics for Engineers: Statics and Dynamics, Chapter 6.3, Problem 6.89P , additional homework tip  4

Write the equation to find the y component of reaction force at point B.

ByBx=rBYrBX (VIII)

Here, By is the y component of reaction force at point B, Bx is the x component of reaction force at point B, rBY is the y component of distance between point B and C, and rBX is the x component of distance between point B and C.

Rewrite equation (VII) to find the value of Fy.

By+Fy=0 (IX)

Conclusion:

Observe figure 4.

Substitute 24lb for Bx , 5in for rBY , and 16in for rBX in equation (VIII) to find By.

By24lb=5in16inBy=7.5lb

The y component of reaction force at point B is having a magnitude of 7.5lb and is directed in the negative y direction.

Substitute 7.5lb for By in equation (IX) to get Fy.

7.5lb+Fy=0Fy=7.5lb

The y component of the force applied at point b is 7.5lb in the positive y direction.’

Therefore, the x component of the reaction force at point B is 24lb_ in the negative direction, and the y component is 7.5lb_ in the negative y direction.

The x component of force applied is 24lb_ in the positive x direction, and the y component of force is 7.5lb_ in the positive y direction.

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Chapter 6 Solutions

Connect 1 Semester Access Card for Vector Mechanics for Engineers: Statics and Dynamics

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