(a)
The components of the forces exerted on member BCDF at C and D.
(a)
Answer to Problem 6.104P
The x component of force at D,
Explanation of Solution
Figure 1 is the free body diagram of the entire frame of the system.
Write the equation to find the sum of the moments about point E.
Here,
Write the equation to find the sum of x components of force.
Here,
Consider the member BCDF of the system.
Figure 2 shown below is the free body diagram of member BCDF.
Write the equation to find the sum of x component of force.
Here,
Write the equation to find the sum of moments at D.
Here,
Write the equation to find the sum of y components of force.
Here,
Consider the free body diagram of member ACEG. The free body diagram of ACEG is given in figure 3.
Write the equation to find the sum of y component of force.
Here,
Conclusion:
Solve equation (I) to get the value of
Substitute
Solve equation (III) to get the value of
Substitute
Substitute
Substitute
Substitute
Substitute
Therefore, The x component of force at D,
(b)
The component of force on member ACEG at E.
(b)
Answer to Problem 6.104P
The x component of force at E,
Explanation of Solution
Rewrite equation (II) to find the x component of force at E.
Here,
Rewrite equation (VI) to get the y component of force at E.
Here,
Conclusion:
Substitute
Substitute
Substitute
Substitute
Therefore, The x component of force at E,
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Chapter 6 Solutions
EBK VECTOR MECHANICS FOR ENGINEERS: STA
- Determine the horizontal and vertical components of force that the pins at A and B exert on the frame. 4.1 The magnitude of the horizontal component Ax at the hinged support A is Blank 1 kN. 4.2 The magnitude of the vertical component Ay at the hinged support A is Blank 2 kN. 4.3 The magnitude of the horizontal component Bx at the hinged support B is Blank 3 kN. 4.4 The magnitude of the vertical component By at the hinged support B is Blank 4 kN.arrow_forwardIn the frame shown, member ACE and BCD are connected by a pin at C and by the link DE. Determine all the forces acting on member BCD 160 mm 400N В 60 mm D 80 mm E 150 mm 60 mm 100 mmarrow_forward1. For the frame shown, determine the reaction at E assuming a pinned support. The tension in the cable is 150 kN. 2.25 m A B 3.75 m 20 kN 20 kN 20 kN 20 kN 1.8 m 1.8 m 1.8 m 1.8 m E F 4.5 marrow_forward
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- 1. Knowing that m = 15 kg, determine the tension in OA and OB. 5 3 m Barrow_forwardThree cables are used to tether a balloon as shown. Knowing that the balloon exerts an 800-N vertical force at A , determine the tension in each cable.arrow_forwardThree cables are used to tether a balloon as shown. Knowing that the tension in cable AC is 444 N, draw the free-body diagram needed to determine the vertical force P exerted by the balloon at A.arrow_forward
- International Edition---engineering Mechanics: St...Mechanical EngineeringISBN:9781305501607Author:Andrew Pytel And Jaan KiusalaasPublisher:CENGAGE L