Cable BAC passes through a frictionless ring A and is attached to fixed supports at B and C, while cables AD and AE are both tied to the ring and are attached, respectively, to supports at D and E. Knowing that a 200-lb vertical load P is applied to ring A, determine the tension in each of the three cables. (Hint: The tension is the same in both portions of cable BAC.)
Fig. P2.136
The tension in each of the three cables
Answer to Problem 2.136RP
The tension in each of the three cables are
Explanation of Solution
The free body diagram is sketched in the figure 1 below
From the free body diagram the tension along of cable
Write the expression for the magnitude of tension acting along
Here,
Write the expression for the direction of tension
Here,
Thus equation 1 can be rewritten as
Write the expression for the magnitude of tension acting along
Here,
Write the expression for the magnitude of tension acting along
Here,
Similarly, the expression for the magnitude of tension acting along
Here,
Under equilibrium, the total force will balances and the sum of all forces will be equal to zero.
Conclusion:
Write the vector representation of
The magnitude of vector
Write the vector representation of
The magnitude of vector
Write the vector representation of
The magnitude of vector
Write the vector representation of
The magnitude of vector
Substitute
Substitute
Substitute
Substitute
Substitute
Rearrange equation (VI) to obtain
Rearrange equation (VIII) to obtain
Substitute equation (IX) and (X) in equation (VII)
Substitute
Substitute
Therefore, the tension in each of the three cables are
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Chapter 2 Solutions
VECTOR MECHANIC
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