(a) Explanation The arrangement is shown in Fig. P4.95. Given that the dimension of the plate is 250 × 400 mm , its mass is 12 kg , the diameter of the pulley is 300 mm and the angle β has the value 60 ° . The free-body diagram corresponding to the arrangement is given in Figure 1. The Cartesian unit vectors are represented as i , j and k in the free-body diagram. Write the expression for weight of the plate from the free-body diagram. W = m g (I) Here, W is the weight, m is the mass, and g is the acceleration due to gravity. Write the expression for the equilibrium condition for the system. Σ M x = 0 Here, M is the moment of force in the x direction. For the given system, Σ M A = 0 (II) Apply equation (II) to the free-body diagram. r B / A × ( B x i + B y j ) + r D / A × ( − T ) i + r G / A × ( − W ) j = 0 (III) Here, r B / A is the vector drawn from the point B to A , r D / A is the vector drawn from the point D to A , r G / A is the vector drawn from the point G to A , T is the tension in the cable and B x and B y are the components of the reaction at B . Conclusion: Substitute 12 kg for m and 9.81 m/s 2 for g in equation (I) to find the weight W . W = ( 12 kg ) ( 9.81 m/s 2 ) j = 117.720 j N Use the distances between different points in the given arrangement, compute the vectors r B / A , r D / A , and r G / A . (For convenience, avoid using the units of the parameters during numerical calculations) (b) To determine The reaction at A and B .

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Chapter 4.3, Problem 4.96P

(a)

To determine

The tension in the cable.

(b)

To determine

The reaction at A and B.

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Chapter 4.3, Problem 4.95P

Chapter 4.3, Problem 4.97P

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Chapter 4 Solutions

VECTOR MECH. FOR EGR: STATS & DYNAM (LL

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The tension in the cable.

Solution Summary: The tension in the cable is underset_135.9N. The free-body diagram corresponding to the arrangement is given in Figure 1.

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The tension in the cable.

The reaction at A and B.

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