Engineering Mechanics

(Joyce) #1

Chapter 16 : Virtual Work „„„„„ 359


EXERCISE 16.2



  1. The diameter of the pulleys in a differential pulley block are 300 mm and 250 mm
    respectively. Using the principle of virtual work and neglecting friction, find the value of
    the effort required to lift a load of 3 kN. (Ans. 250 N)

  2. A block of weight (W) rests on the smooth surface inclined at 20° with the horizontal.
    The block is supported by an effort (P) hung from a pulley as shown in Fig. 16.24.


Fig. 16.24.
Using the principle of virtual work, obtain expression for (P) in terms of (W), when the
system is at rest. (Ans. P = 0.685 W)
[ Hint.
Let x = Virtual vertical upward displacement of the load W, and
y = Virtual vertical downward displacement of the effort (P)
∴ Distance through which the load (W) moves along the inclined plane

2.92
sin 20 0.3420

xx
===x
°
...(i)

and distance through which the effort (P) will move

2.92 1.46
2

x
==x ..(ii)
∴ Virtual work done by the weight (W)
= + W x
and virtual work done by the effort (P)
= – P × 1.46 x = – 1.46 Px

∴ Wx – 1.46 Px = 0 or P =
1.46

W
= 0.685 W Ans.


  1. Two weights W 1 and W 2 are resting on two smooth planes AB and BC at angles of θ 1 and
    θ 2 as shown in Fig. 16.25.


Fig. 16.25.
With the help of principle of virtual work, find the ratio of W 1 and W 2.
12
21

Sin
sin

W
W

⎛⎞θ
⎜⎟=
⎝⎠θ

Ans.
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