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प्रश्न
Give an experiment to verify the principle of moments.
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उत्तर
Verification of Principle of Moments:
Suspend a metre scale horizontally its midpoint O’, by means of a thread with its other end connected to a fixed support.
Now suspend some weights on both sides of the mid-point and adjust their distances in such a way that scale again becomes horizontal.
Let W1, W2, and W3, W4 be the weights suspended and l1, l2, and l3, l4 are respective lengths.
The weights W1 and W2 tend to turn the scale clockwise while the weights W3 and W4 tend to turn the scale anti-clockwise.
Total clockwise moments = W1 × l1 + W2 × l2
Total anti-clockwise moments = W3 × l3 + W4 × l4
In equilibrium, when the scale is horizontal, it is found that:
Total clockwise moments = Total anti-clockwise moments
W1l1 + W2l2 = W3l3 + W4l4
This verifies the principle of moments.
संबंधित प्रश्न
Define equilibrium.
A uniform meter scale is in equilibrium as shown in the diagram :
(i) Calculate the weight of the meter scale.
(ii) Which of the following options is correct to keep the ruler in equilibrium when 40 gf wt is shifted to 0 cm mark ?
F is shifted towards 0 cm
or
F is shifted towards 100 cm
State the principle of moments. A meter scale is pivoted at 30 cm mark and it is in equilibrium when a mass of 40 g is suspended from 10 cm mark. Calculate the mass of the ruler.
A meter scale is pivoted at its mid point and a 50 g mass suspended from the 20 cm mark. What mass balances the ruler when suspended from 65 cm mark?
Define the term momentum.
What is the weight of a body placed at the centre of the earth?
One end of a spring is kept fixed while the other end is stretched by a force as shown in the diagram.
(i) Copy the diagram and mark on it the direction of the restoring force.
(ii) Name one instrument which works on the above principle.
A boy of mass 30 kg is fitting at a distance of 2 m from the middle of a see-saw. Where should a boy of mass 40 kg sit so as to balance the see-saw?
A ball is placed on a compressed spring. When the spring is released, the ball is observed to fly away.
(i) What form of energy does the compressed spring possess?
(ii) Why does the ball fly away?
Explain the types of stability with suitable examples.
