(b)The 11.5 kg slender rod pivoted about point O is pressed against a spring atpoint 4, in which the spring (k = 375 kN/m) is compressed by 27 mm, as shownin Figure Q2(b). At this instance, the rod is at horizontal position and isstationary. If the rod is released from this position,By using the principle of conservation of energy, explain withcalculations on how changing the mass of the rod would influence thedownward reaction of the pivot when the rod passes through a verticalposition.(6)(ii) From your working in Q2(bX(i), explain two possible ways to increasethe angular velocity of the rod when the rod passes through a verticalposition.92 (b). (Continued)1.75 m0.65 mABFigure Q2(b)

When we supress the slender and spring in oppsite direction then angular velocity increases.

Answered: (ii) From your working in Q2(bXi),…

(ii) From your working in Q2(bXi), explain two possible ways to increase the angular velocity of the rod when the rod passes through a vertical position.

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Question

(b)
The 11.5 kg slender rod pivoted about point O is pressed against a spring at
point 4, in which the spring (k = 375 kN/m) is compressed by 27 mm, as shown
in Figure Q2(b). At this instance, the rod is at horizontal position and is
stationary. If the rod is released from this position,
By using the principle of conservation of energy, explain with
calculations on how changing the mass of the rod would influence the
downward reaction of the pivot when the rod passes through a vertical
position.
(6)
(ii) From your working in Q2(bX(i), explain two possible ways to increase
the angular velocity of the rod when the rod passes through a vertical
position.
92 (b). (Continued)
1.75 m
0.65 m
A
B
Figure Q2(b)

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