2. The slotted arm rotates about its center in a horizontal plane at a constant rate of Ở = 10 rad/s and carries a 3.22-pound spring mounted slider which oscillates freely in the slot. If the spring has a constant of 36 lb/in, write an equation for the • Normal force as a function of † • The second derivative of r, †, as a function of r? 10 rad/ane 24 in Jee

2. The slotted arm rotates about its center in a horizontal plane at a constant rate of Ở = 10 rad/s and carries a 3.22-pound spring mounted slider which oscillates freely in the slot. If the spring has a constant of 36 lb/in, write an equation for the • Normal force as a function of † • The second derivative of r, †, as a function of r? 10 rad/ane 24 in Jee

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Question

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2. The slotted arm rotates about its center in a horizontal plane at a
constant rate of ở = 10 rad/s and carries a 3.22-pound spring
= 10 rad/see
mounted slider which oscillates freely in the slot. If the spring
24 in Jsee
has a constant of 36 lb/in, write an equation for the
• Normal force as a function of ř
• The second derivative of r, †, as a function of r?

Expert Solution

Step 1

Given:-

Mass of the slider $m = \frac{w}{g}$

Where,

w = weight of the slider

g = acceleration due to gravity.

Plug the value

w = 3.22 lb

g = 32.2 $f t^{2} / s$

$m = \frac{3.22}{32.2} = 0.1 s l u g$

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