A strap is passing over a wheel of radius 30, | vedclass

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(A) Given: Radius $r = 30\, cm = 0.3\, m$. Initial angular velocity $\omega_0 = 2\, rev/s = 2 	imes 2\pi\, rad/s = 4\pi\, rad/s$. Final angular veloc

Vedclass · Accepted Answer

$0.94$

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(A) Given: Radius $r = 30\, cm = 0.3\, m$. Initial angular velocity $\omega_0 = 2\, rev/s = 2 	imes 2\pi\, rad/s = 4\pi\, rad/s$. Final angular velocity $\omega = 0\, rad/s$. Distance covered by the strap $s = 25\, m$.Since the strap is passing over the wheel,the linear distance $s$ covered by the strap is equal to the arc length covered by the wheel: $s = r	heta$,where $	heta$ is the angular displacement.$	heta = s / r = 25 / 0.3 = 83.33\, rad$.Using the kinematic equation for rotational motion: $\omega^2 = \omega_0^2 + 2\alpha	heta$.Substituting the values: $0^2 = (4\pi)^2 + 2 	imes \alpha 	imes 83.33$.$0 = 157.91 + 166.66\alpha$.$\alpha = -157.91 / 166.66 \approx -0.947\, rad/s^2$.The magnitude of deceleration is $0.947\, rad/s^2$,which is approximately $0.94\, rad/s^2$.

$A$ strap is passing over a wheel of radius $30\, cm.$ During the time the wheel moving with an initial constant velocity of $2\, rev/s$ comes to rest,the strap covers a distance of $25\, m.$ The deceleration of the wheel in $rad/s^2$ is

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