Flywheel of a steam engine problem

AI Thread Summary
The problem involves calculating the tangential linear acceleration of a particle on a flywheel that decelerates from 156 rev/min to rest over 2.20 hours. The angular acceleration is determined to be -1.18 rev/min². The confusion arises from the inclusion of the 72.5 rev/min speed, which is not necessary for calculating tangential acceleration since it remains constant during deceleration. However, this speed becomes relevant for subsequent calculations, such as radial acceleration and total force. Ultimately, the problem illustrates the importance of distinguishing between necessary and extraneous information in physics problems.
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Homework Statement


The flywheel of a steam engine runs with a constant angular speed of 156rev/min. When the steam is shut off, the friction of the bearings and of the air brings the wheel to rest in 2.20h. What is the tangential linear acceleration of a particle 52.4cm from the axis of rotation when the flywheel is turning at 72.5rev/min.


Homework Equations



At= r(alpha)

I know what the radius is, so I must find angular acceleration.

alpha = (Wf-Wi)/t
_____=(0-156)/(2.2*60)
_____=-1.18rev/min^2

Therefore

At= (52.4cm)(-1.18rev/min^2)


3. The attempt at confusion

So now that I am done, I am left wondering why someone would put 72.5 rev/min in the equation. I was tempted to put that into my equation to find alpha, but then I am lacking time. I then turned towards my linear equivalent equations, but I am lacking time it takes to decelerate to 72.5 or the amount of rotations it takes to get that far. What am i meant to do?
 
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Its not unheard for a problem to contain extraneous information. You've correctly figured that the tangential acceleration is constant and you don't need the speed. If there is a followup question asking you to compute the radial acceleration? Then you will need the speed.
 
Yeah the next one was calculate the total force, so I realized that the speed was simply used in omega^2(r), so that cleared it up. Thanks though, it had me for a bit
 

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