Angular Acceleration: Homework Equations & Solution

AI Thread Summary
The discussion revolves around calculating the angular acceleration and total revolutions of a wheel that decelerates uniformly from 210 revolutions per minute to rest over 15 seconds. The initial calculation for angular acceleration was found to be 1.47 rad/s², but there was confusion regarding the total revolutions made during deceleration. A participant pointed out that the initial equation used for calculating revolutions resulted in an implausible number, suggesting a need for consistent units. The corrected approach yielded a total of 26.25 revolutions during the 15 seconds. Accurate unit conversion and equation selection are crucial for solving such problems effectively.
Mowgli
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Homework Statement



A 26.0 in diameter wheel is rotation initially at 210.0 revolutions per minute. It slows down uniformly and comes to rest in 15.0 seconds.

a.) what is the angular acceleration?
b.) through how many revolutions did it turn in those 15.0s?



Homework Equations





The Attempt at a Solution



a.)

f= 210.0 / 60s = 3.5 Hz

ang. accel= 2(pi)f= 2(pi) x 3.5
= 21.99 rad/s

21.99 / 15.0 = 1.47 rad/s^2

b.) 1/2(210 + 0)(15.0)
= 1/2(3150)
= 1575
= 1.60 x 10^3 rev

Can anyone confirm?
 
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Mowgli said:

Homework Statement



A 26.0 in diameter wheel is rotation initially at 210.0 revolutions per minute. It slows down uniformly and comes to rest in 15.0 seconds.

b.) 1/2(210 + 0)(15.0)
= 1/2(3150)
= 1575
= 1.60 x 10^3 rev

Can anyone confirm?
There is a problem here your wheel is slowing down but makes more revolutions in 15s then in a min at the initial velocity.What equation are you using there ?
 
for b.) i was using theta = 1/2(initial velocity + final velocity) x time
 
Mowgli said:
b.) 1/2(210 + 0)(15.0)
= 1/2(3150)
= 1575
= 1.60 x 10^3 rev

Check your units. You should not use t=15s. Your units must be consistent.
 
Mowgli said:


f= 210.0 / 60s = 3.5 Hz


so 1/2(3.5 + 0) (15)
= 1/2 (52.5)
= 26.25 rev
 
Now use another equation to check your answer.
 

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