Finding revolutions per minute [Archive]

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chenying

Sep16-09, 02:41 PM

1. The problem statement, all variables and given/known data

An astronaut is rotated in a centrifuge of radius 4.0 m.

2. Relevant equations

v = omega * radius

a = v^2/radius

3. The attempt at a solution

Ok, so I first found the omega for this acceleration, which came out to be

omega = 3.56179 s^-1

then I decided that since the it is revolutions per minute, I multiplied the vaule of omega by 60 seconds, and divided the value by the circumference of the circle.

(2*pi*4)/210.107 = .119619

So this answer is completely wrong because it does not make any sense whatsoever

Kalvarin

Sep16-09, 02:47 PM

You need to know more data to work out the rpm, knowing just the radius of the centrifuge is not enough.

chenying

Sep16-09, 02:50 PM

This was all that was given to me.

Anden

Sep16-09, 02:51 PM

Omega = 2pi / Time, then you can get the time of one revolution

Kalvarin

Sep16-09, 02:52 PM

Well rpm for a gven radius can infinetly many values. How did you work out the value of omega?

chenying

Sep16-09, 03:07 PM

I used a = V^2/r since i have acceleration and r

Once I got the value of V, i substitute it into v = omega * radius and solved for omega.

Anden

Sep16-09, 03:08 PM

You have forgotten to state the value of a in the question above.

Kalvarin

Sep16-09, 03:09 PM

Oh ok, well then just use your value of omega in the formula anden gave you. That is the time for 1 revolution.

chenying

Sep16-09, 03:27 PM

You have forgotten to state the value of a in the question above.

Sorry, the acceleration is 5g