Calculating Rotor Revolutions for Space Probe Orientation Change

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The discussion focuses on calculating the number of rotor revolutions needed for a space probe to change its orientation by 30 degrees, utilizing the conservation of angular momentum. The rotational inertia of the rotor is given as 2.5 x 10^-3 kg·m², while the probe's rotational inertia is 8 kg·m². Participants confirm that the calculation yields 266.67 revolutions for the rotor to achieve the desired orientation change. The conversation also touches on the ease of obtaining help through instant messaging for homework assistance. Overall, the method discussed is effective for students seeking to understand the physics involved in space probe orientation changes.
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The rotor of an electric motor has rotational inertia I am = 2.5*10-3 kg · m2 about its central axis. The motor is used to change the orientation of the space probe in which it is mounted. The motor axis is mounted along the central axis of the probe. The probe has rotational inertia Ip = 8 kg · m2 about this axis. Calculate the number of revolutions of the rotor required to turn the probe through 30° about its axis.

Not sure where to start, except that you have to use the idea of conservation of angular momentum.
 
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(Ip*(degrees/360))/Im I am telling you, if you just send me an instant message, we've done the uf homework, you can get help from me on there... or just keep posting here... whatevers easier i guess
 
so it did work? that why you deleted your post?
its 266.67, and it does work, its worked for every uf student I've shown that to
 
yeah it worked lol
 
heh, good, i was wondering there for a minute...
 
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