🔬#MESExperiments 14: Angle of Gyroscope Has Little Effect on Rate/Period of Precession #Interesting
In #MESExperiments 14, I demonstrate a very interesting finding that I had not previously suspected with gyroscopes and that is the steepness of the angle of precession has very little direct effect on the rate of precession. Note that in this context I refer to the rate or “period” of precession as the number of precession revolutions per time (in this case per minute hence RPM) and should be distinguished from precessional or angular velocity which is the actual speed of the center of mass moving in precession. This observation of the precession rate being unaffected by the steepness of the angle indicates both that the angular velocity of the center of mass is increasing as the angle is steeper (since the gyro has further distance to precess) but also that there is an underlying symmetry taking place between the gyro spin speed and the rate of precession.
Furthermore, my prior intuition was that the steeper the gyroscope the more “torque” would be imposed which should drive both the precession rate and velocity faster to maintain its (anti-gravitic) levitation. But given my earlier experiments of gyroscopes literally behaving massless in precession, it seems fitting and more reasonable that precession has a much more correlated and direct connection to the spin speed than conventionally understood.
Four gyroscope tests were performed in this experiment and at angles: 31°, 45°, 65°, and 84° from the vertical. The full results are show in the Excel Spreadsheet file and corresponding Steemit Notes.
- Excel File: https://1drv.ms/x/s!As32ynv0LoaIh_F1zEvJGUMvdW_6zw?e=B3X619
- Steemit Notes: https://steemit.com/mesexperiments/@mes/mesexperiments-14-angle-of-gyroscope-has-little-effect-on-rate-period-of-precession-interesting
I discuss the data and findings in the Steemit article so make sure to go over it. Interesting findings include the precession rate increases with elapsed time but up to a “peak precession rate” after which the precession rate drops. Since the near horizontal 84° gyro fell down quickly it did not exhibit a typical “peak precession rate” but rather fell at its highest precession rate. This is definitely a subject of further study.
Further discussion of the findings, the links to the original gyro tests, specific data measurements, and weight measurements (the gyro used is 150.68 grams with the stem) are also included in the Steemit post.
Note: I accidentally skipped over the 233 revolutions count for the 65° test but have corrected this in the Excel/Steemit data.
Stay Tuned for #MESExperiments 15…
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