🔬#MESExperiments 11: Increasing Gyroscope Spin Speed Doesn't Necessarily Increase Rising Rate
In #MESExperiments 11 I go over several gyro rising experiments comparing different gyros to various initial spin speeds in order to understand how the rate of rising is affected by initial spin speeds. I compare 3 different gyroscopes and 2 different initial spin speed types: full speed and a delayed start. The 3 gyroscopes include a small plastic gyro (29.10 grams), a UFO light-up plastic/metallic gyro (134.39 g), and a metallic precision gyro (150.68 g). For each gyro I have placed the experiments side-by-side to better compare their behavior. The delayed start time for the small gyro is 30 seconds, for the UFO gyro it is 1 minute, and for the precision gyro it is 3 minutes. All the experiments had angles very close to 45 degrees from the vertical but it should be noted that even a 1 degree difference can have a drastic impact on the rising rate or even the ability to rise.
The findings show that the small gyro and the UFO gyro rose faster when delayed indicating that slower spin rate helped increase rising rate. But the opposite happened with the precision gyro in that the faster spin speed with no delay rose faster. These are very interesting findings and require further investigation. It is also important to note that the weight of the gyro spinning mass and non-spinning mass are key components in the gyro's magical ability to rise; and which can even allow the gyro to generate torque over-unity in lifting relatively heavy weight as demonstrated in my game-changing #AntiGravity Part 6 video, https://mes.fm/antigravity-playlist.
Note that the thumbnail (shown below) has the full speed rising time shown in the above vertical gyros while the bottom are the initial starting positions of the delayed start gyros.
Table of Results
The full results of each experiment is shown in the table below, which includes the download link to the Excel file. Note that the rising rate increases for the small and UFO gyro but decreases for the precision gyro. Also interesting is the rising rate for the precision gyro is several times smaller than the other gyros. Furthermore the full speed gyros were in the "sleep" or vertical position for longer and as well as taking longer to fully fall down. This may be due to the minimal bearing friction in the vertical position.
https://1drv.ms/x/s!As32ynv0LoaIh-53X75dowZjPNboJA
Retrieved: 13 July 2019
Archive: Not Available
Note that further, more detailed experiments are required to quantitatively measure the spin speeds as well as the relative weights of the spinning vs non-spinning mass. Also in the works is that I'm trying to obtain a gyro wheel with no outer casing at all to get a better understanding of how the gyro behaves with no non-spinning mass. I will also be looking to get a battery powered gyro wheel with variable and uniform spin speed control to further understand the magic of gyros; if you are able to make one or know of a place that sells it please get in contact with me at [email protected].
Screenshots of Each Gyroscope Experiment
The screenshots of each gyro experiment are shown below and in the original draft unmerged video experiments, https://mes.fm/experiments-draft.
Small Plastic Gyroscope 30 Seconds Delayed Start
Small Plastic Gyroscope Full Speed Test
Note that the initial angle is 48 degrees from the vertical as opposed to the 45 degree angle from the previous experiment.
The rotating base was relatively wide compared to the small gyro stem so I formed a ball of glue from a glue gun so that it would rise more evenly when vertical.
UFO Light Up Plastic/Metallic Gyroscope 1 Minute Delayed Start
UFO Light Up Plastic/Metallic Gyroscope Full Speed Test
Precision Metallic Gyroscope 3 Minutes Delayed Start
Note that for this experiment the gyro is tilted at 47.5 degrees and which is slightly more steep than the 45 degrees of the full speed experiment.
Precision Metallic Gyroscope Full Speed Test
Weight Measurements
Small Plastic Toy Gyroscope Weight: 29.10 g
UFO Light Up Plastic/Metallic Gyroscope Weight: 134.39 g
Precision Metallic Gyroscope Weight: 150.68 g
It is worth noting that the according to the website I purchased the precision gyroscope from, the weight of the spinning brass disk including the rotating shaft is 112 g. Thus the ratio of the spinning mass to the total weight is 112/150.68 = 0.7433 = 74.33 %. I believe weighing the spinning rotors of the small toy gyro and UFO gyro and comparing the relative spinning mass ratio with the precision gyro may reveal further important information regarding the rising rates; which I will look to dissemble soon.
https://www.gyroscope.com/d.asp?product=SUPER2
Retrieved: 19 January 2019
Archive: http://archive.fo/qxRNm
Stay Tuned for #MESExperiments 12…
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View More Amazing Videos:
- #MESExperiments video series: https://peakd.com/experiments/@mes/list
- DRAFT #MESExperiments video series: https://mes.fm/experiments-draft
- #MESScience video series: https://mes.fm/science-playlist
- #AntiGravity video series: https://peakd.com/antigravity/@mes/series
- #FreeEnergy video series: https://mes.fm/freeenergy-playlist