Question |
| Asked by: |
kristijan |
| Subject: |
Measuring forced precession inertia |
| Question: |
This experiment in here is the Holy Grail i gyroscopic propulsion...and this guy is ruining it down to the pulp....
https://www.youtube.com/watch?v=-nVVOhIWMPQ&t=505s
You are suppose to measure weight change when you induce forced precision and the gyro is at max speed and not when it is whining down. He is waiting the gyro to start falling down and then activates the contraption.
No...you should put the gyro at its maximum speed and then induce forced precession and measure the change in weight by a precise pressure sensor !!!!!
Then you measure the same weight change bu lifting the arm of the gyro AT THE SAME SPEED without the rotating gyro and measure the weight difference.
There you have a final and permanent experiment to show that FORCED PRECESSION IS A MOVEMENT WITHOUT INERTIA!!!
PLEASE SOMEONE DO IT CORRECTLY....i simply don't have the money to do it.... |
| Date: |
7 March 2020
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Answers (Ordered by Date)
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| Answer: |
Glenn Hawkins - 11/03/2020 02:26:08
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| | Kristjan,
I am sorry that you can’t do the experiment. I understand.
Professor Laithwaite and a university furnished engineer spent one-year building and testing an elaborate, sophisticated contraction to find if there was a weight change. There was no weight change only vibration. You can find his video of that effort on the web and maybe on here as well but there have been lots of tests.
Glenn,
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| Answer: |
Nate - 01/01/2021 01:33:11
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| | Kristijan,
The pulse at the apex is identical to part of the motion of my Impulse Driver.
I agree with your conclusion and I HAVE recorded the weight and vertical acceleration.
See: https://www.youtube.com/watch?v=l5vyOKL-8hc&t=412s
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