Video Lab: Data & Proof
Empirical data and video lab demonstrations proving gyroscopic propulsion. Visual evidence of orthogonal coordinate isolation and active lift.
The Best A and B Test
This is by far the best A and B test. It is an improved version with one continuous shot with sped up and slowed down sections. In test A we clearly see no downwards push of the hub whatsoever. Only the gyros orbiting around it vertically. In test B, the hub clearly gets pushed downwards, proving it has the ability to do so. This is just very ordinary Newton's third law in action with a common action and reaction.
The A/B Test: Gyros Alive vs. Dead
This is one continuous shot with sped up and slowed down sections to emphasize the actual A & B tests. In test B, the hub clearly gets pushed downwards, proving it has the ability to do so. This is just very ordinary Newton's third law in action here, where the action and reaction are distinguishable from one another.
Another A/B Test: Gyros Alive vs. Dead
This is one long uncut version in its rawest form in Slo-Mo, you will probably have to fast forward and scan to find the two relevant tests. The spring is merely a scale for measuring weight visually. In the "A" test, the gyros are "alive" and there is no "visible" downwards push or motion on the spring from the hub. While in the "B" test, the gyros are "dead" weights and are not spinning, so this is plain inertial forces. Newton’s third law comes into play "visibly" where the gyros move upwards by using the hub to push off of the spring, thereby compressing it, thus indicating a weight loss. The string has pivots that allow the hub to be pressed downwards in (test B) or allowed upwards as in (test A).
