Can we assume there is a true centrifugal force?
Please view this video which demonstrates the 4 Wheel Slow Speed Thornson Drive
Now, assuming there is a true centrifugal force, the device depicted in the above video will function on the surface of the earth, as well as in outer space, since there is more momentum in one direction compared to the opposite direction— most importantly, as a function of a true centrifugal force.
However, in contrast, presuming only a pseudo-centrifugal force, not a real force as classically hypothesized by mainstream physicists, the apparatus shown in the video will only function on the surface of the earth and not in outer space. It will oscillate in outer space but not propel linearly in one direction = no net motion over time. The reasoning is as follows. Presupposing no real force, it is the difference between sticktion in one direction and friction in the other direction that causes the device on the table to move in one direction. A more thorough explanation is given below.
A crucial feature is that the internal masses go through a cyclic motion where the motion in one direction is quicker than in the other. The result is that the whole device moves in surges across the ground, giving the appearance that a net thrust is being produced without expelling a reaction mass or having a direct driving connection to the ground.
Regrettably, such devices are not breakthroughs since they still require a connection to the ground to create net motion. The ground is the reaction mass and the frictional connection to the ground is a necessary component to its operation. More specifically, it is the difference between the static fiction (sometimes called sticktion) and the dynamic friction between the device and the ground that is required for their operation. Static friction, the amount of friction encountered when contacting surfaces are not moving relative to one another, is typically greater than the dynamic friction between the same materials. Dynamic friction is the amount of friction when the contacting surfaces are moving relative to one another. (NASA)
Recall that the device’s internal masses move fast in one direction and slow in the other. When the masses move quickly, the device has enough reaction force to overcome the static friction between itself and the ground, and the device slides. When the internal masses return slowly in the other direction, the reaction forces are not enough to overcome the static friction and the device stays in its place.
It is my hypothesis that there is a true centrifugal force based upon a true ether, therefore, inertial propulsion is real and practical as explained on my website inertialpropulsionbyramsey.com
Also refer to this site for more information. https://bit.ly/3BHb23F
make it work on an air bearing and then we will see if it functions as planned. If you decide to test in space, let me know. I might now a guy...