Ok...Phil look at diagram "1 force rotational sync".png...i attached them all here again..........one motor/top is not energized and not rotating it will keep the same side facing the center of the place at all times...before during and after the orbit (bottommotor is spun up) of 100 RPM......The motor on the other side of the plate is energized and is first rotating at 100rpm before the orbit (bottom motor is spun up) of 100 rpm begins.......Now the orbit (bottom motor will spin up) of 100 rpm begins and cause the two motors to orbit the center of the plate on which they are mounted to........we already know that the motor that has no energy and no rotation is keeping the same side to the center of the plate...but tell us about the other motor the one energized.....It is now spining at 100rpm even before we started the orbit and now the orbit is at 100 RPM.....now......Tell us how fast/& or how much energy you are going to have to increase or decrease to get the energized motor to keep its same side in sync with the center of the bottom plate? Hint: as with the tether ball and the synchronous orbit of mercury.( it keeps the same side facing the sun at all times).......there is no rotation or rotational force in either.... There is only a force or resistance that prevents a rotation, there is no rotation and no cause for a rotation...Rotation is prevented not sustained in mercury....
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1 force rotational sync.PNG
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2 tether ball.PNG
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3 inertial sync.PNG
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4 plate.PNG
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