pequaide wrote:You will imitatively find a solution to the problem of making free energy from gravity if you will take Newtonian mechanics to be what Newton said not from what others say he said; or post Newton add on.
Newton showed that we could obtain objective measures by multiplying force and diplacement fields. We have the luxury of modern (ie. accurate) physics to hand; i see little benefit in the incomplete 17th century paradigms.
Newton explained nothing away by the use of a frame; none; he use no frames.
Motion is relative, so all of Newtonian mechanics is dependent upon inertial reference frames. Although not mentioned by word, they are implicit within the three laws, especially the non-inertial (observer) frame.
I fail to see the merits or relevence of these objections.
Newton did not propose, or defend, the concept of energy; it was all linear momentum and the lines could be circular.
Yes i've mentioned s'Gravesande repeatedly in this thread.
And also the functional equivalence of a linear KE curve to momentum.
If you find comparative energies so objectionable, then just stick with momentum - run the N3 break thought experiment - work out how to gain free momentum from a failure of Newton's 3rd law - and you'll see that the same masses have alternate velocities and thus momentums relative to one another, as compared to an observer in the stationary frame.
Same asymmetry, but you'd just be blinding yourself to the more useful measure, which is energy. Either way, there's a KE gain because there's a momentum gain, and both from the standard observer frame.
That's the asymmetry i'm aiming for, via alternative means. It's not complicated, if you just run the thought experiment and examine its conclusions.
In the Dawn Mission, yo-yo despin device, the motion of 400 kilograms was transferred to 1 kilogram. This motion was transferred through a tether. The force in the tether had to be equal (and opposite) to itself, and the time over which this force acted had to be equal to itself.
According to Newton’s Third Law of Motion the momentum change on the ends of the tether had to be equal to each other. The spin momentum of the rocket went from 400 to zero; for a change of four hundred units of momentum. The one kilogram has 400 units of change by having an increase in velocity form one to 400 m/sec.
Smaller model of this event have been performed in the lab, the experiments are dropped as the event is video taped. The experiments cost about $20. Quality video cameras are now below $200.
So the craft's angular momentum is dumped as linear momentum. Its RKE has been used as potential to accelerate two linear KE's. It could actually replace the scissorjack in the system i described previously - the two equal and opposite linear accelerations would leave its own linear motion unaffected, cancelling the N3 response, and the net system's displacement would add and subtract from the effective F*d integrals of the flung masses measured from the stationary frame. The spent RKE would replace the PE of a spring.
Would be more difficult to control than a scissorjack, but does the same job.
I'm guessing that wasn't your point though, and you're instead suggesting that the yo-yo despin device actually demonstrates a symmetry break.. to which my answer remains that for now, i don't think a symmetry break is what you think it is... KE can't
be symmetrical to p because their dimensions diverge with velocity - it's apples to oranges. Momentum
does have a conservative relationship to KE, but my whole emphasis in this thread has been that this relationship is virtually regulated by Newton's 3rd law... in other words if you want to harness a non-conservative relationship between p and KE then ultimately you need an effective N3 exception, and divergent FoR's.
Again, i appreciate that it may not seem immediately obvious why energy conservation should be dependent upon Newton's 3rd law, however there's little point in me re-explainng it if it's going in one ear and out the other... you need to think this through for yourself.
