Good. That is what I meant. So in what way is it not relevant?
I posted it to Hethethet as a source of information. It was something I read. The models indicate that a propeller's output is dependent upon the load. That was my point.
But you do not know that currently they are not slipping? Assuming everything that is unknown will be in your favour, may not be a good idea.
A toothed belt is fine by me.
3)
Dependent upon the conditions, I agree that you can speculate about that. However, those conditions make the difference between the explanations that are plausible, and those that are not.
Again, this is about the treadmill. The discussion has been about my claims for that and the recent videos. The treadmill does not support ANY model of a windcart, or ANY real windcart.
Do you have a massless cart or propeller? No, so your claim must include that unavoidable situation. Stored momentum must be included in the calculations otherwise the claim may be trivial. Steady state can perhaps be "continuous performance above windspeed", but what if the cart spent say, 20% of the time below that, yet the average was still above windspeed?
Your definition would not allow for any acceleration after that point, or response to changing conditions. It is not my claim, so should be defined by the claimants in precise terms. This is the 21st Century. Simple, obvious claims have long been explained. If it's one of those, but in new clothes, so what?
Ok, then we are at crossed purposes.
Claims for the cart's performance rely on the frames idea. Ground energy, the corkscrew propeller and analogies with sailing boats. I say these are false. The logic of the treadmill is flawed, and so discredits that support. I can demonstrate that. Do you see the treadmill as a valid "frame of reference"? Does that fact that the cart stays on the belt, represent in any way windspeed travel?
If you say, no, then we are in agreement.
Yes, there are a lot if ideas that need to be teased apart, so you may not quite get the direct answer you expect.
Measurement is critical. If Ventombiile took perhaps the "last instantaneous reading" as their indicator, then they could possibly claim 80% efficiency.
Not a valid result, though. They make no claims for other-world science, just their technical achievement within current science.
In windcart world, I expect the same to apply.
Perhaps Goodman's cart does do that, but the evidence does not support it. Very poor science. A cart using the same principles I think could, but steady state might not be assured. Then again, no cart has shown that has been done. Under the same conditions, I could definitely reproduce Goodman's result.
A cart that takes only the energy that is immediately available to it cannot extract enough energy to overcome the forces against its travel, mainly drag. This is denied by ideas supported by the treadmill. The explanation is otherwise. All carts that currently claim windspeed travel use momentum or other forms of storage. Wind measurement is complex, so mistakes can be made. The sock is next to useless.
DDWFTTW is possible if you have enough energy. If that is ignored in the calculations, and faster than wind speed achieved, then that achievement is not worth bothering with. Deploying that energy is a matter of technology, not physics per se.
Notice something about Goodman's and Bauer's carts? Massive energy storage, tiny machines. How many windspeed craft do you see without fairings or other drag reducing elements? These are brute force machines. Odd, considering that energy extraction is the problem at hand, don't you think?
Perhaps the prop/wheel gearing is one way of accumulating and dispensing energy, but by no means the only way.
