Sure, but a sailboat's fastest point of sail is not generally directly downwind. Not even close to that, but roughly perpendicular to the wind.
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I like the cut of your Jib....I always wanted to say that! Spent my youth tacking sailboats in English Bay Vancouver dodging freighters just because. Beam reach was an easy sail but slow, so it was reserved for when wind direction permitted and crew was tired.Sure, but a sailboat's fastest point of sail is not generally directly downwind. Not even close to that, but roughly perpendicular to the wind.
And that means your fastest point of sail is not necessarily in the direction you want to go. So reaching your destination as quickly as possible is a tradeoff between speed and direction, or point of sail.Discover the Fastest Point of Sail for Maximum Speed and Efficiency
Learn how to find the fastest point of sail to maximize your speed and efficiency while sailing.
The propeller is like the sail. It moves across the wind, providing extra speedSure, but a sailboat's fastest point of sail is not generally directly downwind. Not even close to that, but roughly perpendicular to the wind.
And that means your fastest point of sail is not necessarily in the direction you want to go. So reaching your destination as quickly as possible is a tradeoff between speed and direction, or point of sail.Discover the Fastest Point of Sail for Maximum Speed and Efficiency
Learn how to find the fastest point of sail to maximize your speed and efficiency while sailing.
No because there's no wind to push it forward
Not sure about the sailboat comparison but a large cargo ship power plant is like 30-40MW IIRC, and there's absolutely no way you are fitting 10x 4MW wind turbines on one.
Yup, it's the thrust from the propeller pushing against the wind that's pushing from behind the vehicle so you end up with an overall speed that's faster than just the wind's speed before the forces are compounded, at least that's how it computes for me. Aerodynamics would of course be critical for this to work as the vehicle has to be "slippery" enough that its friction doesn't cancel out or overpower the rest of it. The treadmill "demos" don't really illustrate this, because there's no wind, they are supplying energy to the system via the motion of the treadmill, which is like his wheels and 2x4 example, where he's supply the energy by pushing the 2x4. There is neither of these direct couplings of energy to the actual vehicle.
It’s so interesting because, when traveling with the wind, the vehicle relies on the “traditional” push from the wind to get started. During the very initial phase, more aerodynamic drag could actually be beneficial. Then, as the propeller spins faster, the vehicle would benefit more and more from being more aerodynamic.
Yes, which is why the treadmill example doesn't really illustrate the effect.
Yes, make the vehicle more like a sail, though I suspect with such a light and aerodynamic unit, the blades themselves are enough of a "sail" to get it moving.
Would be an interesting calculation. My immediate reaction is to think it would be very soon, but then I quickly realized it's not that simple, and would depend on how windy it is, as to how much of a benefit the "sail" aspect would be in compromising on aerodynamics for more surface area for the wind to contact, vs the opposite of making the vehicle more slippery so that less thrust is required by the prop for a given speed.
