Author Topic: Sails?  (Read 32832 times)

Offline wrangler

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Re: Sails?
« Reply #15 on: October 23, 2015, 10:10:33 PM »
Edit:  To explain, it's the constant slight downward movement of the glider that allows the airflow to create some of the lift, allowing you to manouver.  A ship like the Predator could fluctuate between slight negative boyancy and slight positive boyancy (using the crystals) and use things like airfoils to change direction.
The flight of a glider is more than "slight downward movement".  It's sufficient to generate enough airflow over the wing to cause enough lift for flight.

Using the crystals for vertical movement would move the airship up or down through the air mass.  Sticking things out the side to create drag would certainly then be able to maneuver the airship using the airflow created during that vertical movement.  It would also slow the airship somewhat with that drag.  But if you've got working crystals, you can use them to maneuver without adding drag.  But the sails are not adding propulsion.

Offline Shecky

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Re: Sails?
« Reply #16 on: October 23, 2015, 10:17:39 PM »
Coupling vs. aerodynamics. Think of the main body of the ship: wood and such. Dense things that don't tend to be moved easily by wind and whose main contribution to the body's physics is largely in their inertia; i.e., the coupling coefficient is very low. Even with a lot of sails deployed and flying with the wind, the airship will never be able to move at the precise speed of the surrounding air mass. Ergo, there will be a significantly perceptible "wind." More so when balancing crystal-fed etheric force against the sails to be able to tack; there *will* be a crosswind in that case.

And don't forget that airflow is almost never a perfectly smooth laminar force; there will always be turbulence, interacting air currents and the like.

You did very well to point out that on-water sailing relies largely on the difference between the media, but it doesn't depend entirely on that particular difference. Greatly, yes (see the multiple mentions in the text about how most airship captains deplore using the wind and instead prefer to use etheric propulsion exclusively; if you stop to wonder why, you see why "greatly" ≠ "only"), but never entirely. And it's that gap that allows these airships to sail...and produces wind that the crew can feel.

TL;DR version: Throw a grocery bag in the air when there's significant wind. It moves with the air mass. Ergo, propulsion, and not quite at the speed of that air mass.
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Offline wrangler

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Re: Sails?
« Reply #17 on: October 23, 2015, 11:47:36 PM »
Coupling vs. aerodynamics. Think of the main body of the ship: wood and such. Dense things that don't tend to be moved easily by wind and whose main contribution to the body's physics is largely in their inertia; i.e., the coupling coefficient is very low. Even with a lot of sails deployed and flying with the wind, the airship will never be able to move at the precise speed of the surrounding air mass. Ergo, there will be a significantly perceptible "wind." More so when balancing crystal-fed etheric force against the sails to be able to tack; there *will* be a crosswind in that case.

And don't forget that airflow is almost never a perfectly smooth laminar force; there will always be turbulence, interacting air currents and the like.

You did very well to point out that on-water sailing relies largely on the difference between the media, but it doesn't depend entirely on that particular difference. Greatly, yes (see the multiple mentions in the text about how most airship captains deplore using the wind and instead prefer to use etheric propulsion exclusively; if you stop to wonder why, you see why "greatly" ≠ "only"), but never entirely. And it's that gap that allows these airships to sail...and produces wind that the crew can feel.

TL;DR version: Throw a grocery bag in the air when there's significant wind. It moves with the air mass. Ergo, propulsion, and not quite at the speed of that air mass.
I can see density and inertia coming into play when we talk about the time it may take to accelerate to the speed of the air mass upon departure from the surface, but eventually an aircraft will reach that speed.  Every airplane that flies utilizes that speed in calculating its flight path. 

If you wish to postulate a mass so large that the airship will not reach the speed of the air mass during the time of its flight, then I'd expect that any sails would have negligible effect in imparting additional speed to that airship.


Offline Mith

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Re: Sails?
« Reply #18 on: October 24, 2015, 04:45:57 AM »
Are the sails explicitly described as being deployed like traditional sails on a naval vessel?  I know my mental image is of such (I am not a good study at aerodynamics, and Treasure Planet is one of my favourite movies, so I am not going to be so heavy a critique on functionality), but if they are not specifically described like that, then they could be basically canvas airfoils that work more in style of a hang glider.
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Offline wrangler

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Re: Sails?
« Reply #19 on: October 24, 2015, 05:55:15 AM »
Are the sails explicitly described as being deployed like traditional sails on a naval vessel?  I know my mental image is of such (I am not a good study at aerodynamics, and Treasure Planet is one of my favourite movies, so I am not going to be so heavy a critique on functionality), but if they are not specifically described like that, then they could be basically canvas airfoils that work more in style of a hang glider.
They're described as canvas sails, to catch the "wind" and move the airship when other methods are not used.

Offline Shecky

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Re: Sails?
« Reply #20 on: October 24, 2015, 03:28:26 PM »
I can see density and inertia coming into play when we talk about the time it may take to accelerate to the speed of the air mass upon departure from the surface, but eventually an aircraft will reach that speed.  Every airplane that flies utilizes that speed in calculating its flight path. 

If you wish to postulate a mass so large that the airship will not reach the speed of the air mass during the time of its flight, then I'd expect that any sails would have negligible effect in imparting additional speed to that airship.

"a mass so large" = any nongaseous object. And when a heavier-than-air aircraft that relies on lifting surfaces to remain aloft matches the speed of the air mass it's in, that's called stalling and ends *very* uncomfortably for all involved. All of which means it's a completely inapplicable example, as the airships in TAW do *not* rely on lifting surfaces to remain aloft; the lift crystal is what negates gravity (to a controllably variable extent), while the sails provide the motive force. And the coupling between the air current and the airship can never achieve 100%; it's physically impossible when the differences in density are measurable. Furthermore, to address your comment about inertia applying only until windspeed is matched (which, as I've shown, never happens, but for the sake of argument), you're assuming not only a perfectly smooth laminar flow but an absolutely static vector value (i.e., the air current never changes velocity or direction or meets another air current, etc.). This is more of a practical consideration than one that addresses the fundamental principle I'm trying to convey to you, but there it is, all the same.

Try this on for size: Remember those little "paratrooper" toys from many years ago (i.e., essentially just an action figure with a toy parachute attached to it)? Go outside when the air masses are moving (i.e., the wind is blowing), unfold the parachute and place the action figure in your hand without constraining it. It *will* be pulled out of your hand, but it will never equal the speed of the wind.

This is, of course, a horribly rough illustration, but it *is* illustrative. Sails *can* propel an entirely airborne object, and that object will not quite match the speed of the air current it's in.
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Offline wrangler

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Re: Sails?
« Reply #21 on: October 24, 2015, 04:39:45 PM »
"a mass so large" = any nongaseous object. And when a heavier-than-air aircraft that relies on lifting surfaces to remain aloft matches the speed of the air mass it's in, that's called stalling and ends *very* uncomfortably for all involved. All of which means it's a completely inapplicable example, as the airships in TAW do *not* rely on lifting surfaces to remain aloft; the lift crystal is what negates gravity (to a controllably variable extent), while the sails provide the motive force. And the coupling between the air current and the airship can never achieve 100%; it's physically impossible when the differences in density are measurable. Furthermore, to address your comment about inertia applying only until windspeed is matched (which, as I've shown, never happens, but for the sake of argument), you're assuming not only a perfectly smooth laminar flow but an absolutely static vector value (i.e., the air current never changes velocity or direction or meets another air current, etc.). This is more of a practical consideration than one that addresses the fundamental principle I'm trying to convey to you, but there it is, all the same.

Try this on for size: Remember those little "paratrooper" toys from many years ago (i.e., essentially just an action figure with a toy parachute attached to it)? Go outside when the air masses are moving (i.e., the wind is blowing), unfold the parachute and place the action figure in your hand without constraining it. It *will* be pulled out of your hand, but it will never equal the speed of the wind.

This is, of course, a horribly rough illustration, but it *is* illustrative. Sails *can* propel an entirely airborne object, and that object will not quite match the speed of the air current it's in.
The point I made (perhaps not clearly enough) regarding airplanes was that they move with the air mass, in addition to their progress through it, and that this movement must be taken into account in determining the flight path over the ground.  Of course this would be inapplicable regarding the comparison you mention, and which I didn't make.

I'm willing to concede that theoretically the mass may never reach 100% of the speed of the air mass, but approach it asymptotically.  But practically speaking, I consider it close enough to make sails pointless for motive force for at least a large mass.  As long as you have a force (the motion of the air mass) acting on a mass, it will continue to accelerate.

Regarding static wind speed, yes, that was assumed to simplify the example; the effect of changes on a very large mass was considered negligible for the purposes of that example.

« Last Edit: October 24, 2015, 04:41:30 PM by wrangler »

Offline Shecky

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Re: Sails?
« Reply #22 on: October 24, 2015, 06:47:07 PM »
The point I made (perhaps not clearly enough) regarding airplanes was that they move with the air mass, in addition to their progress through it, and that this movement must be taken into account in determining the flight path over the ground.  Of course this would be inapplicable regarding the comparison you mention, and which I didn't make.

I'm willing to concede that theoretically the mass may never reach 100% of the speed of the air mass, but approach it asymptotically.  But practically speaking, I consider it close enough to make sails pointless for motive force for at least a large mass.  As long as you have a force (the motion of the air mass) acting on a mass, it will continue to accelerate.

Regarding static wind speed, yes, that was assumed to simplify the example; the effect of changes on a very large mass was considered negligible for the purposes of that example.

It's not close enough. I'll grant that moving with the air current cuts down on the drag from the main body, sure. But there will always be far more coupling between sails and air than between hull and air, and when the ship as a whole has reached its maximum speed in the air current, that gap (although certainly reduced) will never entirely zero out...and in the meantime, the ship is still moving (ergo, sails as motive force work), and there will still be at least breezes on the deck. Gale-force winds, not so much, but current shifts will increase perceived windspeed on the deck.

Just because it works differently from ships on the sea in no way means it doesn't work. To address your original post:

So how do sails propel these airships, since there's no "wind" within an air mass?

Perhaps it's revealed later?  I just started this book.

...they do propel the ships. And there is perceived air movement.
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Offline knnn

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Re: Sails?
« Reply #23 on: October 25, 2015, 12:36:46 AM »
Wrangler still makes a very good point though.  How do you "tack to wind" in an airship?  In water, it's the large resistance of the water together with a keel that allows you to keep your ship with sails at an angle to the wind.  If your ship is completely in the air, what keeps the ship from turning into the direction of the wind? 
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Offline Griffyn612

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Re: Sails?
« Reply #24 on: October 25, 2015, 12:41:26 AM »
Wrangler still makes a very good point though.  How do you "tack to wind" in an airship?  In water, it's the large resistance of the water together with a keel that allows you to keep your ship with sails at an angle to the wind.  If your ship is completely in the air, what keeps the ship from turning into the direction of the wind?
That would only be a problem if the sails were deployed when propelled against the wind by other power, wouldn't it?  It's not like they'd just leave the sails up all the time.

Offline Shecky

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Re: Sails?
« Reply #25 on: October 25, 2015, 01:15:58 AM »
Wrangler still makes a very good point though.  How do you "tack to wind" in an airship?  In water, it's the large resistance of the water together with a keel that allows you to keep your ship with sails at an angle to the wind.  If your ship is completely in the air, what keeps the ship from turning into the direction of the wind?

The crystals and the webbing. Between the lift and attitude crystals and the webbing, they could vector to a torquing force sufficient to produce a tacking effect.
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Offline Mith

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Re: Sails?
« Reply #26 on: October 25, 2015, 02:43:35 AM »
Yeah, I figured that the crystals were tasked with creating a sufficient analogue of a water surface, with the benefit of being able to control the "slope" of the "surface" that allows for ships to change altitude at an incline (instead of a straight drop.)
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Offline knnn

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Re: Sails?
« Reply #27 on: October 25, 2015, 03:45:52 AM »
The crystals and the webbing. Between the lift and attitude crystals and the webbing, they could vector to a torquing force sufficient to produce a tacking effect.

I thought the point was that the sails work in places where the webbing doesn't do anything.
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Offline Mith

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Re: Sails?
« Reply #28 on: October 25, 2015, 03:06:10 PM »
But the crystals would.  Perhaps that was a mistype.
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Offline knnn

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Re: Sails?
« Reply #29 on: October 26, 2015, 12:44:21 AM »
But the crystals would.  Perhaps that was a mistype.

So we're saying that crystals alone are sufficent to keep a ship in a specific direction?  Kinda like a massive gyro?
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