Slot Effect
2021年6月1日Register here: http://gg.gg/utiwg
The effect of sails in combination is not simply additive. Two sails can be twice as effective as one sail or less than twice as effective. The combination of jib and mainsail in a Bermuda sloop is very common because these two sails form a particularly beneficial symbiosis. The governing aerodynamics of this happy union goes by the name of the slot effect, about which much—too much—has been written over the years. By now the warning bells should already have rung in your head: as soon as the word ’aerodynamics’ is mentioned, you should anticipate conflicting claims and arguments over the physics of the slot effect. As always, I will banish detailed explanations, and also a brief summary of the common misconceptions, to the appendix. It is appropriate here, nevertheless, to at least state the cause and effect of ’the slot’ because it is an important part of sloop performance.
*Slot Effect Animation
*Slot Machine Effect
*How to make the main & jib work together to give you the power and trim you need. The jib acts as an accelerator for the backside of the main creating more p.
*Download Slot Machine sounds. 2,318 stock sound clips starting at $2. Download and buy high quality Slot Machine sound effects.
*Sound Effect Listen License; Slot Machine: Attribution 3.0. Steam Train Whistle: Attribution 3.0 Photocopy Machine: Attribution 3.0 Steam Train: Attribution 3.0 MP5.
*Arcade game slot machine jackpot tone 1 (short). We are a free sound effects and music library offering thousands of tracks for instant download as both mp3.
Airplane designers know all about the slot effect. The flaps on an aircraft wing, both at the front and the back, are control surfaces that permit the pilot to change the way that air flows over the wing. Staggered wings on an old biplane also influence each other. Way back in the 1930s Prandtl was able to write that ’the total induced drag of a biplane is smaller than that of a monoplane of the same span and of the same lift.’
* Symmetric spinnakers can be difficult to use and are hard work because they are flown only when the boat is running downwind and must be doused for other points of sail. The spinnaker of fig. 4.12 is symmetric (note the spinnaker pole that separates the mast from the spinnaker weather-side clew). There are also asymmetric spinnakers that can be deployed to windward. For downwind sailing there are also genoa foresails (’jennies’), which are large jib sails, and the so-called gennakers, which are genoa-spinnaker hybrids.
Apparent wind velocity
Apparent wind velocityMain
Slats are aerodynamic surfaces on the leading edge of the wings of fixed-wing aircraft which, when deployed, allow the wing to operate at a higher angle of attack. A higher coefficient of lift is produced as a result of angle of attack and speed, so by deploying slats an aircraft can fly at slower speeds, or take off and land in shorter distances.
Figure 4.13. The slot effect is well known to airplane designers but has been understood in the context of sailing only within the last 40 years. On a windward point of sail, the jib influences, and is influenced by, the mainsail. The jib redirects the wind flow so that mainsail drag is reduced. The mainsail increases the jib’s lift.
This fact may seem surprising, and certainly to someone schooled only in the Newtonian momentum flux ideas: the frontal area of biplane wings is greater than that of a single monoplane wing, so shouldn’t the drag be greater? Well, no—that’s aerodynamics for you. Explanations later. The important point is that drag is reduced, and the same thing applies to sails.
Jib and mainsail combine in the same way as the staggered wings of a biplane. When beating to weather, the combination is a very efficient sail plan. The typical orientation of jib and mainsail, and of apparent wind and heading directions, is shown in figure 4.13. The jib redirects wind on the lee side of the mainsail (jib and main form a ’slot’ for the air passing between) so as to reduce mainsail drag. Another effect, surprising and perhaps counterintuitive, is that the mainsail influences jib performance. How can this be, given that the mainsail is mostly downwind of the jib? All explanation deferred.
All that the practical helmsman needs to know is that the mainsail’s presence makes the jib a more effective fore-and-aft sail. If the jib has a mainsail behind it, the jib provides more lift than it would in isolation. When racing on a close haul, the helmsman ’shifts through the gears’: he
Figure 4.14. Aerodynamics in action. The airplane wing provides vertical lift; the boats’ triangular mainsails provide horizontal lift, whereas the foresails provide drag for downwind movement. What this picture does not reveal is the physics that applies underwater. Thanks to Simona Manca for this image.
Figure 4.14. Aerodynamics in action. The airplane wing provides vertical lift; the boats’ triangular mainsails provide horizontal lift, whereas the foresails provide drag for downwind movement. What this picture does not reveal is the physics that applies underwater. Thanks to Simona Manca for this image.Slot Effect Animation
repeatedly trims the jib and main as his yacht picks up speed. The jib is adjusted first because it influences how the mainsail should be trimmed, due to the slot effect.
Slot Machine Effect
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The effect of sails in combination is not simply additive. Two sails can be twice as effective as one sail or less than twice as effective. The combination of jib and mainsail in a Bermuda sloop is very common because these two sails form a particularly beneficial symbiosis. The governing aerodynamics of this happy union goes by the name of the slot effect, about which much—too much—has been written over the years. By now the warning bells should already have rung in your head: as soon as the word ’aerodynamics’ is mentioned, you should anticipate conflicting claims and arguments over the physics of the slot effect. As always, I will banish detailed explanations, and also a brief summary of the common misconceptions, to the appendix. It is appropriate here, nevertheless, to at least state the cause and effect of ’the slot’ because it is an important part of sloop performance.
*Slot Effect Animation
*Slot Machine Effect
*How to make the main & jib work together to give you the power and trim you need. The jib acts as an accelerator for the backside of the main creating more p.
*Download Slot Machine sounds. 2,318 stock sound clips starting at $2. Download and buy high quality Slot Machine sound effects.
*Sound Effect Listen License; Slot Machine: Attribution 3.0. Steam Train Whistle: Attribution 3.0 Photocopy Machine: Attribution 3.0 Steam Train: Attribution 3.0 MP5.
*Arcade game slot machine jackpot tone 1 (short). We are a free sound effects and music library offering thousands of tracks for instant download as both mp3.
Airplane designers know all about the slot effect. The flaps on an aircraft wing, both at the front and the back, are control surfaces that permit the pilot to change the way that air flows over the wing. Staggered wings on an old biplane also influence each other. Way back in the 1930s Prandtl was able to write that ’the total induced drag of a biplane is smaller than that of a monoplane of the same span and of the same lift.’
* Symmetric spinnakers can be difficult to use and are hard work because they are flown only when the boat is running downwind and must be doused for other points of sail. The spinnaker of fig. 4.12 is symmetric (note the spinnaker pole that separates the mast from the spinnaker weather-side clew). There are also asymmetric spinnakers that can be deployed to windward. For downwind sailing there are also genoa foresails (’jennies’), which are large jib sails, and the so-called gennakers, which are genoa-spinnaker hybrids.
Apparent wind velocity
Apparent wind velocityMain
Slats are aerodynamic surfaces on the leading edge of the wings of fixed-wing aircraft which, when deployed, allow the wing to operate at a higher angle of attack. A higher coefficient of lift is produced as a result of angle of attack and speed, so by deploying slats an aircraft can fly at slower speeds, or take off and land in shorter distances.
Figure 4.13. The slot effect is well known to airplane designers but has been understood in the context of sailing only within the last 40 years. On a windward point of sail, the jib influences, and is influenced by, the mainsail. The jib redirects the wind flow so that mainsail drag is reduced. The mainsail increases the jib’s lift.
This fact may seem surprising, and certainly to someone schooled only in the Newtonian momentum flux ideas: the frontal area of biplane wings is greater than that of a single monoplane wing, so shouldn’t the drag be greater? Well, no—that’s aerodynamics for you. Explanations later. The important point is that drag is reduced, and the same thing applies to sails.
Jib and mainsail combine in the same way as the staggered wings of a biplane. When beating to weather, the combination is a very efficient sail plan. The typical orientation of jib and mainsail, and of apparent wind and heading directions, is shown in figure 4.13. The jib redirects wind on the lee side of the mainsail (jib and main form a ’slot’ for the air passing between) so as to reduce mainsail drag. Another effect, surprising and perhaps counterintuitive, is that the mainsail influences jib performance. How can this be, given that the mainsail is mostly downwind of the jib? All explanation deferred.
All that the practical helmsman needs to know is that the mainsail’s presence makes the jib a more effective fore-and-aft sail. If the jib has a mainsail behind it, the jib provides more lift than it would in isolation. When racing on a close haul, the helmsman ’shifts through the gears’: he
Figure 4.14. Aerodynamics in action. The airplane wing provides vertical lift; the boats’ triangular mainsails provide horizontal lift, whereas the foresails provide drag for downwind movement. What this picture does not reveal is the physics that applies underwater. Thanks to Simona Manca for this image.
Figure 4.14. Aerodynamics in action. The airplane wing provides vertical lift; the boats’ triangular mainsails provide horizontal lift, whereas the foresails provide drag for downwind movement. What this picture does not reveal is the physics that applies underwater. Thanks to Simona Manca for this image.Slot Effect Animation
repeatedly trims the jib and main as his yacht picks up speed. The jib is adjusted first because it influences how the mainsail should be trimmed, due to the slot effect.
Slot Machine Effect
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Register here: http://gg.gg/utiwg
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