- published: 29 Jul 2013
- views: 291036
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more at http://scitech.quickfound.net
"1930s test conducted at NASA Langley Research Center's 6 by 19 inch Transonic Tunnel during its NACA era."
Public domain film from NASA, slightly cropped to remove uneven edges, with the aspect ratio corrected, and mild video noise reduction applied.
The film was silent. I have added music created by myself using the Reaper Digital Audio Workstation and the Proteus VX VST instrument plugin.
http://creativecommons.org/licenses/by-sa/3.0/
http://en.wikipedia.org/wiki/Camber_(aerodynamics)
In aeronautics and aeronautical engineering, camber is the asymmetry between the top and the bottom surfaces of an aerofoil. An aerofoil that is not cambered is called a symmetric aerofoil. The benefits of camber, in contrast to symmetric aerofoils, were discovered and first utilized by Sir George Cayley in the early 19th century...
Overview
Camber is usually designed into an aerofoil to increase the maximum lift coefficient. This minimises the stalling speed of aircraft using the aerofoil. Aircraft with wings based on cambered aerofoils usually have lower stalling speeds than similar aircraft with wings based on symmetric aerofoils.
An aircraft designer may also reduce the camber of the outboard section of the wings to increase the critical angle of attack (stall angle) at the wing tips. When the wing approaches the stall angle this will ensure that the wing root stalls before the tip, giving the aircraft resistance to spinning and maintaining aileron effectiveness close to the stall.
Some recent designs use negative camber. One such design is called the supercritical aerofoil. It is used for near-supersonic flight, and produces a higher lift to drag ratio at near supersonic flight than traditional aerofoils. Supercritical aerofoils employ a flattened upper surface, highly cambered (curved) aft section, and greater leading edge radius as compared to traditional aerofoil shapes. These changes delay the onset of wave drag...
http://en.wikipedia.org/wiki/Flap_(aircraft)
Flaps are hinged surfaces mounted on the trailing edges of the wings of a fixed-wing aircraft to reduce the speed at which an aircraft can be safely flown and to increase the angle of descent for landing. They shorten takeoff and landing distances. Flaps do this by lowering the stall speed and increasing the drag.
Extending flaps increases the camber or curvature of the wing, raising the maximum lift coefficient—or the lift a wing can generate. This allows the aircraft to generate as much lift but at a lower speed, reducing the stalling speed of the aircraft, or the minimum speed at which the aircraft will maintain flight. Extending flaps increases drag which can be beneficial during approach and landing because it slows the aircraft. On some aircraft, a useful side effect of flap deployment is a decrease in aircraft pitch angle which improves the pilot's view of the runway over the nose of the aircraft during landing. However the flaps may also cause pitch-up, depending on the type of flap and the location of the wing.
There are many different types of flaps used...
The Fowler, Fairey-Youngman and Gouge types of flap increase the planform area of the wing in addition to changing the camber. The larger lifting surface reduces wing loading and allows the aircraft to generate the required lift at a lower speed and reduces stalling speed...
http://en.wikipedia.org/wiki/Leading_edge_slot
A leading edge slot is a fixed aerodynamic feature of the wing of some aircraft to reduce the stall speed and promote good low-speed handling qualities. A leading edge slot is a span-wise gap in each wing, allowing air to flow from below the wing to its upper surface. In this manner they allow flight at higher angles of attack and thus reduce the stall speed...
Purpose and development
At an angle of attack above about 15° many airfoils enter the stall. Modification of such an airfoil with a fixed leading edge slot can increase the stalling angle to between 22° and 25°.
Slots were first developed by Handley Page in 1919 and the first aircraft to fly with them was the experimental H.P.17, a modified Airco DH.9A. The first aircraft fitted with controllable slots was the Handley Page H.P.20. Licensing the design became one of Handley Page's major sources of income in the 1920s.
Similar, but retractable, leading edge devices are called slats. When the slat opens, it creates a slot between the slat and the remainder of the wing; retracted, the drag is reduced.
A fixed leading edge slot can increase the maximum lift coefficient of an airfoil section by 40%. In conjunction with a slat, the increase in maximum lift coefficient can be 50% or even 60%...
Unlike trailing edge flaps, leading edge slots do not increase the lift coefficient at zero angle of attack since they do not alter the camber.
And again the reason for a LE slat is to provide a smoother transition for the airflow to the upper surface of the wing. And to also increase wing area allowing the wing to distribute the wing loading.
A Trailing Edge Flaps also increases wing area, and also increases lift due to the increase in AOI (Angle of Incidence). Small chord length's also have stabler boundary layers than larger ones. Meaning the air stays attached to the surface better.
All together they allow an aircraft to fly slower.
- published: 26 May 2011
- views: 12000
Re-positioned wing leading edge slats for increased STOL performance on the Zenith STOL CH750 "Sky Jeep" light sport utility kit airplane.
More flying with the drooped slats: http://youtu.be/aIWhaq_AtbA
Zenith STOL CH 750: http://www.zenithair.com
- published: 25 Jul 2013
- views: 26160
Here is the long version of the landing Air New Zealand flight Melbourne to Christchurch landing. Seat 4a. Leading edge, wing, slats and speed brake can all be seen. Part of this video has been approved for use by Jeppesen Aviation Courseware
- published: 06 Nov 2011
- views: 7591
Hi this is Demondriver from RCgroups.com & I'm gonna share with you my 5th airliner build so far an Airbus A300 I'm building for a friend, Specs lenght 84inches wingspan 72 inches, material blue fan-fold foam, depron, carbon fiber, balsa wood, ply-wood, pink corning foam & more!
- published: 21 Apr 2012
- views: 13097
On August 20, 2007, a Boeing 737-800 operated by China Airlines departed from Taiwan and had an uneventful flight to Naha Airport, Okinawa, Japan. The 737-800 employs a high-lift system that includes leading-edge slats which enhance takeoff and landing performance.
These slats move on tracks which retract into the wing-leading edge until contact with a downstop assembly. When retracted, the slat tracks are stored in housings which are only large enough to accommodate the slat track. The track housing itself is an integrated part of the wing fuel tank and extends through the front spar into the main fuel tank.
Approximately a month prior to the accident, the No. 5 slat-can had been inspected and reworked in accordance with a fleet-wide Boeing service letter. It was believed by investigators that a washer had been omitted during reassembly, following this maintenance activity. The bolt assembly can be seen here as part of the downstop. The washer was intended to prevent the bolt assembly from passing through the downstop, since the nut is smaller than the hole in the downstop assembly.
Investigators believed that at sometime between the earlier maintenance action and this flight, the bolt assembly migrated out of the downstop assembly and fell into the slat track housing. With the bolt assembly lying inside the track housing, upon slat retraction, the track pushed the bolt assembly through the bottom of the housing, penetrating the main fuel tank, which resulted in a fuel tank breach. Leaking fuel migrated to the leading edge of the wing and was carried aft by airflow during airplane taxi. This photo was taken from the penetrated fuel tank after the accident occurred. As shown, the entire bolt assembly was driven into the fuel tank.
After arriving at the designated parking position, leaking fuel began pooling beneath the aircraft. Ground personnel observed this leaking fuel coming from the right side of the aircraft and immediately contacted the flight crew via the cockpit interphone system advising them of the situation.
During taxi, and while the engine was still running at idle, leaking fuel was not able to reach the hot engine tailpipe or brakes as the cool engine fan exhaust prevented fuel migration to these hot areas. Upon engine shutdown, the fuel was able to drip onto the tailpipe of the engine and onto the hot brakes, resulting in ignition. Flames then quickly spread back to the aircraft, which was eventually completely destroyed by the fire.
The airplane was successfully evacuated at the first indication of fire. There were no fatalities or serious injuries. The first picture shows the aircraft during the fire. The second picture shows the No. 5 slat track housing following the fire.
- published: 04 Nov 2013
- views: 16228
I LOOKED INTO INSTALLING THE INNER SPLIT FLAPS BUT DECIDED AGAINST DUE TO BELLY LANDINGS PROB RIPPING THEM OFF IN THE FIRST FLIGHT SO I MADE USE OF THE SLATS WHICH PZ HAVE PANEL LINED THOUGHT I WOULD SHARE MY BUILD INSTALLING THE SCALE LEADING EDGE SLATS ON MY 109 TRIED TO KEEP IT AS SIMPLE AND CHEAP AS POSS PRICE OF BUILD 0 I HAD THE BITS BUT NO MORE THAN A FEW POUNDS IF U DONT.
PARTS NEEDED
2 SPRAY BOTTLE TUBES.
SOME RIGID PLASTIC TUBE IN THIS CASE A WINDOW BLIND OPENER CUT INTO 4 SECTIONS.
SPRUNG WIRE IN THIS CASE WINDSCREEN REMOVAL CHEESE WIRE...
4 PLASTIC RAMS... I USED LEGO RODS.
2 GRUB SUICIDE CONNECTORS FOR CONTROL HORN'S.
1 PLASTIC MILK BOTTLE FOR STIFFENING THE FLIMSY SLAT'S.
C.A GLUE & HOT GLUE.
HAS ANYONE ELSE FITTED SLATS TO THEIR PZ 109 LET ME KNOW.
ALL FEEDBACK WELCOME LET ME KNOW WHAT U THINK....SUBSCRIBE AND DONT MISS THE FLIGHT FOOTAGE COMING VERY SOON
- published: 03 Apr 2014
- views: 1598
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. They are usually used while landing or performing maneuvers which take the aircraft close to the stall, but are usually retracted in normal flight to minimize drag.
Types include:
The chord of the slat is typically only a few percent of the wing chord. The slats may extend over the outer third of the wing, or they may cover the entire leading edge. Many early aerodynamicists, including Ludwig Prandtl believed that slats work by inducing a high energy stream to the flow of the main airfoil thus re-energizing its boundary layer and delaying stall. In reality, the slat does not give the air in the slot high velocity (it actually reduces its velocity) and also it cannot be called high-energy air since all the air outside the actual boundary layers has the same total heat. The actual effects of the slat are:
This page contains text from Wikipedia, the Free Encyclopedia -
http://en.wikipedia.org/wiki/Leading_edge_slats
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
The leading edge is the part of the wing that first contacts the air; alternatively it is the foremost edge of an airfoil section. The first is an aerodynamic definition, the second a structural one. As an example of the distinction, during a tailslide, from an aerodynamic point-of-view, the trailing edge becomes the leading edge and vice-versa but from a structural point of view the leading edge remains unchanged.
The structural leading edge may be equipped with one or more of the following:
Associated terms are leading edge radius and leading edge stagnation point.
Seen in plan the leading edge may be straight or curved. A straight leading edge may be swept or unswept, the latter meaning that it is perpendicular to the longitudinal axis of the aircraft. As wing sweep is conventionally measured at the 25% chord line an unswept wing may have a swept or tapered leading edge. Some aircraft, like the General Dynamics F-111, have swing-wings where the sweep of both wing and leading edge can be varied.
This page contains text from Wikipedia, the Free Encyclopedia -
http://en.wikipedia.org/wiki/Leading_edge
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
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10:00Aerodynamics: Airfoil Camber, Flaps, Slots-Slats & Drag: "Smoke Lifts" circa 1938 NACA Langley
Aerodynamics: Airfoil Camber, Flaps, Slots-Slats & Drag: "Smoke Lifts" circa 1938 NACA LangleyAerodynamics: Airfoil Camber, Flaps, Slots-Slats & Drag: "Smoke Lifts" circa 1938 NACA Langley
more at http://scitech.quickfound.net "1930s test conducted at NASA Langley Research Center's 6 by 19 inch Transonic Tunnel during its NACA era." Public domain film from NASA, slightly cropped to remove uneven edges, with the aspect ratio corrected, and mild video noise reduction applied. The film was silent. I have added music created by myself using the Reaper Digital Audio Workstation and the Proteus VX VST instrument plugin. http://creativecommons.org/licenses/by-sa/3.0/ http://en.wikipedia.org/wiki/Camber_(aerodynamics) In aeronautics and aeronautical engineering, camber is the asymmetry between the top and the bottom surfaces of an aerofoil. An aerofoil that is not cambered is called a symmetric aerofoil. The benefits of camber, in contrast to symmetric aerofoils, were discovered and first utilized by Sir George Cayley in the early 19th century... Overview Camber is usually designed into an aerofoil to increase the maximum lift coefficient. This minimises the stalling speed of aircraft using the aerofoil. Aircraft with wings based on cambered aerofoils usually have lower stalling speeds than similar aircraft with wings based on symmetric aerofoils. An aircraft designer may also reduce the camber of the outboard section of the wings to increase the critical angle of attack (stall angle) at the wing tips. When the wing approaches the stall angle this will ensure that the wing root stalls before the tip, giving the aircraft resistance to spinning and maintaining aileron effectiveness close to the stall. Some recent designs use negative camber. One such design is called the supercritical aerofoil. It is used for near-supersonic flight, and produces a higher lift to drag ratio at near supersonic flight than traditional aerofoils. Supercritical aerofoils employ a flattened upper surface, highly cambered (curved) aft section, and greater leading edge radius as compared to traditional aerofoil shapes. These changes delay the onset of wave drag... http://en.wikipedia.org/wiki/Flap_(aircraft) Flaps are hinged surfaces mounted on the trailing edges of the wings of a fixed-wing aircraft to reduce the speed at which an aircraft can be safely flown and to increase the angle of descent for landing. They shorten takeoff and landing distances. Flaps do this by lowering the stall speed and increasing the drag. Extending flaps increases the camber or curvature of the wing, raising the maximum lift coefficient—or the lift a wing can generate. This allows the aircraft to generate as much lift but at a lower speed, reducing the stalling speed of the aircraft, or the minimum speed at which the aircraft will maintain flight. Extending flaps increases drag which can be beneficial during approach and landing because it slows the aircraft. On some aircraft, a useful side effect of flap deployment is a decrease in aircraft pitch angle which improves the pilot's view of the runway over the nose of the aircraft during landing. However the flaps may also cause pitch-up, depending on the type of flap and the location of the wing. There are many different types of flaps used... The Fowler, Fairey-Youngman and Gouge types of flap increase the planform area of the wing in addition to changing the camber. The larger lifting surface reduces wing loading and allows the aircraft to generate the required lift at a lower speed and reduces stalling speed... http://en.wikipedia.org/wiki/Leading_edge_slot A leading edge slot is a fixed aerodynamic feature of the wing of some aircraft to reduce the stall speed and promote good low-speed handling qualities. A leading edge slot is a span-wise gap in each wing, allowing air to flow from below the wing to its upper surface. In this manner they allow flight at higher angles of attack and thus reduce the stall speed... Purpose and development At an angle of attack above about 15° many airfoils enter the stall. Modification of such an airfoil with a fixed leading edge slot can increase the stalling angle to between 22° and 25°. Slots were first developed by Handley Page in 1919 and the first aircraft to fly with them was the experimental H.P.17, a modified Airco DH.9A. The first aircraft fitted with controllable slots was the Handley Page H.P.20. Licensing the design became one of Handley Page's major sources of income in the 1920s. Similar, but retractable, leading edge devices are called slats. When the slat opens, it creates a slot between the slat and the remainder of the wing; retracted, the drag is reduced. A fixed leading edge slot can increase the maximum lift coefficient of an airfoil section by 40%. In conjunction with a slat, the increase in maximum lift coefficient can be 50% or even 60%... Unlike trailing edge flaps, leading edge slots do not increase the lift coefficient at zero angle of attack since they do not alter the camber. -
11:25Model Leading Edge Slat Device Explanation & Development HD
Model Leading Edge Slat Device Explanation & Development HDModel Leading Edge Slat Device Explanation & Development HD
And again the reason for a LE slat is to provide a smoother transition for the airflow to the upper surface of the wing. And to also increase wing area allowing the wing to distribute the wing loading. A Trailing Edge Flaps also increases wing area, and also increases lift due to the increase in AOI (Angle of Incidence). Small chord length's also have stabler boundary layers than larger ones. Meaning the air stays attached to the surface better. All together they allow an aircraft to fly slower. -
5:00Zenith STOL CH 750 with drooped wing leading-edge slats
Zenith STOL CH 750 with drooped wing leading-edge slatsZenith STOL CH 750 with drooped wing leading-edge slats
Re-positioned wing leading edge slats for increased STOL performance on the Zenith STOL CH750 "Sky Jeep" light sport utility kit airplane. More flying with the drooped slats: http://youtu.be/aIWhaq_AtbA Zenith STOL CH 750: http://www.zenithair.com -
18:16Air New Zealand A320 Flight NZ890 landing Christchurch 31OCT11 Extended Slats Leading Edge
Air New Zealand A320 Flight NZ890 landing Christchurch 31OCT11 Extended Slats Leading EdgeAir New Zealand A320 Flight NZ890 landing Christchurch 31OCT11 Extended Slats Leading Edge
Here is the long version of the landing Air New Zealand flight Melbourne to Christchurch landing. Seat 4a. Leading edge, wing, slats and speed brake can all be seen. Part of this video has been approved for use by Jeppesen Aviation Courseware -
13:13DemonDriver's A300 wing Leading edge slat test!
DemonDriver's A300 wing Leading edge slat test!DemonDriver's A300 wing Leading edge slat test!
Hi this is Demondriver from RCgroups.com & I'm gonna share with you my 5th airliner build so far an Airbus A300 I'm building for a friend, Specs lenght 84inches wingspan 72 inches, material blue fan-fold foam, depron, carbon fiber, balsa wood, ply-wood, pink corning foam & more! -
2:16FRC Foamies F-16 w/ Leading Edge Slats
FRC Foamies F-16 w/ Leading Edge Slats -
3:10China Airlines Downstop Failure Animation
China Airlines Downstop Failure AnimationChina Airlines Downstop Failure Animation
On August 20, 2007, a Boeing 737-800 operated by China Airlines departed from Taiwan and had an uneventful flight to Naha Airport, Okinawa, Japan. The 737-800 employs a high-lift system that includes leading-edge slats which enhance takeoff and landing performance. These slats move on tracks which retract into the wing-leading edge until contact with a downstop assembly. When retracted, the slat tracks are stored in housings which are only large enough to accommodate the slat track. The track housing itself is an integrated part of the wing fuel tank and extends through the front spar into the main fuel tank. Approximately a month prior to the accident, the No. 5 slat-can had been inspected and reworked in accordance with a fleet-wide Boeing service letter. It was believed by investigators that a washer had been omitted during reassembly, following this maintenance activity. The bolt assembly can be seen here as part of the downstop. The washer was intended to prevent the bolt assembly from passing through the downstop, since the nut is smaller than the hole in the downstop assembly. Investigators believed that at sometime between the earlier maintenance action and this flight, the bolt assembly migrated out of the downstop assembly and fell into the slat track housing. With the bolt assembly lying inside the track housing, upon slat retraction, the track pushed the bolt assembly through the bottom of the housing, penetrating the main fuel tank, which resulted in a fuel tank breach. Leaking fuel migrated to the leading edge of the wing and was carried aft by airflow during airplane taxi. This photo was taken from the penetrated fuel tank after the accident occurred. As shown, the entire bolt assembly was driven into the fuel tank. After arriving at the designated parking position, leaking fuel began pooling beneath the aircraft. Ground personnel observed this leaking fuel coming from the right side of the aircraft and immediately contacted the flight crew via the cockpit interphone system advising them of the situation. During taxi, and while the engine was still running at idle, leaking fuel was not able to reach the hot engine tailpipe or brakes as the cool engine fan exhaust prevented fuel migration to these hot areas. Upon engine shutdown, the fuel was able to drip onto the tailpipe of the engine and onto the hot brakes, resulting in ignition. Flames then quickly spread back to the aircraft, which was eventually completely destroyed by the fire. The airplane was successfully evacuated at the first indication of fire. There were no fatalities or serious injuries. The first picture shows the aircraft during the fire. The second picture shows the No. 5 slat track housing following the fire. -
1:04FMS Bf 109F Leading Edge Slats Modification
FMS Bf 109F Leading Edge Slats ModificationFMS Bf 109F Leading Edge Slats Modification
A short clip showing the movement of starboard slat. -
3:38Leading edge slats 2
Leading edge slats 2Leading edge slats 2
This video was uploaded from an Android phone. -
4:41PARKZONE BF109 LEADING EDGE SLATS MODIFICATION BUILD AND VID
PARKZONE BF109 LEADING EDGE SLATS MODIFICATION BUILD AND VIDPARKZONE BF109 LEADING EDGE SLATS MODIFICATION BUILD AND VID
I LOOKED INTO INSTALLING THE INNER SPLIT FLAPS BUT DECIDED AGAINST DUE TO BELLY LANDINGS PROB RIPPING THEM OFF IN THE FIRST FLIGHT SO I MADE USE OF THE SLATS WHICH PZ HAVE PANEL LINED THOUGHT I WOULD SHARE MY BUILD INSTALLING THE SCALE LEADING EDGE SLATS ON MY 109 TRIED TO KEEP IT AS SIMPLE AND CHEAP AS POSS PRICE OF BUILD 0 I HAD THE BITS BUT NO MORE THAN A FEW POUNDS IF U DONT. PARTS NEEDED 2 SPRAY BOTTLE TUBES. SOME RIGID PLASTIC TUBE IN THIS CASE A WINDOW BLIND OPENER CUT INTO 4 SECTIONS. SPRUNG WIRE IN THIS CASE WINDSCREEN REMOVAL CHEESE WIRE... 4 PLASTIC RAMS... I USED LEGO RODS. 2 GRUB SUICIDE CONNECTORS FOR CONTROL HORN'S. 1 PLASTIC MILK BOTTLE FOR STIFFENING THE FLIMSY SLAT'S. C.A GLUE & HOT GLUE. HAS ANYONE ELSE FITTED SLATS TO THEIR PZ 109 LET ME KNOW. ALL FEEDBACK WELCOME LET ME KNOW WHAT U THINK....SUBSCRIBE AND DONT MISS THE FLIGHT FOOTAGE COMING VERY SOON
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Aerodynamics: Airfoil Camber, Flaps, Slots-Slats & Drag: "Smoke Lifts" circa 1938 NACA Langley
more at http://scitech.quickfound.net "1930s test conducted at NASA Langley Research Center's 6 by 19 inch Transonic Tunnel during its NACA era." Public domain film from NASA, slightly cropped to remove uneven edges, with the aspect ratio corrected, and mild video noise reduction applied. The film was silent. I have added music created by myself using the Reaper Digital Audio Workstation and the Proteus VX VST instrument plugin. http://creativecommons.org/licenses/by-sa/3.0/ http://en.wikipedia.org/wiki/Camber_(aerodynamics) In aeronautics and aeronautical engineering, camber is the asymmetry between the top and the bottom surfaces of an aerofoil. An aerofoil that is not cambered is called a symmetric aerofoil. The benefits of camber, in contrast to symmetric aerofoils, were discovere... -
Model Leading Edge Slat Device Explanation & Development HD
And again the reason for a LE slat is to provide a smoother transition for the airflow to the upper surface of the wing. And to also increase wing area allowing the wing to distribute the wing loading. A Trailing Edge Flaps also increases wing area, and also increases lift due to the increase in AOI (Angle of Incidence). Small chord length's also have stabler boundary layers than larger ones. Meaning the air stays attached to the surface better. All together they allow an aircraft to fly slower. -
Zenith STOL CH 750 with drooped wing leading-edge slats
Re-positioned wing leading edge slats for increased STOL performance on the Zenith STOL CH750 "Sky Jeep" light sport utility kit airplane. More flying with the drooped slats: http://youtu.be/aIWhaq_AtbA Zenith STOL CH 750: http://www.zenithair.com -
Air New Zealand A320 Flight NZ890 landing Christchurch 31OCT11 Extended Slats Leading Edge
Here is the long version of the landing Air New Zealand flight Melbourne to Christchurch landing. Seat 4a. Leading edge, wing, slats and speed brake can all be seen. Part of this video has been approved for use by Jeppesen Aviation Courseware -
DemonDriver's A300 wing Leading edge slat test!
Hi this is Demondriver from RCgroups.com & I'm gonna share with you my 5th airliner build so far an Airbus A300 I'm building for a friend, Specs lenght 84inches wingspan 72 inches, material blue fan-fold foam, depron, carbon fiber, balsa wood, ply-wood, pink corning foam & more! -
-
China Airlines Downstop Failure Animation
On August 20, 2007, a Boeing 737-800 operated by China Airlines departed from Taiwan and had an uneventful flight to Naha Airport, Okinawa, Japan. The 737-800 employs a high-lift system that includes leading-edge slats which enhance takeoff and landing performance. These slats move on tracks which retract into the wing-leading edge until contact with a downstop assembly. When retracted, the slat tracks are stored in housings which are only large enough to accommodate the slat track. The track housing itself is an integrated part of the wing fuel tank and extends through the front spar into the main fuel tank. Approximately a month prior to the accident, the No. 5 slat-can had been inspected and reworked in accordance with a fleet-wide Boeing service letter. It was believed by investigato... -
FMS Bf 109F Leading Edge Slats Modification
A short clip showing the movement of starboard slat. -
Leading edge slats 2
This video was uploaded from an Android phone. -
PARKZONE BF109 LEADING EDGE SLATS MODIFICATION BUILD AND VID
I LOOKED INTO INSTALLING THE INNER SPLIT FLAPS BUT DECIDED AGAINST DUE TO BELLY LANDINGS PROB RIPPING THEM OFF IN THE FIRST FLIGHT SO I MADE USE OF THE SLATS WHICH PZ HAVE PANEL LINED THOUGHT I WOULD SHARE MY BUILD INSTALLING THE SCALE LEADING EDGE SLATS ON MY 109 TRIED TO KEEP IT AS SIMPLE AND CHEAP AS POSS PRICE OF BUILD 0 I HAD THE BITS BUT NO MORE THAN A FEW POUNDS IF U DONT. PARTS NEEDED 2 SPRAY BOTTLE TUBES. SOME RIGID PLASTIC TUBE IN THIS CASE A WINDOW BLIND OPENER CUT INTO 4 SECTIONS. SPRUNG WIRE IN THIS CASE WINDSCREEN REMOVAL CHEESE WIRE... 4 PLASTIC RAMS... I USED LEGO RODS. 2 GRUB SUICIDE CONNECTORS FOR CONTROL HORN'S. 1 PLASTIC MILK BOTTLE FOR STIFFENING THE FLIMSY SLAT'S. C.A GLUE & HOT GLUE. HAS ANYONE ELSE FITTED SLATS TO THEIR PZ 109 LET ME KNOW. ALL FEEDBACK WELCOME L...
Aerodynamics: Airfoil Camber, Flaps, Slots-Slats & Drag: "Smoke Lifts" circa 1938 NACA Langley
- Order: Reorder
- Duration: 10:00
- Updated: 29 Jul 2013
- views: 291036
more at http://scitech.quickfound.net
"1930s test conducted at NASA Langley Research Center's 6 by 19 inch Transonic Tunnel during its NACA era."
Public domai...
more at http://scitech.quickfound.net
"1930s test conducted at NASA Langley Research Center's 6 by 19 inch Transonic Tunnel during its NACA era."
Public domain film from NASA, slightly cropped to remove uneven edges, with the aspect ratio corrected, and mild video noise reduction applied.
The film was silent. I have added music created by myself using the Reaper Digital Audio Workstation and the Proteus VX VST instrument plugin.
http://creativecommons.org/licenses/by-sa/3.0/
http://en.wikipedia.org/wiki/Camber_(aerodynamics)
In aeronautics and aeronautical engineering, camber is the asymmetry between the top and the bottom surfaces of an aerofoil. An aerofoil that is not cambered is called a symmetric aerofoil. The benefits of camber, in contrast to symmetric aerofoils, were discovered and first utilized by Sir George Cayley in the early 19th century...
Overview
Camber is usually designed into an aerofoil to increase the maximum lift coefficient. This minimises the stalling speed of aircraft using the aerofoil. Aircraft with wings based on cambered aerofoils usually have lower stalling speeds than similar aircraft with wings based on symmetric aerofoils.
An aircraft designer may also reduce the camber of the outboard section of the wings to increase the critical angle of attack (stall angle) at the wing tips. When the wing approaches the stall angle this will ensure that the wing root stalls before the tip, giving the aircraft resistance to spinning and maintaining aileron effectiveness close to the stall.
Some recent designs use negative camber. One such design is called the supercritical aerofoil. It is used for near-supersonic flight, and produces a higher lift to drag ratio at near supersonic flight than traditional aerofoils. Supercritical aerofoils employ a flattened upper surface, highly cambered (curved) aft section, and greater leading edge radius as compared to traditional aerofoil shapes. These changes delay the onset of wave drag...
http://en.wikipedia.org/wiki/Flap_(aircraft)
Flaps are hinged surfaces mounted on the trailing edges of the wings of a fixed-wing aircraft to reduce the speed at which an aircraft can be safely flown and to increase the angle of descent for landing. They shorten takeoff and landing distances. Flaps do this by lowering the stall speed and increasing the drag.
Extending flaps increases the camber or curvature of the wing, raising the maximum lift coefficient—or the lift a wing can generate. This allows the aircraft to generate as much lift but at a lower speed, reducing the stalling speed of the aircraft, or the minimum speed at which the aircraft will maintain flight. Extending flaps increases drag which can be beneficial during approach and landing because it slows the aircraft. On some aircraft, a useful side effect of flap deployment is a decrease in aircraft pitch angle which improves the pilot's view of the runway over the nose of the aircraft during landing. However the flaps may also cause pitch-up, depending on the type of flap and the location of the wing.
There are many different types of flaps used...
The Fowler, Fairey-Youngman and Gouge types of flap increase the planform area of the wing in addition to changing the camber. The larger lifting surface reduces wing loading and allows the aircraft to generate the required lift at a lower speed and reduces stalling speed...
http://en.wikipedia.org/wiki/Leading_edge_slot
A leading edge slot is a fixed aerodynamic feature of the wing of some aircraft to reduce the stall speed and promote good low-speed handling qualities. A leading edge slot is a span-wise gap in each wing, allowing air to flow from below the wing to its upper surface. In this manner they allow flight at higher angles of attack and thus reduce the stall speed...
Purpose and development
At an angle of attack above about 15° many airfoils enter the stall. Modification of such an airfoil with a fixed leading edge slot can increase the stalling angle to between 22° and 25°.
Slots were first developed by Handley Page in 1919 and the first aircraft to fly with them was the experimental H.P.17, a modified Airco DH.9A. The first aircraft fitted with controllable slots was the Handley Page H.P.20. Licensing the design became one of Handley Page's major sources of income in the 1920s.
Similar, but retractable, leading edge devices are called slats. When the slat opens, it creates a slot between the slat and the remainder of the wing; retracted, the drag is reduced.
A fixed leading edge slot can increase the maximum lift coefficient of an airfoil section by 40%. In conjunction with a slat, the increase in maximum lift coefficient can be 50% or even 60%...
Unlike trailing edge flaps, leading edge slots do not increase the lift coefficient at zero angle of attack since they do not alter the camber.
wn.com/Aerodynamics Airfoil Camber, Flaps, Slots Slats Drag Smoke Lifts Circa 1938 Naca Langley
more at http://scitech.quickfound.net
"1930s test conducted at NASA Langley Research Center's 6 by 19 inch Transonic Tunnel during its NACA era."
Public domain film from NASA, slightly cropped to remove uneven edges, with the aspect ratio corrected, and mild video noise reduction applied.
The film was silent. I have added music created by myself using the Reaper Digital Audio Workstation and the Proteus VX VST instrument plugin.
http://creativecommons.org/licenses/by-sa/3.0/
http://en.wikipedia.org/wiki/Camber_(aerodynamics)
In aeronautics and aeronautical engineering, camber is the asymmetry between the top and the bottom surfaces of an aerofoil. An aerofoil that is not cambered is called a symmetric aerofoil. The benefits of camber, in contrast to symmetric aerofoils, were discovered and first utilized by Sir George Cayley in the early 19th century...
Overview
Camber is usually designed into an aerofoil to increase the maximum lift coefficient. This minimises the stalling speed of aircraft using the aerofoil. Aircraft with wings based on cambered aerofoils usually have lower stalling speeds than similar aircraft with wings based on symmetric aerofoils.
An aircraft designer may also reduce the camber of the outboard section of the wings to increase the critical angle of attack (stall angle) at the wing tips. When the wing approaches the stall angle this will ensure that the wing root stalls before the tip, giving the aircraft resistance to spinning and maintaining aileron effectiveness close to the stall.
Some recent designs use negative camber. One such design is called the supercritical aerofoil. It is used for near-supersonic flight, and produces a higher lift to drag ratio at near supersonic flight than traditional aerofoils. Supercritical aerofoils employ a flattened upper surface, highly cambered (curved) aft section, and greater leading edge radius as compared to traditional aerofoil shapes. These changes delay the onset of wave drag...
http://en.wikipedia.org/wiki/Flap_(aircraft)
Flaps are hinged surfaces mounted on the trailing edges of the wings of a fixed-wing aircraft to reduce the speed at which an aircraft can be safely flown and to increase the angle of descent for landing. They shorten takeoff and landing distances. Flaps do this by lowering the stall speed and increasing the drag.
Extending flaps increases the camber or curvature of the wing, raising the maximum lift coefficient—or the lift a wing can generate. This allows the aircraft to generate as much lift but at a lower speed, reducing the stalling speed of the aircraft, or the minimum speed at which the aircraft will maintain flight. Extending flaps increases drag which can be beneficial during approach and landing because it slows the aircraft. On some aircraft, a useful side effect of flap deployment is a decrease in aircraft pitch angle which improves the pilot's view of the runway over the nose of the aircraft during landing. However the flaps may also cause pitch-up, depending on the type of flap and the location of the wing.
There are many different types of flaps used...
The Fowler, Fairey-Youngman and Gouge types of flap increase the planform area of the wing in addition to changing the camber. The larger lifting surface reduces wing loading and allows the aircraft to generate the required lift at a lower speed and reduces stalling speed...
http://en.wikipedia.org/wiki/Leading_edge_slot
A leading edge slot is a fixed aerodynamic feature of the wing of some aircraft to reduce the stall speed and promote good low-speed handling qualities. A leading edge slot is a span-wise gap in each wing, allowing air to flow from below the wing to its upper surface. In this manner they allow flight at higher angles of attack and thus reduce the stall speed...
Purpose and development
At an angle of attack above about 15° many airfoils enter the stall. Modification of such an airfoil with a fixed leading edge slot can increase the stalling angle to between 22° and 25°.
Slots were first developed by Handley Page in 1919 and the first aircraft to fly with them was the experimental H.P.17, a modified Airco DH.9A. The first aircraft fitted with controllable slots was the Handley Page H.P.20. Licensing the design became one of Handley Page's major sources of income in the 1920s.
Similar, but retractable, leading edge devices are called slats. When the slat opens, it creates a slot between the slat and the remainder of the wing; retracted, the drag is reduced.
A fixed leading edge slot can increase the maximum lift coefficient of an airfoil section by 40%. In conjunction with a slat, the increase in maximum lift coefficient can be 50% or even 60%...
Unlike trailing edge flaps, leading edge slots do not increase the lift coefficient at zero angle of attack since they do not alter the camber.
- published: 29 Jul 2013
- views: 291036
Model Leading Edge Slat Device Explanation & Development HD
- Order: Reorder
- Duration: 11:25
- Updated: 26 May 2011
- views: 12000
And again the reason for a LE slat is to provide a smoother transition for the airflow to the upper surface of the wing. And to also increase wing area allowing...
And again the reason for a LE slat is to provide a smoother transition for the airflow to the upper surface of the wing. And to also increase wing area allowing the wing to distribute the wing loading.
A Trailing Edge Flaps also increases wing area, and also increases lift due to the increase in AOI (Angle of Incidence). Small chord length's also have stabler boundary layers than larger ones. Meaning the air stays attached to the surface better.
All together they allow an aircraft to fly slower.
wn.com/Model Leading Edge Slat Device Explanation Development Hd
And again the reason for a LE slat is to provide a smoother transition for the airflow to the upper surface of the wing. And to also increase wing area allowing the wing to distribute the wing loading.
A Trailing Edge Flaps also increases wing area, and also increases lift due to the increase in AOI (Angle of Incidence). Small chord length's also have stabler boundary layers than larger ones. Meaning the air stays attached to the surface better.
All together they allow an aircraft to fly slower.
- published: 26 May 2011
- views: 12000
Zenith STOL CH 750 with drooped wing leading-edge slats
- Order: Reorder
- Duration: 5:00
- Updated: 25 Jul 2013
- views: 26160
Re-positioned wing leading edge slats for increased STOL performance on the Zenith STOL CH750 "Sky Jeep" light sport utility kit airplane.
More flying with the ...
Re-positioned wing leading edge slats for increased STOL performance on the Zenith STOL CH750 "Sky Jeep" light sport utility kit airplane.
More flying with the drooped slats: http://youtu.be/aIWhaq_AtbA
Zenith STOL CH 750: http://www.zenithair.com
wn.com/Zenith Stol Ch 750 With Drooped Wing Leading Edge Slats
Re-positioned wing leading edge slats for increased STOL performance on the Zenith STOL CH750 "Sky Jeep" light sport utility kit airplane.
More flying with the drooped slats: http://youtu.be/aIWhaq_AtbA
Zenith STOL CH 750: http://www.zenithair.com
- published: 25 Jul 2013
- views: 26160
Air New Zealand A320 Flight NZ890 landing Christchurch 31OCT11 Extended Slats Leading Edge
- Order: Reorder
- Duration: 18:16
- Updated: 06 Nov 2011
- views: 7591
Here is the long version of the landing Air New Zealand flight Melbourne to Christchurch landing. Seat 4a. Leading edge, wing, slats and speed brake can all be ...
Here is the long version of the landing Air New Zealand flight Melbourne to Christchurch landing. Seat 4a. Leading edge, wing, slats and speed brake can all be seen. Part of this video has been approved for use by Jeppesen Aviation Courseware
wn.com/Air New Zealand A320 Flight Nz890 Landing Christchurch 31Oct11 Extended Slats Leading Edge
Here is the long version of the landing Air New Zealand flight Melbourne to Christchurch landing. Seat 4a. Leading edge, wing, slats and speed brake can all be seen. Part of this video has been approved for use by Jeppesen Aviation Courseware
- published: 06 Nov 2011
- views: 7591
DemonDriver's A300 wing Leading edge slat test!
- Order: Reorder
- Duration: 13:13
- Updated: 21 Apr 2012
- views: 13097
Hi this is Demondriver from RCgroups.com & I'm gonna share with you my 5th airliner build so far an Airbus A300 I'm building for a friend, Specs lenght 84inches...
Hi this is Demondriver from RCgroups.com & I'm gonna share with you my 5th airliner build so far an Airbus A300 I'm building for a friend, Specs lenght 84inches wingspan 72 inches, material blue fan-fold foam, depron, carbon fiber, balsa wood, ply-wood, pink corning foam & more!
wn.com/Demondriver's A300 Wing Leading Edge Slat Test
Hi this is Demondriver from RCgroups.com & I'm gonna share with you my 5th airliner build so far an Airbus A300 I'm building for a friend, Specs lenght 84inches wingspan 72 inches, material blue fan-fold foam, depron, carbon fiber, balsa wood, ply-wood, pink corning foam & more!
- published: 21 Apr 2012
- views: 13097
FRC Foamies F-16 w/ Leading Edge Slats
- Order: Reorder
- Duration: 2:16
- Updated: 17 Aug 2015
- views: 8898
China Airlines Downstop Failure Animation
- Order: Reorder
- Duration: 3:10
- Updated: 04 Nov 2013
- views: 16228
On August 20, 2007, a Boeing 737-800 operated by China Airlines departed from Taiwan and had an uneventful flight to Naha Airport, Okinawa, Japan. The 737-800 e...
On August 20, 2007, a Boeing 737-800 operated by China Airlines departed from Taiwan and had an uneventful flight to Naha Airport, Okinawa, Japan. The 737-800 employs a high-lift system that includes leading-edge slats which enhance takeoff and landing performance.
These slats move on tracks which retract into the wing-leading edge until contact with a downstop assembly. When retracted, the slat tracks are stored in housings which are only large enough to accommodate the slat track. The track housing itself is an integrated part of the wing fuel tank and extends through the front spar into the main fuel tank.
Approximately a month prior to the accident, the No. 5 slat-can had been inspected and reworked in accordance with a fleet-wide Boeing service letter. It was believed by investigators that a washer had been omitted during reassembly, following this maintenance activity. The bolt assembly can be seen here as part of the downstop. The washer was intended to prevent the bolt assembly from passing through the downstop, since the nut is smaller than the hole in the downstop assembly.
Investigators believed that at sometime between the earlier maintenance action and this flight, the bolt assembly migrated out of the downstop assembly and fell into the slat track housing. With the bolt assembly lying inside the track housing, upon slat retraction, the track pushed the bolt assembly through the bottom of the housing, penetrating the main fuel tank, which resulted in a fuel tank breach. Leaking fuel migrated to the leading edge of the wing and was carried aft by airflow during airplane taxi. This photo was taken from the penetrated fuel tank after the accident occurred. As shown, the entire bolt assembly was driven into the fuel tank.
After arriving at the designated parking position, leaking fuel began pooling beneath the aircraft. Ground personnel observed this leaking fuel coming from the right side of the aircraft and immediately contacted the flight crew via the cockpit interphone system advising them of the situation.
During taxi, and while the engine was still running at idle, leaking fuel was not able to reach the hot engine tailpipe or brakes as the cool engine fan exhaust prevented fuel migration to these hot areas. Upon engine shutdown, the fuel was able to drip onto the tailpipe of the engine and onto the hot brakes, resulting in ignition. Flames then quickly spread back to the aircraft, which was eventually completely destroyed by the fire.
The airplane was successfully evacuated at the first indication of fire. There were no fatalities or serious injuries. The first picture shows the aircraft during the fire. The second picture shows the No. 5 slat track housing following the fire.
wn.com/China Airlines Downstop Failure Animation
On August 20, 2007, a Boeing 737-800 operated by China Airlines departed from Taiwan and had an uneventful flight to Naha Airport, Okinawa, Japan. The 737-800 employs a high-lift system that includes leading-edge slats which enhance takeoff and landing performance.
These slats move on tracks which retract into the wing-leading edge until contact with a downstop assembly. When retracted, the slat tracks are stored in housings which are only large enough to accommodate the slat track. The track housing itself is an integrated part of the wing fuel tank and extends through the front spar into the main fuel tank.
Approximately a month prior to the accident, the No. 5 slat-can had been inspected and reworked in accordance with a fleet-wide Boeing service letter. It was believed by investigators that a washer had been omitted during reassembly, following this maintenance activity. The bolt assembly can be seen here as part of the downstop. The washer was intended to prevent the bolt assembly from passing through the downstop, since the nut is smaller than the hole in the downstop assembly.
Investigators believed that at sometime between the earlier maintenance action and this flight, the bolt assembly migrated out of the downstop assembly and fell into the slat track housing. With the bolt assembly lying inside the track housing, upon slat retraction, the track pushed the bolt assembly through the bottom of the housing, penetrating the main fuel tank, which resulted in a fuel tank breach. Leaking fuel migrated to the leading edge of the wing and was carried aft by airflow during airplane taxi. This photo was taken from the penetrated fuel tank after the accident occurred. As shown, the entire bolt assembly was driven into the fuel tank.
After arriving at the designated parking position, leaking fuel began pooling beneath the aircraft. Ground personnel observed this leaking fuel coming from the right side of the aircraft and immediately contacted the flight crew via the cockpit interphone system advising them of the situation.
During taxi, and while the engine was still running at idle, leaking fuel was not able to reach the hot engine tailpipe or brakes as the cool engine fan exhaust prevented fuel migration to these hot areas. Upon engine shutdown, the fuel was able to drip onto the tailpipe of the engine and onto the hot brakes, resulting in ignition. Flames then quickly spread back to the aircraft, which was eventually completely destroyed by the fire.
The airplane was successfully evacuated at the first indication of fire. There were no fatalities or serious injuries. The first picture shows the aircraft during the fire. The second picture shows the No. 5 slat track housing following the fire.
- published: 04 Nov 2013
- views: 16228
FMS Bf 109F Leading Edge Slats Modification
- Order: Reorder
- Duration: 1:04
- Updated: 29 Sep 2014
- views: 465
A short clip showing the movement of starboard slat.
A short clip showing the movement of starboard slat.
wn.com/Fms Bf 109F Leading Edge Slats Modification
A short clip showing the movement of starboard slat.
- published: 29 Sep 2014
- views: 465
Leading edge slats 2
- Order: Reorder
- Duration: 3:38
- Updated: 08 Aug 2012
- views: 266
This video was uploaded from an Android phone.
This video was uploaded from an Android phone.
wn.com/Leading Edge Slats 2
PARKZONE BF109 LEADING EDGE SLATS MODIFICATION BUILD AND VID
- Order: Reorder
- Duration: 4:41
- Updated: 03 Apr 2014
- views: 1598
I LOOKED INTO INSTALLING THE INNER SPLIT FLAPS BUT DECIDED AGAINST DUE TO BELLY LANDINGS PROB RIPPING THEM OFF IN THE FIRST FLIGHT SO I MADE USE OF THE SLATS WH...
I LOOKED INTO INSTALLING THE INNER SPLIT FLAPS BUT DECIDED AGAINST DUE TO BELLY LANDINGS PROB RIPPING THEM OFF IN THE FIRST FLIGHT SO I MADE USE OF THE SLATS WHICH PZ HAVE PANEL LINED THOUGHT I WOULD SHARE MY BUILD INSTALLING THE SCALE LEADING EDGE SLATS ON MY 109 TRIED TO KEEP IT AS SIMPLE AND CHEAP AS POSS PRICE OF BUILD 0 I HAD THE BITS BUT NO MORE THAN A FEW POUNDS IF U DONT.
PARTS NEEDED
2 SPRAY BOTTLE TUBES.
SOME RIGID PLASTIC TUBE IN THIS CASE A WINDOW BLIND OPENER CUT INTO 4 SECTIONS.
SPRUNG WIRE IN THIS CASE WINDSCREEN REMOVAL CHEESE WIRE...
4 PLASTIC RAMS... I USED LEGO RODS.
2 GRUB SUICIDE CONNECTORS FOR CONTROL HORN'S.
1 PLASTIC MILK BOTTLE FOR STIFFENING THE FLIMSY SLAT'S.
C.A GLUE & HOT GLUE.
HAS ANYONE ELSE FITTED SLATS TO THEIR PZ 109 LET ME KNOW.
ALL FEEDBACK WELCOME LET ME KNOW WHAT U THINK....SUBSCRIBE AND DONT MISS THE FLIGHT FOOTAGE COMING VERY SOON
wn.com/Parkzone Bf109 Leading Edge Slats Modification Build And Vid
I LOOKED INTO INSTALLING THE INNER SPLIT FLAPS BUT DECIDED AGAINST DUE TO BELLY LANDINGS PROB RIPPING THEM OFF IN THE FIRST FLIGHT SO I MADE USE OF THE SLATS WHICH PZ HAVE PANEL LINED THOUGHT I WOULD SHARE MY BUILD INSTALLING THE SCALE LEADING EDGE SLATS ON MY 109 TRIED TO KEEP IT AS SIMPLE AND CHEAP AS POSS PRICE OF BUILD 0 I HAD THE BITS BUT NO MORE THAN A FEW POUNDS IF U DONT.
PARTS NEEDED
2 SPRAY BOTTLE TUBES.
SOME RIGID PLASTIC TUBE IN THIS CASE A WINDOW BLIND OPENER CUT INTO 4 SECTIONS.
SPRUNG WIRE IN THIS CASE WINDSCREEN REMOVAL CHEESE WIRE...
4 PLASTIC RAMS... I USED LEGO RODS.
2 GRUB SUICIDE CONNECTORS FOR CONTROL HORN'S.
1 PLASTIC MILK BOTTLE FOR STIFFENING THE FLIMSY SLAT'S.
C.A GLUE & HOT GLUE.
HAS ANYONE ELSE FITTED SLATS TO THEIR PZ 109 LET ME KNOW.
ALL FEEDBACK WELCOME LET ME KNOW WHAT U THINK....SUBSCRIBE AND DONT MISS THE FLIGHT FOOTAGE COMING VERY SOON
- published: 03 Apr 2014
- views: 1598
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10:00
Aerodynamics: Airfoil Camber, Flaps, Slots-Slats & Drag: "Smoke Lifts" circa 1938 NACA Langley
more at http://scitech.quickfound.net
"1930s test conducted at NASA Langley Research Cent...
published: 29 Jul 2013
Aerodynamics: Airfoil Camber, Flaps, Slots-Slats & Drag: "Smoke Lifts" circa 1938 NACA Langley
Aerodynamics: Airfoil Camber, Flaps, Slots-Slats & Drag: "Smoke Lifts" circa 1938 NACA Langley
- Report rights infringement
- published: 29 Jul 2013
- views: 291036
11:25
Model Leading Edge Slat Device Explanation & Development HD
And again the reason for a LE slat is to provide a smoother transition for the airflow to ...
published: 26 May 2011
Model Leading Edge Slat Device Explanation & Development HD
Model Leading Edge Slat Device Explanation & Development HD
- Report rights infringement
- published: 26 May 2011
- views: 12000
5:00
Zenith STOL CH 750 with drooped wing leading-edge slats
Re-positioned wing leading edge slats for increased STOL performance on the Zenith STOL CH...
published: 25 Jul 2013
Zenith STOL CH 750 with drooped wing leading-edge slats
Zenith STOL CH 750 with drooped wing leading-edge slats
- Report rights infringement
- published: 25 Jul 2013
- views: 26160
18:16
Air New Zealand A320 Flight NZ890 landing Christchurch 31OCT11 Extended Slats Leading Edge
Here is the long version of the landing Air New Zealand flight Melbourne to Christchurch l...
published: 06 Nov 2011
Air New Zealand A320 Flight NZ890 landing Christchurch 31OCT11 Extended Slats Leading Edge
Air New Zealand A320 Flight NZ890 landing Christchurch 31OCT11 Extended Slats Leading Edge
- Report rights infringement
- published: 06 Nov 2011
- views: 7591
13:13
DemonDriver's A300 wing Leading edge slat test!
Hi this is Demondriver from RCgroups.com & I'm gonna share with you my 5th airliner build ...
published: 21 Apr 2012
DemonDriver's A300 wing Leading edge slat test!
DemonDriver's A300 wing Leading edge slat test!
- Report rights infringement
- published: 21 Apr 2012
- views: 13097
2:16
FRC Foamies F-16 w/ Leading Edge Slats
We got Parkjet Plans, eBooks, and the best Forum. http://www.RCPowers.com/
published: 17 Aug 2015
FRC Foamies F-16 w/ Leading Edge Slats
FRC Foamies F-16 w/ Leading Edge Slats
- Report rights infringement
- published: 17 Aug 2015
- views: 8898
3:10
China Airlines Downstop Failure Animation
On August 20, 2007, a Boeing 737-800 operated by China Airlines departed from Taiwan and h...
published: 04 Nov 2013
China Airlines Downstop Failure Animation
China Airlines Downstop Failure Animation
- Report rights infringement
- published: 04 Nov 2013
- views: 16228
1:04
FMS Bf 109F Leading Edge Slats Modification
A short clip showing the movement of starboard slat.
published: 29 Sep 2014
FMS Bf 109F Leading Edge Slats Modification
FMS Bf 109F Leading Edge Slats Modification
- Report rights infringement
- published: 29 Sep 2014
- views: 465
3:38
Leading edge slats 2
This video was uploaded from an Android phone.
published: 08 Aug 2012
Leading edge slats 2
Leading edge slats 2
- Report rights infringement
- published: 08 Aug 2012
- views: 266
4:41
PARKZONE BF109 LEADING EDGE SLATS MODIFICATION BUILD AND VID
I LOOKED INTO INSTALLING THE INNER SPLIT FLAPS BUT DECIDED AGAINST DUE TO BELLY LANDINGS P...
published: 03 Apr 2014
PARKZONE BF109 LEADING EDGE SLATS MODIFICATION BUILD AND VID
PARKZONE BF109 LEADING EDGE SLATS MODIFICATION BUILD AND VID
- Report rights infringement
- published: 03 Apr 2014
- views: 1598
Aerodynamics: Airfoil Camber, Flaps, Slots-Slats &...
Model Leading Edge Slat Device Explanation & Devel...
Zenith STOL CH 750 with drooped wing leading-edge ...
Air New Zealand A320 Flight NZ890 landing Christch...
DemonDriver's A300 wing Leading edge slat test!...
FRC Foamies F-16 w/ Leading Edge Slats...
China Airlines Downstop Failure Animation...
FMS Bf 109F Leading Edge Slats Modification...
Leading edge slats 2...
PARKZONE BF109 LEADING EDGE SLATS MODIFICATION BUI...
photo: Creative Commons / Gage Skidmore
GOP Wants to Declare War On Islamic Ideology In Wake Of Orlando Shooting
Edit WorldNews.com 17 Jun 2016
More so, what new roles would corporations, the media, and Pentagon play? And since there is no decisive blow in war, how long would this war last and would it include a war for and within the minds of Americans, even leading to the defeat of critical thinking?Radical Islam is not only an ambiguous term, but most Muslims disagree over its meaning ... It might be true the U.S ... (Dallas Darling is the author of Politics 501....
photo: Creative Commons / TheBostonianLonghorn
IAAF Refuses To Lift Ban, Russian Olympic Team To Miss Rio Olympics
Edit WorldNews.com 17 Jun 2016
A decision by the International Association of Athletics Federations (IAAF) governing body Friday will force Russian track and field athletes to miss the Rio Olympics after the sport's governing body decided unanimously to keep a ban in place ahead of the Games, SkyNews reported.In November, the IAAF provisionally suspended the country’s athletes from competition....
photo: Public Domain / Facebook/ Attanai Thaiyuanwong
Video: Godzilla-sized lizard tries to enter home in Thailand
Edit Deccan Chronicle 17 Jun 2016
How often do you see a Godzilla-sized lizard knocking your door? On Wednesday a Thai resident captured a video of his encounter with a giant reptile, who was knocking on his door trying to get into his house. Attanai Thaiyuanwong found this huge lizard trying to make his way into his place and within no time shared the photos of it on Facebook ... . ....
photo: NASA / James Yungel
'We’re Officially Living in a New World': Antarctica Hits Highest CO2 Level in 4 Million Years
Edit Alternet 17 Jun 2016
Earth's most remote continent has officially caught up to the rest of the planet. That spells disaster for us all. We’re officially living in a new world. Carbon dioxide has been steadily rising since the start of the Industrial Revolution, setting a new high year after year. There’s a notable new entry to the record books. The last station on Earth without a 400 parts per million (ppm) reading has reached it. A little 400 ppm history....
« back to news headlines
STOL Ch-750 now available as "ready fo fly" light sport airplane
Edit The Examiner 15 Apr 2016
A very popular light sport plane is now available in ready to fly form. This is welcome news to fans of the popular STOL (short take-off and landing) design who don’t have the time or inclination to build their own kit version of the airplane ... Equipped with full-span leading-edge slats, the roomy STOL design boasts take-off distances of just 100 feet. Zenith Aircraft Co ... Through the cooperation of Zenair Ltd ... ....
Antonov An-2, The Plane That Can Fly Backwards!
Edit World History Online 24 Mar 2016
Last year, North Korea showed off a new camouflage scheme for one of its military aircraft. Kim Jong-Un himself was shown at the controls of one of the planes ... On the front of the wings are flexible panels called leading-edge slats ... “You put all of the flaps down and leading-edge slats on the front of the wing, You turn the aircraft 40 degrees into the wind and give the engine an awful lot of power and you can hold it there.” ... ....
Pakistan's tool of war: PAF's rolling thunder
Edit Dawn 15 Mar 2016
JF-17 over Paris. -Aviationist/YouTube ... Since then, it has formed an aerial bulwark against any aggressive designs by other nation states ... -PPI/FIle ... -techgenmag.com ... Splash one bandit ... -APP/FIle ... Read ... The JF-17 fighter incorporates a fly-by-wire system, through which the aircraft’s pitch axis is controlled, with leading edge slats/flaps and trailing edge flaps automatically adjusted during maneuvering to increase turning performance ... ....
SyberJet Announces Its First European Service Center—Rheinland Air Service (Emivest Aerospace Corporation)
Edit Public Technologies 18 Nov 2015
(Source. Emivest Aerospace Corporation). SyberJet Aircraft is pleased to announce that it has signed an agreement with Rheinland Air Service GmbH (RAS), based in Mönchengladbach, Germany, to become an authorized SyberJet Customer Service Center ... It is designed with a 30 degree swept wing for high speed and fuel efficient cruising and with leading edge slats and flaps that are optimized for low speed approaches and gentle landings....
16 Inspiring eco-friendly furnishings from Art of Progress at London Design Festival 2015
Edit Inhabitat 20 Sep 2015
40 x 40 series in marble by Moreno Ratti and Paolo Ulian. The 40 x 40 series by Moreno Ratti and Paolo Ulian experiments with the ubiquitous 40cm x 40cm marble tiles with a new twist ... The A320 Leading-Edge Floor Lamp by Fallen Furniture has a shade made from reclaimed aircraft parts. The former section of an Airbus A320’s leading edge slat was highly sanded, polished and powder-coated for a reflective, Art Deco-inspired look ... 0 ... ....
NASA's 10 Favorite Ways to Celebrate National Aviation Day (Ames Research Center)
Edit Public Technologies 12 Aug 2015
One includes 31 small devices that will blow jets of air on the vertical tail and the other involves non-stick coatings to help repel bugs from the leading edge of wings ... Even something as small as a bug on a leading edge can cause turbulent wedges that interrupt laminar flow ... During 15 planned flights researchers will install sections of coatings onto the leading edge slats of the ecoDemonstrator 757....
On National Aviation Day, Spread Your Wings! (Ames Research Center)
Edit Public Technologies 12 Aug 2015
One includes 31 small devices that will blow jets of air on the vertical tail and the other involves non-stick coatings to help repel bugs from the leading edge of wings ... Even something as small as a bug on a leading edge can cause turbulent wedges that interrupt laminar flow ... During 15 planned flights researchers will install sections of coatings onto the leading edge slats of the ecoDemonstrator 757....
NASA Invites Media to Emergency Locator Transmitters Crash Test (NASA - The National Aeronautics and ...
Edit Public Technologies 23 Jul 2015
Researchers with the Environmentally Responsible Aviation (ERA) Project assessed how well five different coatings worked to prevent insect remains from sticking to the leading edge of the airplane's right wing ... The Langley researchers will work with Boeing pilots and engineers to test the coatings on two of the leading edge slats on the jet's right wing during the Louisiana flights....
NASA Invites Media to Tour VIPR, Aeronautics Research Project (NASA - The National Aeronautics and Space Administration)
Edit Public Technologies 30 Jun 2015
AFRL and FlexSys developed and wind tunnel tested several wing leading and trailing edge designs for various aircraft configurations through 2006 ... edge of the 757's right wing ... The Langley researchers will work with Boeing pilots and engineers to test the coatings on two of the leading edge slats on the jet's right wing during the Louisiana flights....
NASA-Developed Air Traffic Management Tool Flies Into Use (NASA - The National Aeronautics and Space Administration)
Edit Public Technologies 24 Jun 2015
AFRL and FlexSys developed and wind tunnel tested several wing leading and trailing edge designs for various aircraft configurations through 2006 ... edge of the 757's right wing ... The Langley researchers will work with Boeing pilots and engineers to test the coatings on two of the leading edge slats on the jet's right wing during the Louisiana flights....
You're Invited to NASA UTM 2015: The Next Era of Aviation (Ames Research Center)
Edit noodls 12 Jun 2015
One includes 31 small devices that will blow jets of air on the vertical tail and the other involves non-stick coatings to help repel bugs from the leading edge of wings ... Even something as small as a bug on a leading edge can cause turbulent wedges that interrupt laminar flow ... During 15 planned flights researchers will install sections of coatings onto the leading edge slats of the ecoDemonstrator 757....
The Cloud and Collaboration: NASA Leads Development of a New System to Manage Low Altitude Drones (Ames Research Center)
Edit noodls 11 Jun 2015
One includes 31 small devices that will blow jets of air on the vertical tail and the other involves non-stick coatings to help repel bugs from the leading edge of wings ... Even something as small as a bug on a leading edge can cause turbulent wedges that interrupt laminar flow ... During 15 planned flights researchers will install sections of coatings onto the leading edge slats of the ecoDemonstrator 757....
NASA Uses Crowdsourcing for Open Innovation Contracts (Johnson Space Center)
Edit noodls 05 Jun 2015
"It was meant for something called the leading-edge slat," said Porter, "to make it more aerodynamic and reduce the noise at airports." ... "Michael Moomaw will discuss how we can utilize and apply cutting edge digital technologies (analytics and open data) to improve our cities and help our citizens stay safer, healthier and ......
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