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NEOBALLS / ZEN MAGNETS - Neodymium Magnetic Balls (@4205) - Starcraft II's Massive Thor
This is my most complex and largest build to date.
It was designed in parts: Cockpit body, then legs, then arms, then rear guns. Then I had to redesign parts when it came time to assemble it together because of incorrect bonding assumptions and misalignment of magnet fields.
Experimented with x-beam coupled bonds to get the maximum lateral strength with reinforcements on the sides. This proved to be very string. Created a X-Beam using similar methods producing a very strong leg structure. It was capable of support the entire weight of the cockpit body w/o a problem. Had to redesign the leg to cockpit body mount point from the earlier concept because the bond was not completely coupled.
Next up were the arm/guns ... the weight was too much for the cockpit body to support so I fashioned a pair of lego-platforms for them to rest on and take the weight off of the central body.
Finally ... the rear guns ... these were a challenge in that their original mount point design had to be reworked also to make them fit correctly into the rear of the cockpit body. I changed the mount points on the guns to fit the space on both sides and added a few support balls to improve the mount point bonds. I was very surprised how they were balanced and supported only by two point sections to the body. The guns stayed in place for a small series of photos.
The design flaw was in the side bonds of the beam to the legs. The coupled field held nicely for a short amount of time and would have held if it didn't have the weight of the rear guns to support. When they were standing upright and straight, all was good. As soon as I attempted to move the platform forward (to take a video), the rear guns tilted slightly backwards and and that was the end of the leg to body support bonds ... and created the dreaded implosion.
The rear gun weight caused the entire central body section to rotate backwards and fall back on the rear guns ... taking the arms in the process. Perhaps I should have created a Lego-support structure for the rear guns to remove the pendulum force backwards ... but that would have created another view blocker like the side Lego-platforms obstructed the view of the legs and feet. Not sure if I can recreate it for a rotational video ... this took over a week (on/off to design and assemble).
Overall ... I was very happy with the result ... hope I captured enough detail to warrant some visual recognition as a Starcraft II Thor reproduction/interpretation.
This was design and built for the Zen Magnets Contest 26: The Massive Thor
www.zenmagnets.com/blog/26-the-massive-thor/
I tried to document the info for this super complex build (below) accompanied by associated pics in this set
www.flickr.com/photos/tend2it/sets/72157632920071597/
Starcraft II Thor Magnet Count and Detail Talley
======+================
Cockpit Body bottom section: (@0520)
(@0217) - Main shape middle core = (2x108) + 1
(@0095) - central bottom layer 1 = (47x2) + 1 w/black parameter
(@0078) - Sides Bottom layer 2 = (2x(22 parallel pair frnt2bck support + 3 red + 4 gold + 10 ring outside black))
(@0028) - Central bottom layer 3 = (2x14) rectangle
(@0032) - Sides bottom layer 3 = (2x((2x5 parallel bridge rectangle to ring) + (6 ring outside))
(@0010) - Central bottom layer 4 = (10 ring) leg waist w/gold
(@0020) - Sides bottom layer 4 = (2x10 ring) coupled over parallel bridge for perpendicular underside support
(@0040) - Central rear Barrel = (4x8 ring w2 red rings) + (2x4 sqr end)
------
Cockpit Body top section (from center out): (@0371)
(@0166) - top layer 1 = (2x83) w/black missle cover + middle sect separator
(@0105) - top layer 2 = ((2x52) + 1) w/black separator, red trim, gold cockpit
(@0083) - top layer 3 = ((2x41) + 1) w/black separator, red trim, gold cockpit
(@0037) - top layer 4 = ((2x18) + 1) w/black separator trim
(@0010) - top layer 5 = (2x5) w/red/black
------
(@0891)
Leg section x2 (@0640 - 12 removed from bottom of @ leg for foot contact pt)
leg internal structure:
(@0384) - columns = 2 x (4x((2x12) + ((2x11) + 2))) top/bottom coupled bonds w/parallel bonds stacked x 4))
(@0096) - side reinforcements = 2x((2x11) + 2) coupled pair along outside edge centers)
(@0032) - ball reinforcements = 2x(2x4 balls are two balls added to 4 ball in 2, 4, 6, 8th positions) - (12 @ bottom)
leg arch structure (connected to one flat leg top face:
(@0128) - (4x4 parallel sqr) + (2x(6 + 2)) pointy rings) + (4x4 parallel sqr) + (2x(6 + 2)) pointy rings)
Place the two leg arch structures together to form the leg arch
-------
(@1519) = 1531-12
Leg side panels (@0384)
(@0344) - (2 each leg x (2x(2x43 each side))) w/black outside trim
Knees + Leg detail
(@0040) - (2x(2x(6 + 2) knee w/red sqr) + 2x(4 red sqr top of leg))
-------
(@1903)
Feet x2 (@0242)
(@0184) - (2x((2x7 + 2 1st mid layer) + (2x(2x10 + 1) 2nd mid layer) + ((2x(2x8 + 1) outside layer))
(@0034) - (2x(2x(2x3 + 1 top of toe 2 leg)) + (1 center rear foot 2 leg conn) + (2 x 1 outer rear foot sides 2 leg
conn))
(@0024) - (2x(2x6 rings rear foot heel))
-------
(@2145)
X-Beam waist platform - (@0233 - 19) this part is placed across the center perpendicular to the x-beam leg arch
(@0214) - (2x(2x(18 + 17 + 6 + 3)) + (2x(7 + 2)) + ((8 + 1 front side) + (2x9 rear side)) + ((2 x 3 red front center) +
(2 x 2 red front sides) + (2 red rear)) - (19 removed under rear panel side to fold)
Arm Guns (2 pair per arm w/red + black accents)
(@0380) - (4x((4x9 center core) + (3x((2x7) + 1)) top/sides) + (2x7) middle join))
Shoulder to elbow core w/o reinforcements ((@0174)per arm)
(@0348) - (2 x (top((2x5)+2) + (4x8+2 parallel) + ((2x5)+2) + (2x5) + (2x(2x5)+1) + (2x(2x6)+1) + ((4x7)+2 parallel
mount2gun) + (1 ball center to bridge below 2 ball center to 1 ball) + ((2x6)+1) + ((2x4)+2)bottom)
Shoulder to elbow (per arm, per side)
(@0248) - (2 x (2 x (top 3 + 5 + 5 + 5 + 4 + 5 + 4 + 4 + 5 + (2x7arm2shoulder bridge) + (5 + 3 bottom))
Elbow to gun support (per arm, per side) (@0140 - 18 for outside facing side revamp)
(@0122) - (2 x (2 x (((2x9)+1) + (2x8)) -
Revamp outside facing sides for Z bracket (remove 2x(4 top/4 bottom/2 middle/move center ball down, add 1 ball)
Revamp 2 rear centerballs with red
(@028) - add red design outside facing shoulder 2 elbow
------
(@3485)
Rear Guns x2
Large cannon (@0112 each)
(@0224) - 2 x ((2x(2x15) + (4x(5+2)) + (4x(6 ring)))
Smaller cannon (@0092 each)
(@0184) - 2 x ((2x(2x13) + (4x(4+2)) + (4x(4 ring)))
Gun bridges (@0010 each)
(@0020) - (2 x (4 ring + 6 ring across two cannons)
Gun mounts x2
(@0104) - (2 x ((top (2x4+2) + (2x5+2) parallel to existing + (2x4+2) + (2x5 parallel) + (2x4+2) bottom)
Gun panel x 2 (@0102 each)
(@0204) - (2 x (2x(11 + 10 + 9 + 8 + 7 + 6))
-------
Revamp base
(@4221) subtotal b4 assembly
Assembly mods
-------------
Moved the (@0040) - Central rear Barrel = (4x8 ring w2 red rings) + (2x4 sqr end) below the rear of the body between
the leg mount and cockpit body. Actually used the barrel as a mount point for the rear guns.
Modded Cockpit Body bottom section (mount point):
(@0020) = (2 x (7 + 6 + 5)) = Changed = (@0028) - Central bottom layer 3 = (2x14) rectangle to covert parallel
rectangle to hex parallel center, coupled sides
-------
(@4213) = (@4221 - 8)
Moved central bottom layer x-beam
(@0018) = (2x09 ring) = Changed = (@0020) - Sides bottom layer 4 = shifted it down one row, removed 1 ball on end to form point and pinched outside end fit in center of 6 ball side.
(@4211) = (@4213 - 2)
Removed gold 10 ball ring mount
Changed = (@0010) = Central bottom layer 4 = (10 ring) leg waist w/gold
-------
(@4201) = (@4213 - 10)
Modded Rear Guns
(@0100) = Changed = Rear Gun mounts x2 - removed +2 from top/bottom mount point (2x4+2)=>(2x4)
(@4197) = (@4201-4)
Added extra mount point support bwtween rear gun mounts and rear cockpit body
(@4205) = (@4201+8)
Grand Total! = (@4205)
Aeroscopia est un musée aéronautique français implanté à Blagnac (Haute-Garonne), près du site AéroConstellation, et accueille notamment deux exemplaires du Concorde, dont l'ouverture a eu lieu le 14 janvier 2015
Le tarmac Sud du musée n'est capable d'accueillir que trois gros appareils. L'installation des appareils fut définitivement terminée après que le premier prototype de l'A400M-180 y fut arrivé le 16 juillet 2015, en dépit de la possibilité de 360 000 euros de TVA.
Concorde, F-BVFC, MSN209 aux couleurs d'Air France
Caravelle 12, F-BTOE, MSN280 aux couleurs d'Air Inter, dernier exemplaire construit
A400M-180, F-WWMT, MSN001 stationné depuis le 16 juillet 2015
La réalisation en 2019 du nouveau tarmac au Nord du musée permet l'accueil d'appareils supplémentaires issus des entreprises locales Airbus et ATR. Le transfert des avions entre le site Airbus "Lagardère" et le musée a lieu sur une semaine, à raison d'un appareil par jour :
ATR 72-600, F-WWEY, MSN098 aux couleurs d'ATR, transféré sur site le 26 août 2019, premier exemplaire du 72 dans sa version 600
Airbus A340-600, F-WWCA, MSN360 aux couleurs d'Airbus, transféré sur site le 27 août 2019, premier exemplaire de l'A340 dans sa version 600
Airbus A320-111, F-WWAI, MSN001 aux anciennes couleurs d'Airbus, transféré sur site le 28 août 2019, premier exemplaire de l'A320 : inauguration le 14 février 1987 en présence de Lady Diana et du Prince Charles, premier vol le 22 février 1987
Airbus A380-800, F-WXXL, MSN002 aux couleurs d'Airbus, transféré sur site le 29 août 2019, second exemplaire de l'A380. Les deux ponts de cet appareil sont visitables, ainsi que le cockpit.
ATR 42-300, F-WEGC, MSN003 aux anciennes couleurs d'ATR, transféré sur site le 30 août 2019, troisième exemplaire du 42. Cet exemplaire est décoré aux couleurs du MSN001 et porte l'immatriculation F-WEGA
Concorde, F-WTSB, MSN201 (ANAE), il s'agit d'un appareil de présérie qui a servi entre autres à transporter plusieurs présidents de la République française.
Airbus A300B4-203, F-WUAB, MSN238 (Airbus Heritage), décoré aux couleurs du prototype, au lieu de MSN001 démantelé. L'intérieur est visitable. Dans la première section des vitrages transparents permettent de voir la structure et les systèmes de l'avion, tandis que dans les sections suivantes sont représentés des aménagements de première classe et VIP.
Super Guppy de l'association Ailes Anciennes Toulouse, l'appareil qui servait au transport des tronçons d'Airbus est exposé porte ouverte, et une passerelle permet l'accès à la soute où un film est projeté. L'ouverture n'a pas été une mince affaire, l'appareil n'ayant pas été ouvert pendant 15 ans. L'aide des anciens mécaniciens de l'avion a été primordiale pour permettre une ouverture en toute sécurité.
Corvette (Airbus)
Falcon 10 no 02, prototype ayant servi aux essais du turboréacteur Larzac (Ailes Anciennes Toulouse)
Fouga Magister (AAT)
Gazelle prototype (AAT)
Mirage III C (AAT)
Nord 1100 (AAT)
Lockheed F-104G (AAT)
MiG-15 (AAT)
MS.760 Paris (AAT)
Vought F-8E(FN) Crusader et son réacteur (AAT)
Alouette II Marine (AAT)
Cessna Skymaster (AAT)
Fairchild Metro, ancien avion de Météo-France (AAT)
HM-293, de Rodolphe Grunberg
Chagnes MicroStar, avion de construction amateur, version biréacteur de Rutan VariViggen (AAT)
Saab J35OE Draken (AAT)
Aeroscopia is a French aeronautical museum located in Blagnac (Haute-Garonne), near the AéroConstellation site, and notably hosts two copies of the Concorde, which opened on January 14, 2015
The south tarmac of the museum can only accommodate three large aircraft. The installation of the devices was definitively finished after the first prototype of the A400M-180 arrived there on July 16, 2015, despite the possibility of 360,000 euros in VAT.
Concorde, F-BVFC, MSN209 in Air France colors
Caravelle 12, F-BTOE, MSN280 in Air Inter colors, last model built
A400M-180, F-WWMT, MSN001 parked since July 16, 2015
The construction in 2019 of the new tarmac north of the museum will accommodate additional aircraft from local Airbus and ATR companies. The transfer of planes between the Airbus "Lagardère" site and the museum takes place over a week, at the rate of one aircraft per day:
ATR 72-600, F-WWEY, MSN098 in ATR colors, transferred to site on August 26, 2019, first copy of the 72 in its 600 version
Airbus A340-600, F-WWCA, MSN360 in Airbus colors, transferred to site on August 27, 2019, first copy of the A340 in its 600 version
Airbus A320-111, F-WWAI, MSN001 in the old Airbus colors, transferred to site on August 28, 2019, first copy of the A320: inauguration on February 14, 1987 in the presence of Lady Diana and Prince Charles, first flight on February 22, 1987
Airbus A380-800, F-WXXL, MSN002 in Airbus colors, transferred to site on August 29, 2019, second copy of the A380. The two decks of this aircraft can be visited, as well as the cockpit.
ATR 42-300, F-WEGC, MSN003 in the old ATR colors, transferred to the site on August 30, 2019, third specimen of the 42. This specimen is decorated in the colors of the MSN001 and bears the registration F-WEGA
Concorde, F-WTSB, MSN201 (ANAE), this is a pre-production aircraft which was used, among other things, to transport several presidents of the French Republic.
Airbus A300B4-203, F-WUAB, MSN238 (Airbus Heritage), decorated in the colors of the prototype, instead of dismantled MSN001. The interior can be visited. In the first section transparent glazing allows to see the structure and systems of the aircraft, while in the following sections are shown first class and VIP fittings.
Super Guppy from the Ailes Anciennes Toulouse association, the aircraft which was used to transport the Airbus sections is on display with the door open, and a gangway allows access to the hold where a film is shown. Opening was no small feat, as the device has not been opened for 15 years. The help of the former mechanics of the aircraft was essential to allow a safe opening.
Corvette (Airbus)
Falcon 10 no 02, prototype used for testing the Larzac turbojet engine (Ailes Anciennes Toulouse)
Fouga Magister (AAT)
Prototype Gazelle (AAT)
Mirage III C (AAT)
North 1100 (AAT)
Lockheed F-104G (AAT)
MiG-15 (AAT)
MS.760 Paris (AAT)
Vought F-8E (FN) Crusader and its engine (AAT)
Alouette II Marine (AAT)
Cessna Skymaster (AAT)
Fairchild Metro, former Météo-France (AAT) aircraft
HM-293, by Rodolphe Grunberg
Chagnes MicroStar, amateur-built aircraft, twin-jet version of Rutan VariViggen (AAT)
Saab J35OE Draken (AAT)
Fujifilm X-H2S is the most capable Fujifilm 26MP X-mount mirrorless camera that gives you the confidence to capture extraordinary pictures. It is equipped with multiple features like a rechargeable Battery NP-W235 (Lithium Ion Type) and a Warranty card set.
A giant, unmanned airship capable of hovering at about 70,000 feet promises to give future warfighters an unprecedented eye on the battlefield. The Defense Advanced Research Projects Agency's Integrated Sensor is Structure program, ISIS for short, will provide a detailed, real-time picture of all movement on or above the battlefield. Defense DoD graphic courtesy of Defense Advanced Research Projects Agency
www.militaryconnection.com/news%5Cjuly-2009%5Cunprecenden...
The Chance Vought F4U Corsair was a carrier-capable fighter aircraft that saw service primarily in World War II and the Korean War. Goodyear-built Corsairs were designated FG and Brewster-built aircraft F3A. The Corsair served in smaller air forces until the 1960s, following the longest production run of any piston-engined fighter in U.S. history (1942–1952).[1][2] Some Japanese pilots regarded it as the most formidable American fighter of World War II.[3] The U.S. Navy counted an 11:1 kill ratio with the F4U Corsair.[4]
Corsairs served with the U.S. Navy, U.S. Marines, Fleet Air Arm and the Royal New Zealand Air Force, as well the French Navy Aeronavale and other services postwar. It quickly became the most capable carrier-based fighter-bomber of World War II. Demand for the aircraft soon overwhelmed Vought's manufacturing capability, resulting in production by Goodyear (as the FG-1) and Brewster (as the F3A-1). From the first prototype delivery to the U.S. Navy in 1940, to final delivery in 1953 to the French, 12,571 F4U Corsairs were manufactured by Vought,[5] in 16 separate models.[6][7]
Aeroscopia est un musée aéronautique français implanté à Blagnac (Haute-Garonne), près du site AéroConstellation, et accueille notamment deux exemplaires du Concorde, dont l'ouverture a eu lieu le 14 janvier 2015
Le tarmac Sud du musée n'est capable d'accueillir que trois gros appareils. L'installation des appareils fut définitivement terminée après que le premier prototype de l'A400M-180 y fut arrivé le 16 juillet 2015, en dépit de la possibilité de 360 000 euros de TVA.
Concorde, F-BVFC, MSN209 aux couleurs d'Air France
Caravelle 12, F-BTOE, MSN280 aux couleurs d'Air Inter, dernier exemplaire construit
A400M-180, F-WWMT, MSN001 stationné depuis le 16 juillet 2015
La réalisation en 2019 du nouveau tarmac au Nord du musée permet l'accueil d'appareils supplémentaires issus des entreprises locales Airbus et ATR. Le transfert des avions entre le site Airbus "Lagardère" et le musée a lieu sur une semaine, à raison d'un appareil par jour :
ATR 72-600, F-WWEY, MSN098 aux couleurs d'ATR, transféré sur site le 26 août 2019, premier exemplaire du 72 dans sa version 600
Airbus A340-600, F-WWCA, MSN360 aux couleurs d'Airbus, transféré sur site le 27 août 2019, premier exemplaire de l'A340 dans sa version 600
Airbus A320-111, F-WWAI, MSN001 aux anciennes couleurs d'Airbus, transféré sur site le 28 août 2019, premier exemplaire de l'A320 : inauguration le 14 février 1987 en présence de Lady Diana et du Prince Charles, premier vol le 22 février 1987
Airbus A380-800, F-WXXL, MSN002 aux couleurs d'Airbus, transféré sur site le 29 août 2019, second exemplaire de l'A380. Les deux ponts de cet appareil sont visitables, ainsi que le cockpit.
ATR 42-300, F-WEGC, MSN003 aux anciennes couleurs d'ATR, transféré sur site le 30 août 2019, troisième exemplaire du 42. Cet exemplaire est décoré aux couleurs du MSN001 et porte l'immatriculation F-WEGA
Concorde, F-WTSB, MSN201 (ANAE), il s'agit d'un appareil de présérie qui a servi entre autres à transporter plusieurs présidents de la République française.
Airbus A300B4-203, F-WUAB, MSN238 (Airbus Heritage), décoré aux couleurs du prototype, au lieu de MSN001 démantelé. L'intérieur est visitable. Dans la première section des vitrages transparents permettent de voir la structure et les systèmes de l'avion, tandis que dans les sections suivantes sont représentés des aménagements de première classe et VIP.
Super Guppy de l'association Ailes Anciennes Toulouse, l'appareil qui servait au transport des tronçons d'Airbus est exposé porte ouverte, et une passerelle permet l'accès à la soute où un film est projeté. L'ouverture n'a pas été une mince affaire, l'appareil n'ayant pas été ouvert pendant 15 ans. L'aide des anciens mécaniciens de l'avion a été primordiale pour permettre une ouverture en toute sécurité.
Corvette (Airbus)
Falcon 10 no 02, prototype ayant servi aux essais du turboréacteur Larzac (Ailes Anciennes Toulouse)
Fouga Magister (AAT)
Gazelle prototype (AAT)
Mirage III C (AAT)
Nord 1100 (AAT)
Lockheed F-104G (AAT)
MiG-15 (AAT)
MS.760 Paris (AAT)
Vought F-8E(FN) Crusader et son réacteur (AAT)
Alouette II Marine (AAT)
Cessna Skymaster (AAT)
Fairchild Metro, ancien avion de Météo-France (AAT)
HM-293, de Rodolphe Grunberg
Chagnes MicroStar, avion de construction amateur, version biréacteur de Rutan VariViggen (AAT)
Saab J35OE Draken (AAT)
Aeroscopia is a French aeronautical museum located in Blagnac (Haute-Garonne), near the AéroConstellation site, and notably hosts two copies of the Concorde, which opened on January 14, 2015
The south tarmac of the museum can only accommodate three large aircraft. The installation of the devices was definitively finished after the first prototype of the A400M-180 arrived there on July 16, 2015, despite the possibility of 360,000 euros in VAT.
Concorde, F-BVFC, MSN209 in Air France colors
Caravelle 12, F-BTOE, MSN280 in Air Inter colors, last model built
A400M-180, F-WWMT, MSN001 parked since July 16, 2015
The construction in 2019 of the new tarmac north of the museum will accommodate additional aircraft from local Airbus and ATR companies. The transfer of planes between the Airbus "Lagardère" site and the museum takes place over a week, at the rate of one aircraft per day:
ATR 72-600, F-WWEY, MSN098 in ATR colors, transferred to site on August 26, 2019, first copy of the 72 in its 600 version
Airbus A340-600, F-WWCA, MSN360 in Airbus colors, transferred to site on August 27, 2019, first copy of the A340 in its 600 version
Airbus A320-111, F-WWAI, MSN001 in the old Airbus colors, transferred to site on August 28, 2019, first copy of the A320: inauguration on February 14, 1987 in the presence of Lady Diana and Prince Charles, first flight on February 22, 1987
Airbus A380-800, F-WXXL, MSN002 in Airbus colors, transferred to site on August 29, 2019, second copy of the A380. The two decks of this aircraft can be visited, as well as the cockpit.
ATR 42-300, F-WEGC, MSN003 in the old ATR colors, transferred to the site on August 30, 2019, third specimen of the 42. This specimen is decorated in the colors of the MSN001 and bears the registration F-WEGA
Concorde, F-WTSB, MSN201 (ANAE), this is a pre-production aircraft which was used, among other things, to transport several presidents of the French Republic.
Airbus A300B4-203, F-WUAB, MSN238 (Airbus Heritage), decorated in the colors of the prototype, instead of dismantled MSN001. The interior can be visited. In the first section transparent glazing allows to see the structure and systems of the aircraft, while in the following sections are shown first class and VIP fittings.
Super Guppy from the Ailes Anciennes Toulouse association, the aircraft which was used to transport the Airbus sections is on display with the door open, and a gangway allows access to the hold where a film is shown. Opening was no small feat, as the device has not been opened for 15 years. The help of the former mechanics of the aircraft was essential to allow a safe opening.
Corvette (Airbus)
Falcon 10 no 02, prototype used for testing the Larzac turbojet engine (Ailes Anciennes Toulouse)
Fouga Magister (AAT)
Prototype Gazelle (AAT)
Mirage III C (AAT)
North 1100 (AAT)
Lockheed F-104G (AAT)
MiG-15 (AAT)
MS.760 Paris (AAT)
Vought F-8E (FN) Crusader and its engine (AAT)
Alouette II Marine (AAT)
Cessna Skymaster (AAT)
Fairchild Metro, former Météo-France (AAT) aircraft
HM-293, by Rodolphe Grunberg
Chagnes MicroStar, amateur-built aircraft, twin-jet version of Rutan VariViggen (AAT)
Saab J35OE Draken (AAT)
Aeroscopia est un musée aéronautique français implanté à Blagnac (Haute-Garonne), près du site AéroConstellation, et accueille notamment deux exemplaires du Concorde, dont l'ouverture a eu lieu le 14 janvier 2015
Le tarmac Sud du musée n'est capable d'accueillir que trois gros appareils. L'installation des appareils fut définitivement terminée après que le premier prototype de l'A400M-180 y fut arrivé le 16 juillet 2015, en dépit de la possibilité de 360 000 euros de TVA.
Concorde, F-BVFC, MSN209 aux couleurs d'Air France
Caravelle 12, F-BTOE, MSN280 aux couleurs d'Air Inter, dernier exemplaire construit
A400M-180, F-WWMT, MSN001 stationné depuis le 16 juillet 2015
La réalisation en 2019 du nouveau tarmac au Nord du musée permet l'accueil d'appareils supplémentaires issus des entreprises locales Airbus et ATR. Le transfert des avions entre le site Airbus "Lagardère" et le musée a lieu sur une semaine, à raison d'un appareil par jour :
ATR 72-600, F-WWEY, MSN098 aux couleurs d'ATR, transféré sur site le 26 août 2019, premier exemplaire du 72 dans sa version 600
Airbus A340-600, F-WWCA, MSN360 aux couleurs d'Airbus, transféré sur site le 27 août 2019, premier exemplaire de l'A340 dans sa version 600
Airbus A320-111, F-WWAI, MSN001 aux anciennes couleurs d'Airbus, transféré sur site le 28 août 2019, premier exemplaire de l'A320 : inauguration le 14 février 1987 en présence de Lady Diana et du Prince Charles, premier vol le 22 février 1987
Airbus A380-800, F-WXXL, MSN002 aux couleurs d'Airbus, transféré sur site le 29 août 2019, second exemplaire de l'A380. Les deux ponts de cet appareil sont visitables, ainsi que le cockpit.
ATR 42-300, F-WEGC, MSN003 aux anciennes couleurs d'ATR, transféré sur site le 30 août 2019, troisième exemplaire du 42. Cet exemplaire est décoré aux couleurs du MSN001 et porte l'immatriculation F-WEGA
Concorde, F-WTSB, MSN201 (ANAE), il s'agit d'un appareil de présérie qui a servi entre autres à transporter plusieurs présidents de la République française.
Airbus A300B4-203, F-WUAB, MSN238 (Airbus Heritage), décoré aux couleurs du prototype, au lieu de MSN001 démantelé. L'intérieur est visitable. Dans la première section des vitrages transparents permettent de voir la structure et les systèmes de l'avion, tandis que dans les sections suivantes sont représentés des aménagements de première classe et VIP.
Super Guppy de l'association Ailes Anciennes Toulouse, l'appareil qui servait au transport des tronçons d'Airbus est exposé porte ouverte, et une passerelle permet l'accès à la soute où un film est projeté. L'ouverture n'a pas été une mince affaire, l'appareil n'ayant pas été ouvert pendant 15 ans. L'aide des anciens mécaniciens de l'avion a été primordiale pour permettre une ouverture en toute sécurité.
Corvette (Airbus)
Falcon 10 no 02, prototype ayant servi aux essais du turboréacteur Larzac (Ailes Anciennes Toulouse)
Fouga Magister (AAT)
Gazelle prototype (AAT)
Mirage III C (AAT)
Nord 1100 (AAT)
Lockheed F-104G (AAT)
MiG-15 (AAT)
MS.760 Paris (AAT)
Vought F-8E(FN) Crusader et son réacteur (AAT)
Alouette II Marine (AAT)
Cessna Skymaster (AAT)
Fairchild Metro, ancien avion de Météo-France (AAT)
HM-293, de Rodolphe Grunberg
Chagnes MicroStar, avion de construction amateur, version biréacteur de Rutan VariViggen (AAT)
Saab J35OE Draken (AAT)
Aeroscopia is a French aeronautical museum located in Blagnac (Haute-Garonne), near the AéroConstellation site, and notably hosts two copies of the Concorde, which opened on January 14, 2015
The south tarmac of the museum can only accommodate three large aircraft. The installation of the devices was definitively finished after the first prototype of the A400M-180 arrived there on July 16, 2015, despite the possibility of 360,000 euros in VAT.
Concorde, F-BVFC, MSN209 in Air France colors
Caravelle 12, F-BTOE, MSN280 in Air Inter colors, last model built
A400M-180, F-WWMT, MSN001 parked since July 16, 2015
The construction in 2019 of the new tarmac north of the museum will accommodate additional aircraft from local Airbus and ATR companies. The transfer of planes between the Airbus "Lagardère" site and the museum takes place over a week, at the rate of one aircraft per day:
ATR 72-600, F-WWEY, MSN098 in ATR colors, transferred to site on August 26, 2019, first copy of the 72 in its 600 version
Airbus A340-600, F-WWCA, MSN360 in Airbus colors, transferred to site on August 27, 2019, first copy of the A340 in its 600 version
Airbus A320-111, F-WWAI, MSN001 in the old Airbus colors, transferred to site on August 28, 2019, first copy of the A320: inauguration on February 14, 1987 in the presence of Lady Diana and Prince Charles, first flight on February 22, 1987
Airbus A380-800, F-WXXL, MSN002 in Airbus colors, transferred to site on August 29, 2019, second copy of the A380. The two decks of this aircraft can be visited, as well as the cockpit.
ATR 42-300, F-WEGC, MSN003 in the old ATR colors, transferred to the site on August 30, 2019, third specimen of the 42. This specimen is decorated in the colors of the MSN001 and bears the registration F-WEGA
Concorde, F-WTSB, MSN201 (ANAE), this is a pre-production aircraft which was used, among other things, to transport several presidents of the French Republic.
Airbus A300B4-203, F-WUAB, MSN238 (Airbus Heritage), decorated in the colors of the prototype, instead of dismantled MSN001. The interior can be visited. In the first section transparent glazing allows to see the structure and systems of the aircraft, while in the following sections are shown first class and VIP fittings.
Super Guppy from the Ailes Anciennes Toulouse association, the aircraft which was used to transport the Airbus sections is on display with the door open, and a gangway allows access to the hold where a film is shown. Opening was no small feat, as the device has not been opened for 15 years. The help of the former mechanics of the aircraft was essential to allow a safe opening.
Corvette (Airbus)
Falcon 10 no 02, prototype used for testing the Larzac turbojet engine (Ailes Anciennes Toulouse)
Fouga Magister (AAT)
Prototype Gazelle (AAT)
Mirage III C (AAT)
North 1100 (AAT)
Lockheed F-104G (AAT)
MiG-15 (AAT)
MS.760 Paris (AAT)
Vought F-8E (FN) Crusader and its engine (AAT)
Alouette II Marine (AAT)
Cessna Skymaster (AAT)
Fairchild Metro, former Météo-France (AAT) aircraft
HM-293, by Rodolphe Grunberg
Chagnes MicroStar, amateur-built aircraft, twin-jet version of Rutan VariViggen (AAT)
Saab J35OE Draken (AAT)
ASTOR (Airborne Stand-Off Radar) will provide a long-range, battlefield-intelligence, target-imaging and tracking radar for the RAF and the Army and will have surveillance applications in peacetime, wartime and in crisis operations. The prime contractor selected to provide the ASTOR system is Raytheon Systems Limited, using the Bombardier Global Express aircraft as the air platform. The system comprises three basic components, or segments. The first segment is the air platform, a modified twin-engined Global Express business jet, called the Sentinel R1 by the RAF, equipped with a radar system capable of both Synthetic Aperture Radar (SAR) and Moving Target Indicator (MTI) functions. The SAR will enable all-weather, day and night reconnaissance and surveillance to be carried out; the MTI will enable the operators to monitor the activity of mobile ground targets.
OiOS Desktop
Imagine a UNIX based Enterprise Operating System, a scalable universally collaborative stable business platform capable of running on x86 Systems. Delivering support for Cloud enterprise features, ZFS file systems, Virtualisation, Advanced Security, and Compatibility. Enabling you to build new possibilities, enter new markets and harness human relationships in Open Source across the world. Whether you are a Systems Administrator, Recreational User or Information Technology Professional, OiOS supports the new economics of highly creative, diversified ways of doing business, and building networks.
OiOS Server
Imagine a UNIX based Enterprise Operating System, a scalable universally collaborative stable business platform capable of running on or x86 Systems. Delivering support for Cloud enterprise features, ZFS file systems, Virtualisation, Advanced Security, and Compatibility. Enabling you to build new possibilities, enter new markets and harness human relationships in Open Source across the world. Whether you are a Systems Administrator, Business, or Information Technology Professional, OiOS supports the new economics of highly creative, diversified ways of doing business, and building networks.
OiOS 151a8 Increased migration by world exchanges financial exchanges to Unix and Linux opens development to stock trading platform giving more opportunities to run software on more stable Unix platforms.(Sparc see separate project)
Free open source enterprise systems available on live DVD or USB stick
Professionals Join in @
- Openindiana.org
- #openindiana on irc.freenode.net
+++ DISCLAIMER +++
Nothing you see here is real, even though the model, the conversion or the presented background story might be based on historical facts. BEWARE!
Some background:
The Douglas A4D/A-4 Skyhawk was a single seat subsonic carrier-capable attack aircraft developed for the United States Navy and United States Marine Corps in the early 1950s. The delta winged, single turbojet engine Skyhawk was designed and produced by Douglas Aircraft Company, and later by McDonnell Douglas. The Skyhawk saw active combat on several occasions. The US Navy operated the type as its principal light attack aircraft during the Vietnam War, carrying out some of the first air strikes by the US during the conflict.
The Skyhawk was a conventional post-WWII design, with a low-mounted thick delta wing that held all fuel, tricycle undercarriage, and a single turbojet engine in the rear fuselage. The tail was of cruciform design, with the horizontal stabilizer mounted above the fuselage. Armament consisted of two 20 mm (.79 in caliber) Colt Mark 12 cannons, one in each wing root, originally with 100 rounds per gun, plus a large variety of bombs, rockets, and missiles carried on a hardpoint under the fuselage centerline and hardpoints under each wing (originally one per wing, later two). The short-span delta wing did not require the complexity of wingtip folding, saving an estimated 200 pounds (91 kg). Its spars were machined from a single forging that spanned across both wingtips. The leading-edge slats were designed to drop automatically at the appropriate speed by gravity and air pressure, saving weight and space by omitting actuation motors and switches. Similarly, the main undercarriage did not penetrate the main wing spar, designed so that when retracted only the wheel itself was inside the wing and the undercarriage struts were housed in a fairing below the wing. Thus, the wing structure was lighter with the same overall strength. The rudder was constructed of a single panel reinforced with external ribs. The turbojet engine was accessed for service or replacement by removing the aft section of the fuselage and sliding out the engine, a Wright J65 (an axial-flow turbojet engine produced by Curtiss-Wright under license from Armstrong Siddeley, a development of the Sapphire). This obviated the need for access doors with their hinges and latches further reducing weight and complexity. This is the opposite of what can often happen in aircraft design where a small weight increase in one area leads to a compounding increase in weight in other areas to compensate, creating a demand for more powerful, heavier engines, larger wing, and empennage area, and so on in a vicious circle.
The Skyhawk proved to be a relatively common United States Navy aircraft export. Due to its small size, it could be operated from older, smaller World War II-era aircraft carriers still used by smaller navies during the 1960s. These older ships were often unable to accommodate newer Navy fighters such as the F-4 Phantom II and F-8 Crusader, which were faster and more capable than the A-4, but significantly larger and heavier.
Several variants were developed and produced since the Skyhawk’s maiden flight in 1954, with ever-increasing capabilities and firepower. The initial A4D versions were primarily daytime strike aircraft with nuclear capability (A4D-1 and -2, becoming the A-4A and B in 1962, respectively). In 1959, an updated version introduced radar for all-weather operations, the A4D-2N/A-4C, with AN/APG-53A radar, autopilot, LABS low-altitude bombing system. A whole new Skyhawk generation followed in 1963 with more sophisticated avionics, the A-4E and later the even more capable F, with a more powerful J52 engine, improved avionics with TACAN, Doppler navigation radar, radar altimeter, toss-bombing computer, and AJB-3A low-altitude bombing system, as well as wider range of ordnance options like TV- or laser-guided smart bombs for use during the Vietnam War. The first A-4Es were flown in Vietnam in early 1965, but the A-4Cs continued to be used in the conflict until late 1970, too.
However, their withdrawal from East Asia was not the end of the Charlies’ career. 100 Naval Air Reserve A-4Cs were upgraded and assigned the designation A-4L. The upgrade was designed to bring them up to the standards of Echo and Fox Skyhawks that were then in active fleet service, in the expectation that there could be two Reserve carrier air wings that would be fully combat-ready should the need arise. The respective reorganization of the Naval Air Reserve Force followed the new concept that a reserve force squadron (RESFORON) was to be more compatible with active-duty units, resulting in a seamless support or these and in an increment of their general combat readiness.
Douglas developed a conversion kit that was tested on a single A-4C, and the first Lima was flown on August 21, 1969. Conversions were applied at Douglas’ Long Beach factory to 99 more aircraft, and deliveries already started in December of that year and lasted until 1972. The upgrade included the installation of an uprated J65-W-20 engine with 8400 lb static thrust for takeoff to all A-4Ls, plus additional avionics that brought the A-4C to a status comparable with the then-state-of-the-art A-4F. These had to be fit into a dorsal “hump”, due to the lack of internal space in the A-4C’s nose section, which was already occupied by the AN/APG-53A radar. In addition, the wing lift spoilers that were first introduced on the TA-4F trainer were included in the modification kit, too, which improved landing characteristics a lot. However, the number of weapons pylons remained only at three.
A-4Ls were exclusively operated by Navy Reserve squadrons and Marine Corps Reserves; VA-207 was one of these units, nicknamed the “Golden Chargers”. It was established as Attack Squadron 207 (VA-207) at NAS Jacksonville, Florida on 1 July 1970. The squadron exclusively flew the A-4L Skyhawk and relocated in 1972 to NAS Fort Worth, Texas. There, the Golden Chargers took over further missions beyond their RESFORON role and started to act as adversaries to active-duty Fleet fighter and strike fighter squadrons being trained for deployment, and advanced weapons training (e.g. the deployment of guided weapons).
In May 1972, VA-207’s Limas deployed to NAS Oceana in Virginia to participate in exercise Exotic Dancer V, designed to test multiservice operations under a unified command organization. In February 1980, the squadron and its Skyhawks furthermore participated in a combined NATO forces exercise conducted at NAS Bermuda at St. David's Island in the Atlantic Ocean.
Transitioning to the A-7E Corsair II in 1983, VA-207's primary mission changed to provide contributory support to the fleet, and to be ready to deploy to an aircraft carrier during a crisis as an activated reserve light attack squadron. Many A-4Ls converted from Vietnam War veterans had by that time reached their structural limit and were scrapped, but Limas based on younger airframes that were still in good shape were set aside and offered for sale. Malaysia bought 25 Charlies und 63 Limas, of which forty were reworked to A-4PTM status in 1982 (as a side note, the suffix “PTM” is frequently misinterpreted as “Peculiar To Malaysia”, but actually it is an abbreviation for “Persekutan Tanah Melayu”, meaning Republic of Malaysia). These aircraft received a new bombing computer, body refurbishments and wiring updates, while around the same number of Charlie and Lima airframes were stored for spares. They remained active until 1994.
Following its next transition to the F/A-18 Hornet in October 1996 and becoming VFA-207, the Golden Warriors relocated to NAS Atlanta, Georgia, and it was to be ready to deploy as an activated reserve strike-fighter squadron. However, VFA-207 was deactivated on 30 June 2004 prior to the BRAC-directed closure of NAS Atlanta, and eventually disbanded.
General characteristics:
Crew: 1
Length: 40 ft 1 in (12,24 m)
Wingspan: 27 ft 6 in (8,40 m)
Height: 15 ft (4,58 m)
Wing area: 259 ft² (24.15 m²)
Airfoil: NACA 0008-1.1-25 at the wing root
NACA 0005-0.825-50 at the tip
Empty weight: 9.860 lb (4.476 kg)
Loaded weight: 18,500 lb (8.400 kg)
Max. takeoff weight: 22,500 lb (10.215 kg)
Powerplant:
1× Wright J65-W-20 turbojet, rated at 8400 lb thrust
Performance:
Maximum speed: 637 mph
Cruise speed: 498 mph
Stalling speed: 137 mph
Range: 1,000 miles with 2,025 lbs of stores
1650 miles with two 300-gallon drop tanks
Service ceiling: 40,500 ft.
Rate of climb: 7,950 feet per minute initially
Wing loading: 71.4 lb/ft² (348 kg/m²)
Thrust/weight: 0.45
g-limit: +8/-3g
Armament:
2× fixed forward firing 0.79 in (20 mm) Colt Mk. 12 machine cannon with 100 RPG
3× hardpoints for a total of up to 8,200 lbs (3.722 kg) of external stores
The kit and its assembly:
I had for a long time the plan to build/create an A-4L, a rather obscure Skyhawk variant that originated from factory conversions of 100 A-4Cs. This turned out to be a tricky plan because there is no OOB kit for an A-4L in 1:72, even a Charlie is hard to get – and it’s a quite unique variant with a characteristic nose. The only (decent) A-4C kit comes from Fujimi, and it was recently re-boxed under the Hobby 2000 label, with new decals by Cartograph and some paint masks. I was lucky to get my hands on a relatively cheap specimen and also had reserved a surplus dorsal avionics hump from a Hasegawa A-4E/F kit, already with a potential A-4L build in mind.
With these ingredients the modifications to turn the Charlie into a Lima were limited. The A-4C was basically built OOB, just using the inner wing pylons, and the camelback hump was, with some light modifications, PSRed into the spine – resulting in the unique, very compact, and chunky silhouette of the A-4L. The only other addition is a pair of AGM-62 Walleye glide bombs, which the A-4L was capable of deploying, thanks to its improved avionics. These were taken from a Hasegawa air-to-ground weapons set. The ventral drop tank came OOB from the Fujimi kit.
Slats, flaps and air brakes were mounted in open/lowered positions, following the options the Fujimi kit offers (even though the flaps had to be cut out individually and modded slightly to fit into the deployed position). Another potential mod would have been the spoilers, as “counterparts” to the flaps, but I eventually left them down/closed, because I was not certain about their interior.
A final word about the Fujimi A-4 kit: it’s quite nice and well detailed, but also has some weak spots. One is the front-end construction; the mould designers wanted to be clever and allow different cockpit sections (from the A/B and the C versions) to be mated with the hull, but together with the air intake duct and the protruding wing roots this creates a messy area that is really hard to assembly without seams and offset. And why the arrester hook was moulded onto one of the fuselage halves instead of being a separate part, which would have been much easier to mount and paint, is beyond me? If you build one, cut it off and glue it back into place after PSR, makes life a LOT easier…
Painting and markings:
It might be a bit disappointing, but the only serious whiffy aspect of this build became the fictional unit and its markings, because I wanted an authentic look for the Lima (and did not want a later operator like Malaysia or something fictional). AFAIK, VA-207 did not exist, but I wanted an aircraft in the USN’s bright hi-viz livery from the Seventies with its colorful unit markings, before everything turned all-grey. Therefore, the basic paint scheme consists of classic Light Gull Grey (FS 36440) over white, with any rudders’ upper surfaces left in anti-nuclear flash white. For an even finish and saving time with the landing gear, all white areas were painted/primed with white from a rattle can, and the grey (I used Humbrol 40 in this case) was later added by brush. To emphasize the A-4L’s radar I gave the aircraft a nose in radome tan (Humbrol 71) with a dirty black tip, even though real Limas had typically their camouflage extended to the nose tip; however, but some early aircraft also had all-black radomes, making their nose look very similar to the contemporary F4Ds’.
After basic painting the kit received an overall light black ink washing to emphasize panel lines and surface details, as well as a very light post-panel-shading treatment to make the aircraft look a bit more “uneven”, but not really worn.
General markings are USN standard, and the A-4C/L retained the unusual position of the large stars-and-bars fuselage roundel under the cockpit, which enhanced the type’s stout look. Thankfully the Hobby 2000 decal sheet provides an extra roundel which contains a “distorted” area that can be wrapped around the refueling probe. This is easily done, because the carrier film is very thin and flexible.
Even though USN reserve units rather carried simple decorations, I wanted to make them colorful on this fictional one. The yellow unit/fin decoration was inspired by the colors of an F-14 from the early Seventies, from the VF-32 “Swordsmen”, and I adapted that for the small A-4L. To make the fin stand out I painted the whole area with a deep yellow (Revell 310); the tail code “AF” was adapted from the other CVWR-20 reserve attack units, which all shared it, and the letters and the sword icon were adapted from a Matchbox F-14 decal sheet.
The rest became standard: white landing gear and respective well, a medium grey (Dark Gull Grey) cockpit and canopy interior. The TV-guided walleye glide bombs were painted in bright blue like training rounds, with bare aluminum fins and a white sensor head – a nice color contrast to the yellow and red on the aircraft. Finally, the model was sealed with matt acrylic varnish and final details like position lights were added.
A rather subtle whif, and this one is, concerning the hardware, even a realistic representation of the rather fameless Lima Skyhawk. The bright yellow unit markings add a fresh touch to the standard livery, though, and the bright blue Walleye bombs appear like jewelry under the Scooter’s wings.
Not spectacular, but I can finally erase the A-4L from my project list. 😉
The Annual British Truck Racing Championship Made its way Back to The Brands Hatch Circuit for its Season Finale Marking the End of Motorsport for the Season.
With a Massive Firework Display on the Sunday and Plenty of on and Off Track Action The Weekend was Shaping up to be One to Remember.
Many Drivers and Support Races were also Present from the small Yet Nimble Legends Cars to the Much Bigger and more Powerful 1000 Break Horse Power Racing Trucks that will be doing Battle on the circuit Saturday was Looking like a Really Good Start to a Weekend of Speed Madness and Awesome Racing.
Speaking of which Lets take a Look and See what Qualifying will Hold for Each Support and Main Race and Find out who Will be Taking Pole for The First Races of The Weekend.
Legends Cars Championship (Qualifying)
First Up is the Famous and Fan Favourite Legends Cars Championship, Thease Little Tiny Machines Run Yamaha Motorbike Engines within them that run up to 1200/1250cc Depending on the Spec of Engine. They also are 120 Break Horse Power and with how Light Weight they are (1,325lbs Including The Driver) Thease Cars are Very Quick and Very Nimble.
Lets Find Out who came where in Qualifying and Who Will be Starting on the Front Row.
In First Place Taking Pole and The Fastest Lap was (Chris Needham) in his Legend Coupe 1250 with a Best Lap Time of 55.691 and a Top Speed of 78.08mph. Amazing Work there Chris Well Deserved and Super Job for Pole Position.
In Second Place was (Will Gibson) in his Legend 34 Ford Coupe 1250 with a Best Lap Time of 55.721 and a Top Speed of 78.04mph. Superb Job there Will Fighting Hard and Very Nearly Taking Pole from Chris.
In Third Place was (John Mickel) in his Legend 34 Ford Coupe 1250 with a Best Lap Time of 55.740 and a Top Speed of 78.01mph. Amazing Work John Pushing that Legend Hard and Securing P3 on the Gird for the Race Super Job.
Three Very Fast and Capable Drivers in Chris Will and John All Fighting it out with their Fellow Competitors for The Victory Come the First Race but who will be Brave enough to Take on the Top 3 Fastest Drivers out there? We will Have to Wait and See.
Junior Saloon Car Championship (Qualifying Part 1)
Next Up we Have The Junior Saloon Car Championship a Racing Series Designed for Much Younger Drivers (Between 14 and 17 Years of Age) who want to try their Hand in Motorsport from a Young Age.
Thease Drivers are Mostly Fearless and always Provide some Very Intense and Incredible Racing Due to their Competitive Nature and Determination to Win and Succeed.
The Cars Used for This Series are Citroen Saxo VTR'S that are 1600cc In Terms of Power Meaning that Every Driver is on a Level Playing Field when the Racing Starts making for some Close Wheel to Wheel Action and Really showing who the Most Skilled and Quickest Drivers out there are.
Speaking of Which Lets Get straight to Qualifying and see who was the Most Fearless and Managed to Clock an Incredible Lap During Qualifying.
In First Place Taking Pole Position and The Fastest Lap was (Charlie Hand) in his Citroen Saxo VTR 1600 with a Best Lap Time of 58.554 and a Top Speed of 74.26mph. In credible Driving there Charlie Very Precise and Controlled Thought the Entire Lap to Secure P1 on the Gird Amazing Job.
In Second Place was (Jamie Petters) in his Citroen Saxo VTR 1600 with a Best Lap Time of 58.661 and a Top Speed of 74.13mph. Great Work there Jamie Pushing Hard and Securing that P2 Spot on the Front Row of the Gird Superb Job.
In Third Place was (Harvey Caton) in his Citroen Saxo VTR 1600 with a Best Lap Time of 58.685 and a Top Speed of 74.10mph. Incredible Drive there Harvey Pushing The Car and Fighting All the While to Defend that P3 on the Gird.
What an Incredibly Talented array of Drivers in Charlie Jamie and Harvey All Battling it out with their Fellow Competitors to try and Win the Championship and get those All Important Points they Need which could make up the Difference. Qualifying Second Fastest is up Next so lets take a look and see Who will come out on Top.
Junior Saloon Car Championship (Qualifying Second Fastest)
Following the Results from The First Qualifying Session the Second Qualifying Session Will see all the Drivers Go out again to Better their Lap Times and Maybe even Allow some New Competitors to Move up the Order into the Podium Places.
Lets Take a Look and See if Charlie Hand has managed to Hold onto His P1 Position on the Grid.
In First Place Taking Pole Position and The Fastest Lap was (Charlie Hand) in his Citroen Saxo VTR 1600 with a Best Lap Time of 58.639 and a Top Speed of 74.15mph. Another Incredible Lap from Charlie Hand Putting Himself Once Again on Pole for The First Race for The Junior Saloon Car Championship. Congratulations Charlie.
In Second Place was (Will Redford) in his Citroen Saxo VTR 1600 with a Best Lap Time of 58.851 and a Top Speed of 73.89mph. Great Drive there from Will Securing P2 and Adding a New Driver to the Top of the Standings. Great Work.
In Third Place was (Jamie Petters) in his Citroen Saxo VTR 1600 with a Best Lap Time of 58.861 and a Top Speed of 73.87mph. Fantastic Work there Jamie Really Pushing the Car Hard and Taking that Third Position Away from Harvey on the Gird. Nice Job.
Another Really Intense Qualifying Session which has seen the Likes of Charlie Will and Jamie all Emerge Victoriously on the Front Row but out of All Three of Thease Very Talented Drivers only one of them Can take The Race Win but who is it going to be?
CTCRC Racing For Marshals (Qualifying)
Next Up was The CTCRC Racing For Marshals Race a Very Special Support Race added to the Weekend at the Last Moments to Congratulate and Commemorate the Important Safety and Work each and Every Marshal of the Circuit does where ever they go and What Ever the Circuit.
The Orange Army as they are Known as take out their Time on Weekends to Volunteer at Race Meets Marshalling the Races to ensure Driver Safety is a Top Priority in the Sport and that Rules are being Adhered to.
From Volunteers who Clean the Track after Each Race to Flag Wavers to Incident Respondents and even Vehicle Recovery The Orange Army is always on Standby For When Anything goes Wrong. They Have a Passion for Motorsport that Cannot be Matched and a Community that is still Going Strong to this Day all over the Country.
The Race itself Features a Wide Variety of Cars from Honda Civic EG2000 to Ford Escort MK1 Mexico's to even Aston Martin V8 Vantages. Each and Every Car has its Strengths and Weaknesses when it comes to Power and Control.
Lets take a Look at Qualifying and see who Managed to Taim their Beast and take that All Important P1 Spot on the Gird for Race 1.
In First Place taking Pole Position and the Fastest Lap was (Samuel Wilson) in his Aston Martin V8 Vantage with a Best Lap Time of 52.087 and a Top Speed of 83.48mph. Phenomenal Drive there Samuel Really Working Hard to Keep the Car on the Track and Utilise all that Important Horse Power.
In Second Place was (Gary Prebble) in his Honda Civic EG2000 with a Best Lap Time of 52.672 and a Top Speed of 82.56mph. Great Work there Gary Pushing Hard and Ensuring that P2 is Secure on the Gird. Great Driving.
In Third Place was (Mike Saunders) in his Ford MK1 Escort Mexico with a Best Lap Time of 52.837 and a Top Speed of 82.30mph. Fantastic Work there Mike Great Job and Well Done for Securing P3 on the Grid.
A Really Fantastic Trio of Drivers in P1 P2 And P3 in the Likes of Samuel Gary and Mike all Pushing Hard and Making their Mark Amongst their Fellow Drivers but will anyone Else be able to challenge them and Potentially take that All Important P1 Spot Right Out from Underneath them? Stay Tuned to Find Out.
Pickup Truck Championship (Qualifying Part 1)
Pickup Trucks made their way out onto the Circuit Next and With some Very Fast and Capable Machinery in each of thease Cars Expect to see Very Fast Lap Times and a Lot of High Speed Action.
The Pickup Trucks themselves are Made out of a Space Frame with the Bodies on all the Trucks Just being either Plastic or Fibreglass which Helps to Reduce Weight and Allows for some Very Quick Lap Times around the Circuit.
Engine Specifications for the Pickup Trucks Includes a 2.0 Litre Engine Capable of 220 Break Horse Power and Much like The Legends Cars they are Still Very Nimble at High Speeds Resulting in Full concentration and Skill to ensure Victory on the Race Track.
Lets Look to Qualifying and see what Happened and who will be On Pole for the First of Two Qualifying Sessions This is Part 1.
In First Place taking Pole and the Fastest Lap was (Matt Wills) in his Pickup Truck 2000 with a Best Lap Time of 52.358 and a Top Speed of 83.05mph. Great Drive there Matt Pushing Hard and Keeping the Truck Pointing in the Right Direction at All Times. Great Work.
In Second Place was (Matt Simpson) in his Pickup Truck 2000 with a Best Lap Time of 52.529 and a Top Speed of 82.78mph. Well Done Matt P2 and a Super Drive from you as well.
In Third Place was (Dean Tompkins) in his Pickup Truck 2000 with a Best Lap Time of 52.593 and a Top Speed of 82.68mph. Well Done Dean A Really Good Drive and Fending off David O' Regan to take that All Important P3 on the Grid.
Another Incredible Display of Car Control and High Speed Action from the Two Matt's and Dean for what I'm Sure will be a Fantastic First Race when the Lights Go Out but for Now its onto Qualifying Part 2 to see if Any of the Fastest Drivers Can Improve or Move their Positions on the Gird to a Better Starting Spot.
Pickup Truck Championship (Qualifying Part 2)
For Part 2 of This Qualifying Session the Top 20 Fastest Drivers Battle it out for Another Chance to either Improve or Defend their Position from the First Qualifying Session.
Lets take a Look and see How Dean and the Two Matt's go on Did they Stay where they Were or Have they Moved About a bit and Allowed a New Driver to take Pole for the Race?
In First Place taking Pole and The Fastest Lap was (Mark Willis) in his Pickup Truck 2000 with a Best Lap Time of 52.358 and a Top Speed of 83.05mph. Congratulations Mark P1 and a Front Row Start on the Gird for Race 1. Incredible Lap.
In Second Place was (Matt Simpson) in his Pickup Truck 2000 with a Best Lap Time of 52.529 and a Top Speed of 82.78mph. Another Fantastic Lap there Matt Hanging onto P2 on the Grid and Matching Your Previous Fastest Time. Great Stuff.
In Third Place was (Dean Thomas) in his Pickup Truck 2000 with a Best Lap Time of 52.593 and a Top Speed of 82.68mph. Fantastic Work there Dean Keep Hold of that P3 on the Grid and Defending Well from P4's David O' Regan.
What a Superb Bit of Driving from Each of the Top Three in Mark Matt and Dean Thease Three Really Know How to Push their Pickup Trucks to the Limit and Race them Right on the Edge of what is Possible Around this Circuit. Looking Forward to the First Race and to see who can make their Mark on the Weekend First.
British Truck Racing Championship (Qualifying)
Finally it was Time for The Heavy Weights to make their way out onto the Circuit and with 1000 Break Horse Power under each of the Drivers Right Foot This will Surely be a Qualifying Session of who is Brave Enough to Push their Truck to the Limit and Take Pole Position for Race 1 of the Weekend.
In First Place taking Pole Position and The Fastest Lap was (Ryan Smith) in his Mercedes Actros 12000 with a Best Lap Time of 1:00.232 and a Top Speed of 72.19mph. Brilliant Driving from Ryan Really Pushing on and Getting the Job Done to Secure the First Pole Position for Truck Racing this Weekend. Fantastic Drive.
In Second Place was (Stuart Oliver) in his Volvo VNL 13000 with a Best Lap Time of 1:00.949 and a Top Speed of 71.34mph. Well Driven there Stuart Keeping the Volvo Out of Trouble and Taking a Well Deserved P2 Spot on the Grid.
In Third Place was (David Jenkins) in his Man TGX 12000 with a Best Lap Time of 1:01.146 and a Top Speed of 71.11mph. Great Drive there David Really Well Done that's P3 on the Grid.
Three Incredible Drivers in Ryan Stuart and David all Pushing themselves Hard and Getting Ready for what Will be a Super First Race for the Trucks. To All the Other Truck Racers and Support Racers taking Part Good Luck and May the Best Man Win.
Legends Cars Championship (Race 1 Results)
After a Very Hectic Qualifying Session which saw Chris Needham Will Gibson and John Mickel in First Second and Third Place it was Time for Race 1 and to see out of the Top 3 Drivers as well as the Rest of the Drivers who could take that All Important Race Victory.
In First Place Taking the Win was (Sean Smith) in his Legend 34 Ford Coupe 1250 with a Best Lap Time of 56.515 and an Average Speed of 50.17mph. Congratulations Sean Really Well Driven and Held together for that Impressive Victory.
In Second Place was (Stephen Whitelegg) in his Legend Coupe 1250 with a Best Lap Time of 56.352 and an Average Speed of 50.17 mph. Superb Driving from Stephen and a Fantastic P2 Finish on the Podium.
In Third Place was (John Mickel) in his Legend 34 Ford Coupe with a Best Lap Time of 56.160 and an Average Speed of 50.16mph. Great Driving There John P3 and The Final Step on the Podium.
What an Amazing First Race that was for The Legends Cars Championship with the Likes of Sean Stephen and John all Taking Superb Victories and Battle Through the Field. Good Luck to all other Drivers and Lets see what Race 2 Brings.
Legends Cars Championship (Race 2 Results)
After a Really Intense Battle at the Top End of the Field it was Time once again for the Legends Cars and their Drivers to Head out onto the Circuit for Race 2.
In First Place Taking the Win was (Will Gibson) in his Legend 34 Ford Coupe with a Best Lap Time of 55.548 and an Average Speed of 77.28mph. Phenomenal Drive there Will Pushing Hard through the Field to take a Very Well Deserved Race Win. Congratulations.
In Second Place was (Miles Rudman) in his Legend 34 Ford Coupe with a Best Lap Time of 55.541 and an Average Speed of 77.25mph. Great Drive there Miles Pushing Yourself and The Car Thought the entire Race and Securing P2.
In Third Place was (Mike Schlup) in his Legend 34 Coupe with a Best Lap Time of 55.638 and an Average Speed of 77.07mph. Great Driving there Mike Nicely Done and P3 on the Podium Super Job.
Another Amazing Race which saw the Likes of Will Miles and Mike all Taking Victories with a Superb Display of Driving from Each of them and some Very Competitive Action thought the Race from other Drivers too. Race 3 is Up Next and who will take the Final Race Victory of the Day for The Legends Championship?
Legends Cars Championship (Race 3 Results)
The Final Legends Race of Saturday and with so Many Different Drivers Winning such as Will Gibson Sean Smith would anybody else be able to take on thease Top Level Drivers and Bring Home Glory to their Team?
Lets Find Out
In First Place taking the Victory was (John Mickel) in his Legend 34 Ford Coupe with a Best Lap Time of 56.016 and an Average Speed of 63.83mph. Amazing Job John Really Pushing the Car to its Limits in this Last Race and Taking Home the Spoils and The Glory. A Really Nice way to End The First Days Racing Congratulations.
In Second Place was (Paul Simmons) in his Legend 34 Ford Coupe with a Best Lap Time of 55.801 and an Average Speed of 63.81mph. Nice Work Paul A Really Solid Race and a Great Finish for a First Days Racing at Brands Hatch.
In Third Place was (Jack Parker) in his Legend 34 Ford Coupe with a Best Lap Time of 55.682 and an Average Speed of 63.54mph. Really Great Drive Jack 3rd Place and Fantastic to see a New Winner on the Podium for Legends Racing Really Well Deserved.
What an Incredible First Day of Racing it has been for the Legends Championship and with another Three Races to come on Sunday the Action will continue to Intensify. A Big Congratulations to all of the Race Winners in John Paul Jack Stephen Mike Miles and Sean who all Drove Insanely Well and Well Done to all of the other Drivers out there. Keep Pushing and Never Give Up.
Junior Saloon Car Championship (Race 1 Results)
The First Race for the Junior Saloon Cars Championship is Up Next and After seeing Charlie Hand Dominate the Field in Qualifying Will any other Driver be able to Stop Him.
Lets Find Out
In First Place taking the Victory was (Charlie Hand) in his Citroen Saxo VTR 1600 with a Best Lap Time of 58.995 and an Average Speed of 61.36mph. Phenomenal Job Once Again Charlie Putting on a Super Display of Driving Skill and Speed to Dominate Your way to Victory from Lights to Flag. Amazing Drive.
In Second Place was (Will Redford) in his Citroen Saxo VTR 1600 with a Best Lap Time of 58.981 and an Average Speed of 61.33mph. Really Well Driven there Will Chasing Down Charlie Right till the End and Still Finishing an Incredible Second Place. Congratulations.
In Third Place was (Jamie Petters) in his Citroen Saxo VTR 1600 with a Best Lap Time of 59.392 and an Average Speed of 60.74mph. Great Drive there Jamie A Lot of Hard work and Dedication to achieve that Third Position Fighting off Ruben Hage in a Thrilling Battling Side by Side. Well Done.
A Fantastic Opening Race for the Junior Saloon Car Championship with the likes of Charlie Hand coming out Victorious Once Again with Will Redford in Second Place and Jamie Petters in Third.
A Quick Mention of that Incredible Battle Between Jamie and Ruben for 3rd Place What a Phenomenal Bit of Driving from thease Two Young Drivers as they went Side by Side Continuously for Three Straight Laps before Jamie took that All Important P3 with a Move at Paddock Hill Bend. Great work to Ruben too a Phenomenal Drive for P4.
Looking Forward to some More Intense Racing Action from thease Two as Well as all the other Drivers in This Series on Sunday Until Then Good Luck and Keep Racing!
CTCRC Racing For Marshals (Race 1 Results)
After a Brilliant Qualifying Session which saw Samuel Wilson in his Aston Martin V8 Vantage take Victory Over Gary Prebble and Mike Saunders it was Time to see what the CRTC Drivers could get up to and who could take their First Victory in Race 1.
In First Place Taking Victory was (Scott Kirwan) in his Reno Clio 2000 with a Best Lap Time of 58.832 and an Average Speed of 72.98mph. Amazing Drive there Scott A Well Deserved Victory to take First Place.
In Second Place was (Keith Evans) in his Alpha Romeo Alpfasud with a Best Lap Time of 1:03.789 and an Average Speed of 67.70mph. Great Work there Keith Really Pushing Hard and Taking a Well Deserved P2 in the Race. Fantastic Work.
In Third Place was (Nathan Berrisford) in his BMW 1800ti with a Best Lap Time of 1:03.752 and an Average Speed of 67.53mph. Great Work from Nathan To Achieve Third Place and take that Final Step on the Podium Congratulations.
A Really Great First Race for the CTCRC Showcasing some Impressive Machinery and some Really Amazing Drivers in Scott Keith and Nathan All Taking Superb Victories on DAY 1. Good Luck to all of the other Drivers out their your Time Will Come, Keep Racing and Pushing your Team and Yourself to Go Further.
Pickup Truck Championship (Race 1 Results)
Next Up The Pickup Trucks Made their way out onto the Circuit and after Seeing what thease Drivers could do in Qualifying it was Mark Willis who took Pole Position in the Second Fastest Qualifying Category with Matt Simpson in Second Place and Dean Thomas in Third. Who Will be Able to Challenge each of the Top Three?
Lets Find Out
In First Place taking the Race Win and the Fastest Lap was (Dean Thompkins) in his Pickup Truck 2000 with a Best Lap Time of 52.051 and an Average Speed of 81.70mph. Congratulations Dean Really Well Done and a Fantastic Drive thought the entire Race.
In Second Place was (Paul Thompkins) in his Pickup Truck 2000 with a Best Lap Time of 52.402 and an Average Speed of 81.68mph. Superb Job there Paul Working Really Hard and Trying to Stay Close to Dean Most of The Time as Well.
In Third Place was (Matt Simpson) in his Pickup Truck 2000 with a Best Lap Time of 52.519 and an Average Speed of 81.65mph. Really Well Done Matt Fantastic Drive with a Few Sideways Moments and Securing P3 on the Podium.
A Really Exciting First Race for the Pickup Trucks as they Battled it out to see who could take that All Important Victory and become a Race Winner. Huge Congratulations to Dean Paul and Matt for putting on One Hell of a Great Race and to All the other Pickup Truck Drivers who showed their Skills and Racing Passion while Competing. Looking Forward to Sunday and More Track Action from This Lot.
British Truck Racing Championship (Race 1 Results)
Lastly for the Saturday was The British Truck Racing Championship and after a Really Aggressive Qualifying Session it was Time for each Driver to put their Skills to the Test and Battle it out for a Victory.
With Ryan Smith in Pole Position Stuart Oliver in Second and David Jenkins in Third This Race is Going to be One Hell of a Good Race to Witness.
In First Place taking the Victory was (Ryan Smith) in his Mercedes Actros 12000 with a Best Lap Time of 58.945 and an Average Speed of 72.21mph. Congratulations Ryan Really Well Deserved and a Fantastic Victory for Race 1.
In Second Place was (David Jenkins) in his Man TGX 12000 with a Best Lap Time of 1:00.159 and an Average Speed of 71.48mph. Amazing Job there David Taking your P3 Position in Qualifying and Turning it into a P2 Finish at the End of the Race Great Drive.
In Third Place was (John Newell) in his Man TGS 12000 with a Best Lap Time of 1:00.718 and an Average Speed of 70.64mph. Nice Work John Pushing the Truck Hard and Fending off Martin Gibson to take a Well Deserved Third Place.
Super Racing From the British Truck Racing Championship with Many Side by Side Battles Taking Place thought the Race and Lots of Sideways Action to Round off the Saturday Here at Brands Hatch.
A Big Congratulations to Ryan Smith David Jenkins and John Newell who all Drove Very Well and Showed what a True Championship Like Drive is in one of thease Monstrous Trucks. Well Done to all of the other Truck Racers who also Took Part Hoping to see some New Faces on the Top Step of the Podium Come Sunday.
For Now See You ALL Then!
180701-M-ZO893-1069 MARINE CORPS BASE HAWAII (July 1, 2018) Australian soldiers and Philippine Marines team together on a Zodiac Mark 2 Grand Raider general purpose inflatable boat during a beach insertion rehearsal as part of Rim of the Pacific (RIMPAC) exercise at Marine Corps Base Hawaii July 1, 2018. RIMPAC provides high-value training for task-organized, highly-capable Marine Air-Ground Task Force and enhances the critical crisis response capability of U.S. Marines in the Pacific. Twenty-five nations, 46 ships, five submarines, about 200 aircraft and 25,000 personnel are participating in RIMPAC from June 27 to Aug. 2 in and around the Hawaiian Islands and Southern California. (U.S. Marine Corps photo by Sgt. Zachary Orr)
Land Rover, manufacturer of the world’s most capable all-purpose premium vehicles, celebrated the MENA debut of its hotly anticipated New Discovery Sport last night, introducing the vehicle to an enthusiastic audience during an exclusive event hosted at the Hamdan Sports Complex in Dubai.
Capable of a respectable 15 mph. over the legal limit on wooden wheels with the Jerry Sherman specially tuned engine
Vintage Car Show, Amberley Museum and Heritage Centre
The C-130 was originally designed as an assault transport capable of operating from unpaved, hastily prepared airstrips. On Aug. 23, 1954, the Hercules made its first flight. By 1976 more than 1,200 C-130s had been ordered, including aircraft equipped for radar weather mapping and reconnaissance, mid-air space capsule recovery, search and rescue, ambulance service, drone launching, and mid-air refueling of helicopters. The C-130 could transport up to 92 combat troops and their gear or 45,000 pounds of cargo. Where facilities were inadequate, the Hercules could deliver its cargo by parachute or by low altitude ground-cable extraction without landing.
Twenty-eight C-130s were converted to side-firing gunships, primarily for night attacks against ground targets. This AC-130A was modified at Wright-Patterson Air Force Base, Ohio, as the prototype for the gunship version and was initially equipped with four 20mm and four 7.62mm multi-barrel guns, a searchlight and target sensors. After testing in Southeast Asia in 1967, it was used as a test bed for additional armament, sensor and fire control development. Later AC-130 gunships mounted improved sensors, a digital fire control computer and heavier armament.
The aircraft on display was retired to the museum in May 1976.
Built by the Schiffswerks Rieherst company in Hamburg, the Umbria was launched on December 30th 1911 with the name of Bahia Blanca. It was a large freighter by that time, 150 meters long, with a power capable of providing a speed of 14 knots that could carry 9,000 tons of cargo and up to 2,000 passengers. In 1912 it began operating the Hamburg-America line doing different jobs between Europe and Argentina until the outbreak of World War I, when it was based in Buenos Aires. In 1918 the ship was acquired by the Argentinian government and it was not until 1935 when the ship was taken over by the Italian government and renamed again: the Umbria. From that moment its trips were to transport troops and during the following two years carried several thousand soldiers to the Italian colonies in East Africa.
The loss of the Umbria
In May 1940, when Italy was still neutral in World War II, the Umbria was secretly loaded with 360,000 bombs between 15 kg and 100 kg, 60 boxes of detonators, building materials and three Fiat Lunga cars, carrying a total 8,600 tons of weapons towards the East Africa. The explosives had destination Massawa and Assab, Eritrea, that was Italian colony by then, and the rest of the cargo was heading different locations in Asia. Italy's entry into the war was imminent and this shipment was destined to the defense of the colonies against the Allies and to the possible expansion of its African territories.
On 3rd June 1940 the Umbria reached Port Said, northern Egypt, where loaded with 1,000 tons of coal and water in a movement to fool the Allies, trying to look like a harmless freighter. The port, controlled by the Royal Navy, and its authorities allowed the ship enter on the Red Sea three days after arrival. The British delayed the departure of the Umbria knowing that Italy's entry into the war was imminent and that the cargo of Umbria had devastating power that sooner or later would be used against the Allies and why not, to get a great load to fight fascism. But Italy, as a neutral country that it was, had every right to transport weapons much like any other cargo to its colonies.
Having met the deadline to be retained, the Umbria crossed the Suez Canal on June 6th but with the escort of the HMS Grimsby. The importance and destructive capacity of the cargo required it. Three days later the Umbria entered in Sudan waters and the HMS Grimsby ordered the Umbria captain to anchor on Wingate Reef under the pretext of searching for contraband. Moments later the British warship HMS Leander arrived with a group of 20 sailors who boarded the Umbria. After thoroughly searching the ship and finding nothing, the captain ordered the British troops to remain the night aboard the Umbria.
The next morning Lorenzo Muiesan, Umbria captain, was in his cabin listening to the radio when Mussolini announced the entry of Italy into the World War II. Hostilities would begin at midnight of that day. Muiesan, a very patriotic captain with long experience, was the only one in the area who had heard the news and knew immediately that both Umbria and the burden would be used by the Allies against their own country. He had no option to disable both. In a move of extraordinary intelligence, as the hours passed retained by the British who did not yet know that Italy was officially the enemy, the captain ordered his crew conducting a rescue simulation... that was more real than the British thought. This maneuver, which the English soldiers agreed as they believed it would serve to further delay the departure of the Umbria. While the Italians occupied the lifeboats, the chief engineers, following Muiesan´s orders, opened all the valves and drown the ship to the bottom of the reef. With the crew safe, the British only had time to get on their ship and watch the freighter slid slowly.
When the captain of HMS Grimsby asked why he had done that Muiesan confirmed the declaration of war from Italy to Britain. The next day Muiesan and the rest of Umbria crew departed detainees to India, where they spent four years in prison.
CARGO:
The Umbria was carrying 360,000 individual aircraft bombs ranging in size from 15, 50 and 100 kg. The vessel also carried a large quantity of fuses, ammunition and detonators as well as other traditional cargo. The captain knew these bombs would be confiscated and used by the enemy against his country should they ever discover them which was why he made the call to sink the ship.
The Umbria had sailed in June 1940 with 6,000 tons of bombs, 60 boxes detonators, explosives, weapons and three Fiat 1100 Lunga from Genoa via Livorno and Naples in the Suez Canal and on the way via Massaua and Assab to Calcutta.
Aeroscopia est un musée aéronautique français implanté à Blagnac (Haute-Garonne), près du site AéroConstellation, et accueille notamment deux exemplaires du Concorde, dont l'ouverture a eu lieu le 14 janvier 2015
Le tarmac Sud du musée n'est capable d'accueillir que trois gros appareils. L'installation des appareils fut définitivement terminée après que le premier prototype de l'A400M-180 y fut arrivé le 16 juillet 2015, en dépit de la possibilité de 360 000 euros de TVA.
Concorde, F-BVFC, MSN209 aux couleurs d'Air France
Caravelle 12, F-BTOE, MSN280 aux couleurs d'Air Inter, dernier exemplaire construit
A400M-180, F-WWMT, MSN001 stationné depuis le 16 juillet 2015
La réalisation en 2019 du nouveau tarmac au Nord du musée permet l'accueil d'appareils supplémentaires issus des entreprises locales Airbus et ATR. Le transfert des avions entre le site Airbus "Lagardère" et le musée a lieu sur une semaine, à raison d'un appareil par jour :
ATR 72-600, F-WWEY, MSN098 aux couleurs d'ATR, transféré sur site le 26 août 2019, premier exemplaire du 72 dans sa version 600
Airbus A340-600, F-WWCA, MSN360 aux couleurs d'Airbus, transféré sur site le 27 août 2019, premier exemplaire de l'A340 dans sa version 600
Airbus A320-111, F-WWAI, MSN001 aux anciennes couleurs d'Airbus, transféré sur site le 28 août 2019, premier exemplaire de l'A320 : inauguration le 14 février 1987 en présence de Lady Diana et du Prince Charles, premier vol le 22 février 1987
Airbus A380-800, F-WXXL, MSN002 aux couleurs d'Airbus, transféré sur site le 29 août 2019, second exemplaire de l'A380. Les deux ponts de cet appareil sont visitables, ainsi que le cockpit.
ATR 42-300, F-WEGC, MSN003 aux anciennes couleurs d'ATR, transféré sur site le 30 août 2019, troisième exemplaire du 42. Cet exemplaire est décoré aux couleurs du MSN001 et porte l'immatriculation F-WEGA
Concorde, F-WTSB, MSN201 (ANAE), il s'agit d'un appareil de présérie qui a servi entre autres à transporter plusieurs présidents de la République française.
Airbus A300B4-203, F-WUAB, MSN238 (Airbus Heritage), décoré aux couleurs du prototype, au lieu de MSN001 démantelé. L'intérieur est visitable. Dans la première section des vitrages transparents permettent de voir la structure et les systèmes de l'avion, tandis que dans les sections suivantes sont représentés des aménagements de première classe et VIP.
Super Guppy de l'association Ailes Anciennes Toulouse, l'appareil qui servait au transport des tronçons d'Airbus est exposé porte ouverte, et une passerelle permet l'accès à la soute où un film est projeté. L'ouverture n'a pas été une mince affaire, l'appareil n'ayant pas été ouvert pendant 15 ans. L'aide des anciens mécaniciens de l'avion a été primordiale pour permettre une ouverture en toute sécurité.
Corvette (Airbus)
Falcon 10 no 02, prototype ayant servi aux essais du turboréacteur Larzac (Ailes Anciennes Toulouse)
Fouga Magister (AAT)
Gazelle prototype (AAT)
Mirage III C (AAT)
Nord 1100 (AAT)
Lockheed F-104G (AAT)
MiG-15 (AAT)
MS.760 Paris (AAT)
Vought F-8E(FN) Crusader et son réacteur (AAT)
Alouette II Marine (AAT)
Cessna Skymaster (AAT)
Fairchild Metro, ancien avion de Météo-France (AAT)
HM-293, de Rodolphe Grunberg
Chagnes MicroStar, avion de construction amateur, version biréacteur de Rutan VariViggen (AAT)
Saab J35OE Draken (AAT)
Aeroscopia is a French aeronautical museum located in Blagnac (Haute-Garonne), near the AéroConstellation site, and notably hosts two copies of the Concorde, which opened on January 14, 2015
The south tarmac of the museum can only accommodate three large aircraft. The installation of the devices was definitively finished after the first prototype of the A400M-180 arrived there on July 16, 2015, despite the possibility of 360,000 euros in VAT.
Concorde, F-BVFC, MSN209 in Air France colors
Caravelle 12, F-BTOE, MSN280 in Air Inter colors, last model built
A400M-180, F-WWMT, MSN001 parked since July 16, 2015
The construction in 2019 of the new tarmac north of the museum will accommodate additional aircraft from local Airbus and ATR companies. The transfer of planes between the Airbus "Lagardère" site and the museum takes place over a week, at the rate of one aircraft per day:
ATR 72-600, F-WWEY, MSN098 in ATR colors, transferred to site on August 26, 2019, first copy of the 72 in its 600 version
Airbus A340-600, F-WWCA, MSN360 in Airbus colors, transferred to site on August 27, 2019, first copy of the A340 in its 600 version
Airbus A320-111, F-WWAI, MSN001 in the old Airbus colors, transferred to site on August 28, 2019, first copy of the A320: inauguration on February 14, 1987 in the presence of Lady Diana and Prince Charles, first flight on February 22, 1987
Airbus A380-800, F-WXXL, MSN002 in Airbus colors, transferred to site on August 29, 2019, second copy of the A380. The two decks of this aircraft can be visited, as well as the cockpit.
ATR 42-300, F-WEGC, MSN003 in the old ATR colors, transferred to the site on August 30, 2019, third specimen of the 42. This specimen is decorated in the colors of the MSN001 and bears the registration F-WEGA
Concorde, F-WTSB, MSN201 (ANAE), this is a pre-production aircraft which was used, among other things, to transport several presidents of the French Republic.
Airbus A300B4-203, F-WUAB, MSN238 (Airbus Heritage), decorated in the colors of the prototype, instead of dismantled MSN001. The interior can be visited. In the first section transparent glazing allows to see the structure and systems of the aircraft, while in the following sections are shown first class and VIP fittings.
Super Guppy from the Ailes Anciennes Toulouse association, the aircraft which was used to transport the Airbus sections is on display with the door open, and a gangway allows access to the hold where a film is shown. Opening was no small feat, as the device has not been opened for 15 years. The help of the former mechanics of the aircraft was essential to allow a safe opening.
Corvette (Airbus)
Falcon 10 no 02, prototype used for testing the Larzac turbojet engine (Ailes Anciennes Toulouse)
Fouga Magister (AAT)
Prototype Gazelle (AAT)
Mirage III C (AAT)
North 1100 (AAT)
Lockheed F-104G (AAT)
MiG-15 (AAT)
MS.760 Paris (AAT)
Vought F-8E (FN) Crusader and its engine (AAT)
Alouette II Marine (AAT)
Cessna Skymaster (AAT)
Fairchild Metro, former Météo-France (AAT) aircraft
HM-293, by Rodolphe Grunberg
Chagnes MicroStar, amateur-built aircraft, twin-jet version of Rutan VariViggen (AAT)
Saab J35OE Draken (AAT)
Aeroscopia est un musée aéronautique français implanté à Blagnac (Haute-Garonne), près du site AéroConstellation, et accueille notamment deux exemplaires du Concorde, dont l'ouverture a eu lieu le 14 janvier 2015
Le tarmac Sud du musée n'est capable d'accueillir que trois gros appareils. L'installation des appareils fut définitivement terminée après que le premier prototype de l'A400M-180 y fut arrivé le 16 juillet 2015, en dépit de la possibilité de 360 000 euros de TVA.
Concorde, F-BVFC, MSN209 aux couleurs d'Air France
Caravelle 12, F-BTOE, MSN280 aux couleurs d'Air Inter, dernier exemplaire construit
A400M-180, F-WWMT, MSN001 stationné depuis le 16 juillet 2015
La réalisation en 2019 du nouveau tarmac au Nord du musée permet l'accueil d'appareils supplémentaires issus des entreprises locales Airbus et ATR. Le transfert des avions entre le site Airbus "Lagardère" et le musée a lieu sur une semaine, à raison d'un appareil par jour :
ATR 72-600, F-WWEY, MSN098 aux couleurs d'ATR, transféré sur site le 26 août 2019, premier exemplaire du 72 dans sa version 600
Airbus A340-600, F-WWCA, MSN360 aux couleurs d'Airbus, transféré sur site le 27 août 2019, premier exemplaire de l'A340 dans sa version 600
Airbus A320-111, F-WWAI, MSN001 aux anciennes couleurs d'Airbus, transféré sur site le 28 août 2019, premier exemplaire de l'A320 : inauguration le 14 février 1987 en présence de Lady Diana et du Prince Charles, premier vol le 22 février 1987
Airbus A380-800, F-WXXL, MSN002 aux couleurs d'Airbus, transféré sur site le 29 août 2019, second exemplaire de l'A380. Les deux ponts de cet appareil sont visitables, ainsi que le cockpit.
ATR 42-300, F-WEGC, MSN003 aux anciennes couleurs d'ATR, transféré sur site le 30 août 2019, troisième exemplaire du 42. Cet exemplaire est décoré aux couleurs du MSN001 et porte l'immatriculation F-WEGA
Concorde, F-WTSB, MSN201 (ANAE), il s'agit d'un appareil de présérie qui a servi entre autres à transporter plusieurs présidents de la République française.
Airbus A300B4-203, F-WUAB, MSN238 (Airbus Heritage), décoré aux couleurs du prototype, au lieu de MSN001 démantelé. L'intérieur est visitable. Dans la première section des vitrages transparents permettent de voir la structure et les systèmes de l'avion, tandis que dans les sections suivantes sont représentés des aménagements de première classe et VIP.
Super Guppy de l'association Ailes Anciennes Toulouse, l'appareil qui servait au transport des tronçons d'Airbus est exposé porte ouverte, et une passerelle permet l'accès à la soute où un film est projeté. L'ouverture n'a pas été une mince affaire, l'appareil n'ayant pas été ouvert pendant 15 ans. L'aide des anciens mécaniciens de l'avion a été primordiale pour permettre une ouverture en toute sécurité.
Corvette (Airbus)
Falcon 10 no 02, prototype ayant servi aux essais du turboréacteur Larzac (Ailes Anciennes Toulouse)
Fouga Magister (AAT)
Gazelle prototype (AAT)
Mirage III C (AAT)
Nord 1100 (AAT)
Lockheed F-104G (AAT)
MiG-15 (AAT)
MS.760 Paris (AAT)
Vought F-8E(FN) Crusader et son réacteur (AAT)
Alouette II Marine (AAT)
Cessna Skymaster (AAT)
Fairchild Metro, ancien avion de Météo-France (AAT)
HM-293, de Rodolphe Grunberg
Chagnes MicroStar, avion de construction amateur, version biréacteur de Rutan VariViggen (AAT)
Saab J35OE Draken (AAT)
Aeroscopia is a French aeronautical museum located in Blagnac (Haute-Garonne), near the AéroConstellation site, and notably hosts two copies of the Concorde, which opened on January 14, 2015
The south tarmac of the museum can only accommodate three large aircraft. The installation of the devices was definitively finished after the first prototype of the A400M-180 arrived there on July 16, 2015, despite the possibility of 360,000 euros in VAT.
Concorde, F-BVFC, MSN209 in Air France colors
Caravelle 12, F-BTOE, MSN280 in Air Inter colors, last model built
A400M-180, F-WWMT, MSN001 parked since July 16, 2015
The construction in 2019 of the new tarmac north of the museum will accommodate additional aircraft from local Airbus and ATR companies. The transfer of planes between the Airbus "Lagardère" site and the museum takes place over a week, at the rate of one aircraft per day:
ATR 72-600, F-WWEY, MSN098 in ATR colors, transferred to site on August 26, 2019, first copy of the 72 in its 600 version
Airbus A340-600, F-WWCA, MSN360 in Airbus colors, transferred to site on August 27, 2019, first copy of the A340 in its 600 version
Airbus A320-111, F-WWAI, MSN001 in the old Airbus colors, transferred to site on August 28, 2019, first copy of the A320: inauguration on February 14, 1987 in the presence of Lady Diana and Prince Charles, first flight on February 22, 1987
Airbus A380-800, F-WXXL, MSN002 in Airbus colors, transferred to site on August 29, 2019, second copy of the A380. The two decks of this aircraft can be visited, as well as the cockpit.
ATR 42-300, F-WEGC, MSN003 in the old ATR colors, transferred to the site on August 30, 2019, third specimen of the 42. This specimen is decorated in the colors of the MSN001 and bears the registration F-WEGA
Concorde, F-WTSB, MSN201 (ANAE), this is a pre-production aircraft which was used, among other things, to transport several presidents of the French Republic.
Airbus A300B4-203, F-WUAB, MSN238 (Airbus Heritage), decorated in the colors of the prototype, instead of dismantled MSN001. The interior can be visited. In the first section transparent glazing allows to see the structure and systems of the aircraft, while in the following sections are shown first class and VIP fittings.
Super Guppy from the Ailes Anciennes Toulouse association, the aircraft which was used to transport the Airbus sections is on display with the door open, and a gangway allows access to the hold where a film is shown. Opening was no small feat, as the device has not been opened for 15 years. The help of the former mechanics of the aircraft was essential to allow a safe opening.
Corvette (Airbus)
Falcon 10 no 02, prototype used for testing the Larzac turbojet engine (Ailes Anciennes Toulouse)
Fouga Magister (AAT)
Prototype Gazelle (AAT)
Mirage III C (AAT)
North 1100 (AAT)
Lockheed F-104G (AAT)
MiG-15 (AAT)
MS.760 Paris (AAT)
Vought F-8E (FN) Crusader and its engine (AAT)
Alouette II Marine (AAT)
Cessna Skymaster (AAT)
Fairchild Metro, former Météo-France (AAT) aircraft
HM-293, by Rodolphe Grunberg
Chagnes MicroStar, amateur-built aircraft, twin-jet version of Rutan VariViggen (AAT)
Saab J35OE Draken (AAT)
Spotted this VW Camper on a recent visit to Brockley. Parked in a Disabled Bay, I liked the delusional sticker ...
Capably skippered by an old sea-dog and his faithful first mate, people from all walks of life including movie stars, university professors, rich couples and country girls all signed on for three-hour tours of the open water off the Florida coast…
Is the C6 Chevrolet Corvette Z06 still capable of running with the big boys? Rich Willhoff’s Abel Chevrolet 2006 Corvette Z06 suggests yes, being tuned to the max and consistently finishing near the top in the Optima Batteries Search for the Ultimate Street Car! It's powered by a 700+HP 427ci Katech LS7 and rides on JRi double-adjustable shocks, carbon-ceramic ZR1 brakes, 315/30ZR18 & 335/30ZR18 BFGoodrich Rival S tires, and 18x11/18x12.5 Forgeline one piece forged monoblock GTD1 5-Lug wheels finished in Satin Black! See more at: forgeline.com/customer-gallery/rich-willhoff/
#Forgeline #GTD1 #openlug #forgedmonoblock #notjustanotherprettywheel #doyourhomework #madeinUSA #Chevrolet #Chevy #Corvette #C6 #Z06 #C6Z06 #OUSCI #SEMAShow #SEMA2018
The most capable X factor contestant.
Brilliant voice
Can dance
Great personality
Vote now
Julia and I helped swell the not inconsiderable x factor swag bag by voting 5 times.
But she deserves her chance.
She was the artist who held her own against Beyonce - both Diva's. Go Alex.
Alex got 58% of the vote.
Hey - if you are passing by to look at alex singing then do have a look at some of my fine pics :)
To take a pic of your TV without getting a big black line through it - set the camera onto shutter priority and set it up to 1/30 of a sec. The screen refreshes at 1/26 a sec so it works.
Have a happy life and let's watch this girl became a world class pop star.
More here
xfactor.itv.com/stories/story-detail/item_100576.htm
17/09/09 - 2788 views ytd
26/08/09 - this image was viewed 300x - I wonder why?
Aeroscopia est un musée aéronautique français implanté à Blagnac (Haute-Garonne), près du site AéroConstellation, et accueille notamment deux exemplaires du Concorde, dont l'ouverture a eu lieu le 14 janvier 2015
Le tarmac Sud du musée n'est capable d'accueillir que trois gros appareils. L'installation des appareils fut définitivement terminée après que le premier prototype de l'A400M-180 y fut arrivé le 16 juillet 2015, en dépit de la possibilité de 360 000 euros de TVA.
Concorde, F-BVFC, MSN209 aux couleurs d'Air France
Caravelle 12, F-BTOE, MSN280 aux couleurs d'Air Inter, dernier exemplaire construit
A400M-180, F-WWMT, MSN001 stationné depuis le 16 juillet 2015
La réalisation en 2019 du nouveau tarmac au Nord du musée permet l'accueil d'appareils supplémentaires issus des entreprises locales Airbus et ATR. Le transfert des avions entre le site Airbus "Lagardère" et le musée a lieu sur une semaine, à raison d'un appareil par jour :
ATR 72-600, F-WWEY, MSN098 aux couleurs d'ATR, transféré sur site le 26 août 2019, premier exemplaire du 72 dans sa version 600
Airbus A340-600, F-WWCA, MSN360 aux couleurs d'Airbus, transféré sur site le 27 août 2019, premier exemplaire de l'A340 dans sa version 600
Airbus A320-111, F-WWAI, MSN001 aux anciennes couleurs d'Airbus, transféré sur site le 28 août 2019, premier exemplaire de l'A320 : inauguration le 14 février 1987 en présence de Lady Diana et du Prince Charles, premier vol le 22 février 1987
Airbus A380-800, F-WXXL, MSN002 aux couleurs d'Airbus, transféré sur site le 29 août 2019, second exemplaire de l'A380. Les deux ponts de cet appareil sont visitables, ainsi que le cockpit.
ATR 42-300, F-WEGC, MSN003 aux anciennes couleurs d'ATR, transféré sur site le 30 août 2019, troisième exemplaire du 42. Cet exemplaire est décoré aux couleurs du MSN001 et porte l'immatriculation F-WEGA
Concorde, F-WTSB, MSN201 (ANAE), il s'agit d'un appareil de présérie qui a servi entre autres à transporter plusieurs présidents de la République française.
Airbus A300B4-203, F-WUAB, MSN238 (Airbus Heritage), décoré aux couleurs du prototype, au lieu de MSN001 démantelé. L'intérieur est visitable. Dans la première section des vitrages transparents permettent de voir la structure et les systèmes de l'avion, tandis que dans les sections suivantes sont représentés des aménagements de première classe et VIP.
Super Guppy de l'association Ailes Anciennes Toulouse, l'appareil qui servait au transport des tronçons d'Airbus est exposé porte ouverte, et une passerelle permet l'accès à la soute où un film est projeté. L'ouverture n'a pas été une mince affaire, l'appareil n'ayant pas été ouvert pendant 15 ans. L'aide des anciens mécaniciens de l'avion a été primordiale pour permettre une ouverture en toute sécurité.
Corvette (Airbus)
Falcon 10 no 02, prototype ayant servi aux essais du turboréacteur Larzac (Ailes Anciennes Toulouse)
Fouga Magister (AAT)
Gazelle prototype (AAT)
Mirage III C (AAT)
Nord 1100 (AAT)
Lockheed F-104G (AAT)
MiG-15 (AAT)
MS.760 Paris (AAT)
Vought F-8E(FN) Crusader et son réacteur (AAT)
Alouette II Marine (AAT)
Cessna Skymaster (AAT)
Fairchild Metro, ancien avion de Météo-France (AAT)
HM-293, de Rodolphe Grunberg
Chagnes MicroStar, avion de construction amateur, version biréacteur de Rutan VariViggen (AAT)
Saab J35OE Draken (AAT)
Aeroscopia is a French aeronautical museum located in Blagnac (Haute-Garonne), near the AéroConstellation site, and notably hosts two copies of the Concorde, which opened on January 14, 2015
The south tarmac of the museum can only accommodate three large aircraft. The installation of the devices was definitively finished after the first prototype of the A400M-180 arrived there on July 16, 2015, despite the possibility of 360,000 euros in VAT.
Concorde, F-BVFC, MSN209 in Air France colors
Caravelle 12, F-BTOE, MSN280 in Air Inter colors, last model built
A400M-180, F-WWMT, MSN001 parked since July 16, 2015
The construction in 2019 of the new tarmac north of the museum will accommodate additional aircraft from local Airbus and ATR companies. The transfer of planes between the Airbus "Lagardère" site and the museum takes place over a week, at the rate of one aircraft per day:
ATR 72-600, F-WWEY, MSN098 in ATR colors, transferred to site on August 26, 2019, first copy of the 72 in its 600 version
Airbus A340-600, F-WWCA, MSN360 in Airbus colors, transferred to site on August 27, 2019, first copy of the A340 in its 600 version
Airbus A320-111, F-WWAI, MSN001 in the old Airbus colors, transferred to site on August 28, 2019, first copy of the A320: inauguration on February 14, 1987 in the presence of Lady Diana and Prince Charles, first flight on February 22, 1987
Airbus A380-800, F-WXXL, MSN002 in Airbus colors, transferred to site on August 29, 2019, second copy of the A380. The two decks of this aircraft can be visited, as well as the cockpit.
ATR 42-300, F-WEGC, MSN003 in the old ATR colors, transferred to the site on August 30, 2019, third specimen of the 42. This specimen is decorated in the colors of the MSN001 and bears the registration F-WEGA
Concorde, F-WTSB, MSN201 (ANAE), this is a pre-production aircraft which was used, among other things, to transport several presidents of the French Republic.
Airbus A300B4-203, F-WUAB, MSN238 (Airbus Heritage), decorated in the colors of the prototype, instead of dismantled MSN001. The interior can be visited. In the first section transparent glazing allows to see the structure and systems of the aircraft, while in the following sections are shown first class and VIP fittings.
Super Guppy from the Ailes Anciennes Toulouse association, the aircraft which was used to transport the Airbus sections is on display with the door open, and a gangway allows access to the hold where a film is shown. Opening was no small feat, as the device has not been opened for 15 years. The help of the former mechanics of the aircraft was essential to allow a safe opening.
Corvette (Airbus)
Falcon 10 no 02, prototype used for testing the Larzac turbojet engine (Ailes Anciennes Toulouse)
Fouga Magister (AAT)
Prototype Gazelle (AAT)
Mirage III C (AAT)
North 1100 (AAT)
Lockheed F-104G (AAT)
MiG-15 (AAT)
MS.760 Paris (AAT)
Vought F-8E (FN) Crusader and its engine (AAT)
Alouette II Marine (AAT)
Cessna Skymaster (AAT)
Fairchild Metro, former Météo-France (AAT) aircraft
HM-293, by Rodolphe Grunberg
Chagnes MicroStar, amateur-built aircraft, twin-jet version of Rutan VariViggen (AAT)
Saab J35OE Draken (AAT)
10 new pumps featuring a non–clog impeller capable of handling solids up to 4 1/2” and a large clean out port for hassle-free removal of large debris over 41/2” without removing suction pipe or hose. Each pump is capable of delivering flow over 17,000 gallons per minute and head capacities of 240 ft. or more. Griffin non-clog pumps are an ideal solution for sewer bypasses, flood control, sumping, or any other application requiring high volume and the ability to move trash laden effluent. These 10 pumps were manufactured in the USA during summer/fall 2009.
For more information on this pump and other dewatering pumps please visit: www.griffinpump.com
Built as a lightweight fighter, the F11F Tiger was a superior performing aircraft, capable of Mach 1.1. In April 1958, an F11F-1F Super Tiger, of which only two were built, reached an altitude of 76,828 ft., establishing a world record. In a more unusual episode, during a 1956 test flight, a Grumman pilot flying an F11F shot himself down by overtaking his bullets in a diving maneuver. Despite its performance, the Tiger's service life was short, as it coincided with development of the F8U Crusader and F4H Phantom II.
The origins of the F11F Tiger (redesignated F-11 in 1962) can be traced to a 1952 Grumman effort to modernize the company's F9F-6/7 Cougar. Yet, in final form the aircraft departed sharply from its predecessor. Designed as a lightweight fighter, the development model of the F11F, first flown in July 1954, featured thin swept wings, incorporating spoilers instead of ailerons, coupled with an area-rule (coke-bottle shaped) fuselage design that enabled it to exceed Mach 1. The F11F-1 test trials produced one of the most bizarre flights in aviation history when a Grumman test pilot managed to "shoot himself down" with his own bullets. Firing the guns in a dive, the trajectory of the bullets allowed him to overtake them on his pullout causing an engine flameout and a subsequent forced landing.
Initial production F11Fs were delivered to the Navy in March 1957. In spite of its design performance profile, the Tiger saw limited service, its appearance coinciding with two of the most capable fighters of all time, the F8U Crusader and F4H Phantom II. Such was their capabilities that the F11F-1F Super Tiger, which incorporated a more powerful engine that enabled it to achieve a speed of 1,386.47 mph in level flight and reach a world record altitude of 76,828 feet, did not enter production. Tigers finished their service in the Naval Air Training Command and as demonstration aircraft with the Blue Angels, who flew the F11F during the period 1957-1969.
Delivered to the Navy in April 1958, the Museum's F11F-1 (Bureau Number 141828) served with several squadrons, ashore at Naval Air Station (NAS) Cubi Point, Philippines, and with Training Squadron (VT) 26 before flying with the Blue Angels from 1967 to 1969, the last show seasons in which the team flew the Tiger.
www.navalaviationmuseum.org/attractions/aircraft-exhibits...
NEOBALLS / ZEN MAGNETS - Neodymium Magnetic Balls (@4205) - Starcraft II's Massive Thor
This is my most complex and largest build to date.
It was designed in parts: Cockpit body, then legs, then arms, then rear guns. Then I had to redesign parts when it came time to assemble it together because of incorrect bonding assumptions and misalignment of magnet fields.
Experimented with x-beam coupled bonds to get the maximum lateral strength with reinforcements on the sides. This proved to be very string. Created a X-Beam using similar methods producing a very strong leg structure. It was capable of support the entire weight of the cockpit body w/o a problem. Had to redesign the leg to cockpit body mount point from the earlier concept because the bond was not completely coupled.
Next up were the arm/guns ... the weight was too much for the cockpit body to support so I fashioned a pair of lego-platforms for them to rest on and take the weight off of the central body.
Finally ... the rear guns ... these were a challenge in that their original mount point design had to be reworked also to make them fit correctly into the rear of the cockpit body. I changed the mount points on the guns to fit the space on both sides and added a few support balls to improve the mount point bonds. I was very surprised how they were balanced and supported only by two point sections to the body. The guns stayed in place for a small series of photos.
The design flaw was in the side bonds of the beam to the legs. The coupled field held nicely for a short amount of time and would have held if it didn't have the weight of the rear guns to support. When they were standing upright and straight, all was good. As soon as I attempted to move the platform forward (to take a video), the rear guns tilted slightly backwards and and that was the end of the leg to body support bonds ... and created the dreaded implosion.
The rear gun weight caused the entire central body section to rotate backwards and fall back on the rear guns ... taking the arms in the process. Perhaps I should have created a Lego-support structure for the rear guns to remove the pendulum force backwards ... but that would have created another view blocker like the side Lego-platforms obstructed the view of the legs and feet. Not sure if I can recreate it for a rotational video ... this took over a week (on/off to design and assemble).
Overall ... I was very happy with the result ... hope I captured enough detail to warrant some visual recognition as a Starcraft II Thor reproduction/interpretation.
This was design and built for the Zen Magnets Contest 26: The Massive Thor
www.zenmagnets.com/blog/26-the-massive-thor/
I tried to document the info for this super complex build (below) accompanied by associated pics in this set
www.flickr.com/photos/tend2it/sets/72157632920071597/
Starcraft II Thor Magnet Count and Detail Talley
======+================
Cockpit Body bottom section: (@0520)
(@0217) - Main shape middle core = (2x108) + 1
(@0095) - central bottom layer 1 = (47x2) + 1 w/black parameter
(@0078) - Sides Bottom layer 2 = (2x(22 parallel pair frnt2bck support + 3 red + 4 gold + 10 ring outside black))
(@0028) - Central bottom layer 3 = (2x14) rectangle
(@0032) - Sides bottom layer 3 = (2x((2x5 parallel bridge rectangle to ring) + (6 ring outside))
(@0010) - Central bottom layer 4 = (10 ring) leg waist w/gold
(@0020) - Sides bottom layer 4 = (2x10 ring) coupled over parallel bridge for perpendicular underside support
(@0040) - Central rear Barrel = (4x8 ring w2 red rings) + (2x4 sqr end)
------
Cockpit Body top section (from center out): (@0371)
(@0166) - top layer 1 = (2x83) w/black missle cover + middle sect separator
(@0105) - top layer 2 = ((2x52) + 1) w/black separator, red trim, gold cockpit
(@0083) - top layer 3 = ((2x41) + 1) w/black separator, red trim, gold cockpit
(@0037) - top layer 4 = ((2x18) + 1) w/black separator trim
(@0010) - top layer 5 = (2x5) w/red/black
------
(@0891)
Leg section x2 (@0640 - 12 removed from bottom of @ leg for foot contact pt)
leg internal structure:
(@0384) - columns = 2 x (4x((2x12) + ((2x11) + 2))) top/bottom coupled bonds w/parallel bonds stacked x 4))
(@0096) - side reinforcements = 2x((2x11) + 2) coupled pair along outside edge centers)
(@0032) - ball reinforcements = 2x(2x4 balls are two balls added to 4 ball in 2, 4, 6, 8th positions) - (12 @ bottom)
leg arch structure (connected to one flat leg top face:
(@0128) - (4x4 parallel sqr) + (2x(6 + 2)) pointy rings) + (4x4 parallel sqr) + (2x(6 + 2)) pointy rings)
Place the two leg arch structures together to form the leg arch
-------
(@1519) = 1531-12
Leg side panels (@0384)
(@0344) - (2 each leg x (2x(2x43 each side))) w/black outside trim
Knees + Leg detail
(@0040) - (2x(2x(6 + 2) knee w/red sqr) + 2x(4 red sqr top of leg))
-------
(@1903)
Feet x2 (@0242)
(@0184) - (2x((2x7 + 2 1st mid layer) + (2x(2x10 + 1) 2nd mid layer) + ((2x(2x8 + 1) outside layer))
(@0034) - (2x(2x(2x3 + 1 top of toe 2 leg)) + (1 center rear foot 2 leg conn) + (2 x 1 outer rear foot sides 2 leg
conn))
(@0024) - (2x(2x6 rings rear foot heel))
-------
(@2145)
X-Beam waist platform - (@0233 - 19) this part is placed across the center perpendicular to the x-beam leg arch
(@0214) - (2x(2x(18 + 17 + 6 + 3)) + (2x(7 + 2)) + ((8 + 1 front side) + (2x9 rear side)) + ((2 x 3 red front center) +
(2 x 2 red front sides) + (2 red rear)) - (19 removed under rear panel side to fold)
Arm Guns (2 pair per arm w/red + black accents)
(@0380) - (4x((4x9 center core) + (3x((2x7) + 1)) top/sides) + (2x7) middle join))
Shoulder to elbow core w/o reinforcements ((@0174)per arm)
(@0348) - (2 x (top((2x5)+2) + (4x8+2 parallel) + ((2x5)+2) + (2x5) + (2x(2x5)+1) + (2x(2x6)+1) + ((4x7)+2 parallel
mount2gun) + (1 ball center to bridge below 2 ball center to 1 ball) + ((2x6)+1) + ((2x4)+2)bottom)
Shoulder to elbow (per arm, per side)
(@0248) - (2 x (2 x (top 3 + 5 + 5 + 5 + 4 + 5 + 4 + 4 + 5 + (2x7arm2shoulder bridge) + (5 + 3 bottom))
Elbow to gun support (per arm, per side) (@0140 - 18 for outside facing side revamp)
(@0122) - (2 x (2 x (((2x9)+1) + (2x8)) -
Revamp outside facing sides for Z bracket (remove 2x(4 top/4 bottom/2 middle/move center ball down, add 1 ball)
Revamp 2 rear centerballs with red
(@028) - add red design outside facing shoulder 2 elbow
------
(@3485)
Rear Guns x2
Large cannon (@0112 each)
(@0224) - 2 x ((2x(2x15) + (4x(5+2)) + (4x(6 ring)))
Smaller cannon (@0092 each)
(@0184) - 2 x ((2x(2x13) + (4x(4+2)) + (4x(4 ring)))
Gun bridges (@0010 each)
(@0020) - (2 x (4 ring + 6 ring across two cannons)
Gun mounts x2
(@0104) - (2 x ((top (2x4+2) + (2x5+2) parallel to existing + (2x4+2) + (2x5 parallel) + (2x4+2) bottom)
Gun panel x 2 (@0102 each)
(@0204) - (2 x (2x(11 + 10 + 9 + 8 + 7 + 6))
-------
Revamp base
(@4221) subtotal b4 assembly
Assembly mods
-------------
Moved the (@0040) - Central rear Barrel = (4x8 ring w2 red rings) + (2x4 sqr end) below the rear of the body between
the leg mount and cockpit body. Actually used the barrel as a mount point for the rear guns.
Modded Cockpit Body bottom section (mount point):
(@0020) = (2 x (7 + 6 + 5)) = Changed = (@0028) - Central bottom layer 3 = (2x14) rectangle to covert parallel
rectangle to hex parallel center, coupled sides
-------
(@4213) = (@4221 - 8)
Moved central bottom layer x-beam
(@0018) = (2x09 ring) = Changed = (@0020) - Sides bottom layer 4 = shifted it down one row, removed 1 ball on end to form point and pinched outside end fit in center of 6 ball side.
(@4211) = (@4213 - 2)
Removed gold 10 ball ring mount
Changed = (@0010) = Central bottom layer 4 = (10 ring) leg waist w/gold
-------
(@4201) = (@4213 - 10)
Modded Rear Guns
(@0100) = Changed = Rear Gun mounts x2 - removed +2 from top/bottom mount point (2x4+2)=>(2x4)
(@4197) = (@4201-4)
Added extra mount point support bwtween rear gun mounts and rear cockpit body
(@4205) = (@4201+8)
Grand Total! = (@4205)
I love Tornadoes. I always have. I always will.
I feel about them the way that lots of people twenty years older than me feel about Phantoms.
They're fabulous, and they're still in service not because they were too expensive to replace or because of some policy decision, but because it's taken forty years to find something better than them - and not everybody agrees about that!
The RAF brands itself as Agile, Adaptable and Capable. They could have written that as an advertising slogan for the Tornado.
This shot is from the role demo that was demonstrated particularly effectively today.
As the helicopter matured, the US Marine Corps issued a requirement in 1951 for a helicopter capable of carrying an entire platoon of infantry. This was a tall order: the helicopters in common use at the time carried less than ten passengers. Sikorsky won the contract with its S-60 design, which was designated HR2S-1 in USMC service. After the HR2S-1 entered service in 1956, the US Army evaluated and bought it as the CH-37 Mojave.
Though the Mojave was capable of carrying a full platoon, Sikorsky anticipated that it would be used for cargo purposes as well. With this in mind, the two engines--a first for Sikorsky--were moved into pods outboard of the fuselage, leaving the interior open for cargo that could be loaded through the clamshell doors in the nose. The US Navy modified two as experimental airborne early warning helicopters, but were not put into production due to its slow speed.
Though the Mojave was a sound design. they were obsolete almost as soon as they entered service: it used piston engines for powerplant. Turboshaft-equipped helicopters were far more fuel efficient and lighter; as a result, turboshaft UH-1 Iroquois and CH-47 Chinooks could carry almost as much as the CH-37 at half the cost. The Mojave did enjoy a small resurgence in the twilight of its career, when several were deployed to Vietnam as heavy lift helicopters, but even these were quickly replaced by the turboshaft-powered Sikorsky CH-54 Tarhe/Skycrane. Of 154 CH-34s produced, six remain in museums.
I was surprised to see this Mojave, 58-10999, parked behind the Evergreen Aviation Museum in an out-of-the-way spot, with little advertisement. Not unusually, information on this CH-37A is sparse: it served with the 19th Aviation Company in South Korea for awhile after 1959, then disappears from the public record before it served with the Alabama National Guard from 1970 to 1979, when it was retired. It was sent to MASDC and then to a scrapyard, where 58-10999 remained until 2000, when the Evergreen Air and Space Museum acquired it. It would take over a decade to get 58-10999 back together, but it was placed on display in 2011.
Though hideous, the Mojave is a unique helicopter, and well worth the effort to get a picture--though it was so huge I couldn't get the whole thing in the shot.
The English Electric Lightning is a British fighter aircraft that served as an interceptor during the 1960s, the 1970s and into the late 1980s. It was capable of a top speed of above Mach 2. The Lightning was designed, developed, and manufactured by English Electric.
The specification for the aircraft followed the cancellation of the Air Ministry's 1942 specification E.24/43 supersonic research aircraft which had resulted in the Miles M.52 programme. Teddy Petter, formerly chief designer at Westland Aircraft, who had been taken on by English Electric in 1944 to head an office to develop aircraft rather than just make other manufacturers' designs, was a keen early proponent of Britain's need to develop a supersonic fighter aircraft. In 1947, Petter approached the Ministry of Supply (MoS) with his proposal, and in response Specification ER.103 was issued for a single research aircraft, which was to be capable of flight at Mach 1.5 (1,593 km/h; 990 mph) and 50,000 ft (15,000 m).
Petter initiated a design proposal with Frederick Page leading the design and Ray Creasey responsible for the aerodynamics. By July 1948 their proposal incorporated the stacked engine configuration and a high-mounted tailplane. As it was designed for Mach 1.5, the wing leading edge was swept back 40° to keep it clear of the Mach cone. This proposal was submitted in November 1948 and in January 1949 the project was designated P.1 by English Electric. On 29 March 1949 the MoS granted approval to start the detailed design, develop wind tunnel models and build a full-size mockup.
The design that had developed during 1948 evolved further during 1949 to further improve performance, taking many design cues from the CAC CA-23. To achieve Mach 2 the wing sweep was increased to 60° with the ailerons moved to the wingtips. In late 1949, low-speed wind tunnel tests showed that a vortex was generated by the wing which caused a large downwash on the tailplane; this issue was solved by lowering the tail below the wing. Following the resignation of Petter from English Electric, Page took over as design team leader for the P.1 and the running of EE design office. In 1949, the Ministry of Supply had issued Specification F23/49, which expanded upon the scope of ER103 to include fighter-level manoeuvring. On 1 April 1950, English Electric received a contract for two flying airframes, as well as one static airframe, designated P.1.
The Royal Aircraft Establishment disagreed with Petter's choice of sweep angle (60 degrees) and tailplane position (low) considering it to be dangerous. To assess the effects of wing sweep and tailplane position on the stability and control of Petter's design Short Brothers were issued a contract by the Ministry of Supply to produce the Short SB.5 in mid-1950. This was a low-speed research aircraft that could test sweep angles from 50 to 69 degrees and high or low tailplane positions. Testing with the wings and tail set to the P.1 configuration started in January 1954 and confirmed this combination as the correct one.
From 1953 onward, the first three prototype aircraft were hand-built at Samlesbury Aerodrome, where all Lightnings were built. These aircraft were given the aircraft serials WG760, WG763, and WG765 (the structural test airframe). The prototypes were powered by un-reheated Armstrong Siddeley Sapphire turbojets, as the selected Rolls-Royce Avon engines had fallen behind schedule due to their own development problems. Since there was no space in the fuselage for fuel the thin wings were the fuel tanks and since they also provided space for the stowed main undercarriage the fuel capacity was relatively small, giving the prototypes an extremely limited endurance, and the narrow tyres housed in the thin wings rapidly wore out if there was any crosswind component during take-off or landing. Outwardly, the prototypes looked very much like the production series, but they were distinguished by the rounded-triangular air intake with no centre-body at the nose, short fin, and lack of operational equipment.
On 9 June 1952, it was decided that there would be a second phase of prototypes built to develop the aircraft toward achieving Mach 2.0 (2,450 km/h; 1,522 mph); these were designated P.1B while the initial three prototypes were retroactively reclassified as P.1A. P.1B was a significant improvement on P.1A. While it was similar in aerodynamics, structure and control systems, it incorporated extensive alterations to the forward fuselage, reheated Rolls-Royce Avon R24R engines, a conical centre body inlet cone, variable nozzle reheat and provision for weapons systems integrated with the ADC and AI.23 radar. Three P.1B prototypes were built, assigned serials XA847, XA853 and XA856.
In May 1954, WG760 and its support equipment were moved to RAF Boscombe Down for pre-flight ground taxi trials; on the morning of 4 August 1954, WG760, piloted by Roland Beamont, flew for the first time from Boscombe Down. One week later, WG760 officially achieved supersonic flight for the first time, having exceeded the speed of sound during its third flight. During its first flight, WG760 had unknowingly exceeded Mach 1 (1,225 km/h; 761 mph), but due to position error the Mach meter only showed a maximum of Mach 0.95 (1,164 km/h; 723 mph). The occurrence was noticed during flight data analysis a few days later. While WG760 had proven the P.1 design to be viable, it was limited to Mach 1.51 (1,850 km/h; 1,149 mph) due to directional stability limits. In May 1956, the P.1 received the "Lightning" name, which was said to have been partially selected to reflect the aircraft's supersonic capabilities.
The Theresian Military Academy was under Maria Theresa on 14 December 1751 with the mission "Make he me thereof capable officers and righteous men" to the first commander Field Marshal Leopold Joseph of Daun founded and is, thus, the oldest active uninterruptedly the officer training dedicated Military Academy of the World. Memorable is that the building since 1752 - except for the years of occupation, war and destruction due to the Third Reich - uninterruptedly hosted the Military Academy, while the Royal Military Academy Woolwich, founded in 1741, was closed in 1939. The Royal Military Academy Sandhurst, founded in 1947, only from a sentimental point of view continues the tradition of its predecessor academy. In Wiener Neustadt, in contrast, were admitted since 1752 almost without interruption per year 100 nobles and 100 commoners. The officers of the Austria-Hungarian army as well were to 1918 formed here.
The term military academy it wears since the unification with the nursery of Cadets in 1769. Already in 1771 appeared a by local director lieutenant field marshal Johann Georg Carl Freiherr von Hannig elaborated regulated curriculum and 1775 the by Maria Theresa sanctioned Academy Regulations. The training period at that time was eleven years and was gradually reduced to three years.
The famous Styrian Archduke Johann of Austria was 44 years (1805-1849) Chief Executive Officer of Theresian Military Academy.
In the First Republic, the training was to 1934 performed in Enns (Upper Austria) and then again in Wiener Neustadt. A special feature in the time between the Austrofascism and the Annexation is the refusal of Major General Rudolf Towarek (1933-1938 Commander of the Military Academy), to hand over the castle to German Wehrmacht which had just invated Austria. He had the guard paraded with fixed bayonet and so refused the Wehrmacht several days admission to the castle. This act had until his retirement no negative impacts on Major General Towarek, he even obtained permission to continue to wear the Austrian uniform after his retirement.
By Colonel Erwin Rommel, later Field Marshal, immediately after the Annexation a training school for officer training was set up which he at the beginning also directed himself. To the school the Daun barracks was added.
Towards the end of World War II, the castle was almost completely destroyed by bombs, fires and looting. It burned in April and May 1945 within almost 14 days completely down. The remaining ruins were in the reconstruction in the years 1946 to 1959 restored to its historical form, the interior, however, adapted to current requirements. So the military academy was able to resume operations in the year 1958.
Main portal of the Theresian Military Academy
After the founding of the Armed Forces in 1955, the Military Academy was housed again until 1958 in Enns, from where it subsequently moved back to the castle of Wiener Neustadt, that after the damages caused by the Second World War had been repaired.
In Vienna Museum of Military History, the campaign streamer of the first flag of the military academy is set up. It was donated by Maria Theresia just before her death in 1780 for the first flag, supposedly she should have embroidered it personally. Under the banner ribbon there are two paintings (gouaches) of Bernhard Albrecht (1758-1822). Albrecht was an art teacher at the Military Academy and he also depicted the pupils in their military and athletic exercises. So show the images scenes as "target practice with mortars" and "balancing exercises of cadets at the high balance beam". The sheets have emerged 1785-1793.
The current commander is Brigadier Karl Pronhagl.
Die Theresianische Militärakademie wurde unter Maria Theresia am 14. Dezember 1751 mit dem Auftrag „Mach’ er mir tüchtige Offiziere und rechtschaffene Männer darauß“ an den ersten Kommandanten Feldmarschall Leopold Joseph von Daun gegründet und ist somit die älteste aktive, durchgängig der Offiziersausbildung gewidmete Militärakademie der Welt. Denkwürdig ist, dass das Gebäude seit 1752 – mit Ausnahme der Okkupations- Kriegs- und Zerstörungsjahre in Folge des Dritten Reiches durchgängig die Militärakademie beherbergte, wogegen die 1741 gegründete Royal Military Academy Woolwich 1939 geschlossen wurde. Die Royal Military Academy Sandhurst, gegründet 1947, setzt nur in ideeller Hinsicht die Tradition ihrer Vorgängerakademie fort. In Wiener Neustadt wurden dagegen seit 1752 fast durchgängig pro Jahr je 100 Adelige und 100 Bürgerliche aufgenommen. Auch die Offiziere der Österreich-Ungarischen Armee wurden bis 1918 hier ausgebildet.
Die Bezeichnung Militärakademie trägt sie seit der Vereinigung mit der Pflanzschule für Kadetten im Jahr 1769. Bereits 1771 erschien ein vom Lokaldirektor Feldmarschalleutnant Johann Georg Carl Freiherr von Hannig ausgearbeiteter geregelter Studienplan und 1775 das von Maria Theresia sanktionierte Akademie-Reglement. Die Ausbildungszeit betrug damals elf Jahre und wurde schrittweise auf drei Jahre verkürzt.
Der berühmte steirische Erzherzog Johann von Österreich war 44 Jahre (von 1805 bis 1849) Oberdirektor der Theresianischen Militär-Akademie.
In der ersten Republik wurde die Ausbildung bis 1934 in Enns durchgeführt und anschließend wieder in Wiener Neustadt. Eine Besonderheit in der Zeit zwischen dem Austrofaschismus und dem Anschluss ist die Weigerung des Generalmajors Rudolf Towarek (1933–1938 Kommandant der Militärakademie), die Burg der in Österreich einmarschierten deutschen Wehrmacht zu übergeben. Er ließ die Wache mit aufgepflanzten Bajonett aufmarschieren und verweigerte so der Wehrmacht mehrere Tage den Zutritt zur Burg. Diese Tat hatte bis auf seine Pensionierung keine negativen Auswirkungen auf Generalmajor Towarek, er erhielt sogar die Erlaubnis, nach seiner Pensionierung weiterhin die österreichische Uniform zu tragen.
Von Oberst Erwin Rommel, dem späteren Generalfeldmarschall, wurde unmittelbar nach dem Anschluss eine Kriegsschule für die Offiziersausbildung eingerichtet, die er anfangs auch selbst leitete. Zu der Schule kam auch die Daun-Kaserne dazu.
Gegen Ende des Zweiten Weltkriegs wurde die Burg durch Fliegerbomben, Brände und Plünderungen fast vollkommen zerstört. Sie brannte im April und Mai 1945 innerhalb von fast 14 Tagen restlos aus. Die übrig gebliebene Ruine wurde beim Wiederaufbau in den Jahren 1946 bis 1959 in ihrer historischen Form wiederhergestellt, das Innere jedoch den zeitlichen Erfordernissen angepasst. So konnte die Militärakademie im Jahr 1958 ihren Betrieb wieder aufnehmen.
Hauptportal der Theresianischen Militärakademie
Nach der Gründung des Bundesheeres im Jahr 1955 war die Militärakademie nochmals bis 1958 in Enns untergebracht, von wo sie anschließend wieder in die Burg von Wiener Neustadt übersiedelte, nachdem die Beschädigungen durch den Zweiten Weltkrieg behoben worden waren.
Im Wiener Heeresgeschichtlichen Museum ist das Fahnenband der ersten Fahne der Militärakademie ausgestellt. Es wurde von Maria Theresia knapp vor ihrem Tod 1780 für die erste Fahne gestiftet, angeblich soll sie es persönlich bestickt haben. Unter dem Fahnenband befinden sich zwei Bilder (Gouachen) von Bernhard Albrecht (1758–1822). Albrecht war Zeichenlehrer der Militärakademie und schilderte auch die Zöglinge bei ihren militärischen und sportlichen Übungen. So zeigen die Bilder Szenen wie „Übungsschießen mit Mörsern“ und „Balancierübungen der Kadetten auf dem hohen Balkensteg“. Die Blätter sind zwischen 1785 und 1793 entstanden.
Der aktuelle Kommandant ist Brigadier Karl Pronhagl.
UNDISCLOSED LOCATION: Aug11 - Pakistan's nuclear-capable cruise missile Babur takes off during a test flight from an undisclosed location. APP photo by jahangir khan
THE ITALY'S POLICE FORCE IN ROME, Chief of Police Alessandro Pansa: "We are too stupid to stop the everyday criminals in Rome, but, we are more then capable and have no problem with beating up on poor defenseless Italian woman," April 2014 | July 2013.
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-- Martin G. Conde (14 April 2014) "I think in February 1999, when I started my research on the Imperial Fora of Rome, I wish someone would have forewarned me just how very politically corrupt the civic administration of the City of Rome is, and academically incompetent is the City of Rome's Department of Cultural Heritage (i.e. Office of the Imperial Fora) was and still is, because I would have never began my work had I known in advance. I get really tried of writting about and wasting my time on all the stupid shit I see going on in Rome on a daily basis now for the past 15 years. I don't know how the Romans put up with it...!?!?!? I know the Italian and the Romans are not perfect, but, I mean this is just plain fucking ridiculous, by any standards."
-- Martin G. Conde (14|04|2014) "Penso che nel febbraio del 1999, quando ho iniziato la mia ricerca sul Fori Imperiali di Roma, vorrei che qualcuno mi avrebbe avvisato di quanto politicamente corrotto l'amministrazione civica del Comune di Roma è, e accademicamente incompetente è la città del Dipartimento di Roma Beni Culturali (cioè Ufficio dei Fori Imperiali) è stato ed è tuttora, perché non avrei mai cominciato il mio lavoro era avessi saputo in anticipo. Mi sento davvero provato di scrittura circa e sprecare il mio tempo su tutta la stupida merda che vedo in corso a Roma su una base quotidiana ora per gli ultimi 15 anni. Non so come i romani messo su con esso ...!?!?!? So che l'italiani ei romani non sono perfetti, ma, voglio dire, questo è semplicemente ridicolo cazzo, da qualsiasi standard."
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Foto | source:
-- Roma, I due manifestanti sono abbracciati a terra, lui protegge lei durante gli scontri e le cariche tra piazza Barberini e via del Tritone.La Repubblica (13|04|2014).
roma.repubblica.it/cronaca/2014/04/13/foto/corteo_dei_mov...
--Roma, corteo per il diritto alla casa: ferita una ragazza, Corriere Della Sera (01|07|2013).
video.corriere.it/corteo-il-diritto-casa-ferita-ragazza/5...
By the time of American involvement in Southeast Asia, the USAF had gone to an almost all-nuclear capable force. None of the aircraft in first-line units were capable of counterinsurgency (COIN) roles; pilots and crews were not trained for it either. As a result, the USAF had to fall back on World War II-era aircraft taken out of storage and reconditioned for a war the country had never meant to fight.
By Vietnam, the Douglas A-26 Invader had been redesignated B-26 (this had happened during the Korean War, but it was generally referred to by its former designation). RB-26Cs were among the first USAF aircraft deployed to the area, in 1960, first seeing service under Operation Farm Gate, supporting Royal Laotian Army forces against Pathet Lao guerillas. Later, Farm Gate was expanded to South Vietnam as well and B-26C bombers were deployed for service as well—despite their age, the Invaders were liked for their easy handling and long loiter times, both valuable and necessary in counterinsurgency warfare. (The USAF was not the first nation to use Invaders in Vietnam—the French had used them during the siege of Dien Bien Phu in 1954.)
Age caught up to the force by 1965, and after a number of fatal crashes caused by metal fatigue, the B-26 force was grounded. They were then modified to A-26K Counter-Invaders, with new engines, reinforced structure, and wingtip fuel tanks (and further confusing the matter by readopting the attack designation). Returning to Vietnam in 1966, A-26Ks would remain in service until 1970, gradually replaced by gunship AC-130s, and turned in an excellent performance in the counterinsurgency role. The last A-26 did not leave USAF service until 1972.
A good number of A-26s were sold as surplus after the Vietnam War and were subsequently converted to firefighting aircraft. Though most of these have been retired in recent years, it ensured that there would be significant numbers of flyable Invaders left. Today, 96 aircraft remain in museums and in private collections.
Built as 41-39596, one of the first A-26Bs to be delivered, this aircraft was in storage in Arizona when it was returned to service as an A-26K and renumbered 64-17676. It served during the Vietnam War with the 1st Special Operations Wing, based out of Nakhon Phanom, Thailand. After the war, it was retired once more, but this time was bought by the state of Georgia and converted to a firefighting aircraft. It would then go through several owners, mostly Canadian, as a firebomber until 1978, when it was bought by a collector, restored to its A-26K appearance, and flown in airshows. In 1981, it was donated to the National Museum of the USAF, where it remains today.
64-17676 wears standard USAF Southeast Asia camouflage, with black undersides for night operations. This view shows the A-26K's impressive "business end" of eight .50 caliber machine guns; in addition to the guns, it carries two 20mm gunpods, two Mk 82 bombs with "Daisy Cutter" fuse extenders, and two rocket pods.
NEOBALLS / ZEN MAGNETS - Neodymium Magnetic Balls (@4205) - Starcraft II's Massive Thor
This is my most complex and largest build to date.
It was designed in parts: Cockpit body, then legs, then arms, then rear guns. Then I had to redesign parts when it came time to assemble it together because of incorrect bonding assumptions and misalignment of magnet fields.
Experimented with x-beam coupled bonds to get the maximum lateral strength with reinforcements on the sides. This proved to be very string. Created a X-Beam using similar methods producing a very strong leg structure. It was capable of support the entire weight of the cockpit body w/o a problem. Had to redesign the leg to cockpit body mount point from the earlier concept because the bond was not completely coupled.
Next up were the arm/guns ... the weight was too much for the cockpit body to support so I fashioned a pair of lego-platforms for them to rest on and take the weight off of the central body.
Finally ... the rear guns ... these were a challenge in that their original mount point design had to be reworked also to make them fit correctly into the rear of the cockpit body. I changed the mount points on the guns to fit the space on both sides and added a few support balls to improve the mount point bonds. I was very surprised how they were balanced and supported only by two point sections to the body. The guns stayed in place for a small series of photos.
The design flaw was in the side bonds of the beam to the legs. The coupled field held nicely for a short amount of time and would have held if it didn't have the weight of the rear guns to support. When they were standing upright and straight, all was good. As soon as I attempted to move the platform forward (to take a video), the rear guns tilted slightly backwards and and that was the end of the leg to body support bonds ... and created the dreaded implosion.
The rear gun weight caused the entire central body section to rotate backwards and fall back on the rear guns ... taking the arms in the process. Perhaps I should have created a Lego-support structure for the rear guns to remove the pendulum force backwards ... but that would have created another view blocker like the side Lego-platforms obstructed the view of the legs and feet. Not sure if I can recreate it for a rotational video ... this took over a week (on/off to design and assemble).
Overall ... I was very happy with the result ... hope I captured enough detail to warrant some visual recognition as a Starcraft II Thor reproduction/interpretation.
This was design and built for the Zen Magnets Contest 26: The Massive Thor
www.zenmagnets.com/blog/26-the-massive-thor/
I tried to document the info for this super complex build (below) accompanied by associated pics in this set
www.flickr.com/photos/tend2it/sets/72157632920071597/
Starcraft II Thor Magnet Count and Detail Talley
======+================
Cockpit Body bottom section: (@0520)
(@0217) - Main shape middle core = (2x108) + 1
(@0095) - central bottom layer 1 = (47x2) + 1 w/black parameter
(@0078) - Sides Bottom layer 2 = (2x(22 parallel pair frnt2bck support + 3 red + 4 gold + 10 ring outside black))
(@0028) - Central bottom layer 3 = (2x14) rectangle
(@0032) - Sides bottom layer 3 = (2x((2x5 parallel bridge rectangle to ring) + (6 ring outside))
(@0010) - Central bottom layer 4 = (10 ring) leg waist w/gold
(@0020) - Sides bottom layer 4 = (2x10 ring) coupled over parallel bridge for perpendicular underside support
(@0040) - Central rear Barrel = (4x8 ring w2 red rings) + (2x4 sqr end)
------
Cockpit Body top section (from center out): (@0371)
(@0166) - top layer 1 = (2x83) w/black missle cover + middle sect separator
(@0105) - top layer 2 = ((2x52) + 1) w/black separator, red trim, gold cockpit
(@0083) - top layer 3 = ((2x41) + 1) w/black separator, red trim, gold cockpit
(@0037) - top layer 4 = ((2x18) + 1) w/black separator trim
(@0010) - top layer 5 = (2x5) w/red/black
------
(@0891)
Leg section x2 (@0640 - 12 removed from bottom of @ leg for foot contact pt)
leg internal structure:
(@0384) - columns = 2 x (4x((2x12) + ((2x11) + 2))) top/bottom coupled bonds w/parallel bonds stacked x 4))
(@0096) - side reinforcements = 2x((2x11) + 2) coupled pair along outside edge centers)
(@0032) - ball reinforcements = 2x(2x4 balls are two balls added to 4 ball in 2, 4, 6, 8th positions) - (12 @ bottom)
leg arch structure (connected to one flat leg top face:
(@0128) - (4x4 parallel sqr) + (2x(6 + 2)) pointy rings) + (4x4 parallel sqr) + (2x(6 + 2)) pointy rings)
Place the two leg arch structures together to form the leg arch
-------
(@1519) = 1531-12
Leg side panels (@0384)
(@0344) - (2 each leg x (2x(2x43 each side))) w/black outside trim
Knees + Leg detail
(@0040) - (2x(2x(6 + 2) knee w/red sqr) + 2x(4 red sqr top of leg))
-------
(@1903)
Feet x2 (@0242)
(@0184) - (2x((2x7 + 2 1st mid layer) + (2x(2x10 + 1) 2nd mid layer) + ((2x(2x8 + 1) outside layer))
(@0034) - (2x(2x(2x3 + 1 top of toe 2 leg)) + (1 center rear foot 2 leg conn) + (2 x 1 outer rear foot sides 2 leg
conn))
(@0024) - (2x(2x6 rings rear foot heel))
-------
(@2145)
X-Beam waist platform - (@0233 - 19) this part is placed across the center perpendicular to the x-beam leg arch
(@0214) - (2x(2x(18 + 17 + 6 + 3)) + (2x(7 + 2)) + ((8 + 1 front side) + (2x9 rear side)) + ((2 x 3 red front center) +
(2 x 2 red front sides) + (2 red rear)) - (19 removed under rear panel side to fold)
Arm Guns (2 pair per arm w/red + black accents)
(@0380) - (4x((4x9 center core) + (3x((2x7) + 1)) top/sides) + (2x7) middle join))
Shoulder to elbow core w/o reinforcements ((@0174)per arm)
(@0348) - (2 x (top((2x5)+2) + (4x8+2 parallel) + ((2x5)+2) + (2x5) + (2x(2x5)+1) + (2x(2x6)+1) + ((4x7)+2 parallel
mount2gun) + (1 ball center to bridge below 2 ball center to 1 ball) + ((2x6)+1) + ((2x4)+2)bottom)
Shoulder to elbow (per arm, per side)
(@0248) - (2 x (2 x (top 3 + 5 + 5 + 5 + 4 + 5 + 4 + 4 + 5 + (2x7arm2shoulder bridge) + (5 + 3 bottom))
Elbow to gun support (per arm, per side) (@0140 - 18 for outside facing side revamp)
(@0122) - (2 x (2 x (((2x9)+1) + (2x8)) -
Revamp outside facing sides for Z bracket (remove 2x(4 top/4 bottom/2 middle/move center ball down, add 1 ball)
Revamp 2 rear centerballs with red
(@028) - add red design outside facing shoulder 2 elbow
------
(@3485)
Rear Guns x2
Large cannon (@0112 each)
(@0224) - 2 x ((2x(2x15) + (4x(5+2)) + (4x(6 ring)))
Smaller cannon (@0092 each)
(@0184) - 2 x ((2x(2x13) + (4x(4+2)) + (4x(4 ring)))
Gun bridges (@0010 each)
(@0020) - (2 x (4 ring + 6 ring across two cannons)
Gun mounts x2
(@0104) - (2 x ((top (2x4+2) + (2x5+2) parallel to existing + (2x4+2) + (2x5 parallel) + (2x4+2) bottom)
Gun panel x 2 (@0102 each)
(@0204) - (2 x (2x(11 + 10 + 9 + 8 + 7 + 6))
-------
Revamp base
(@4221) subtotal b4 assembly
Assembly mods
-------------
Moved the (@0040) - Central rear Barrel = (4x8 ring w2 red rings) + (2x4 sqr end) below the rear of the body between
the leg mount and cockpit body. Actually used the barrel as a mount point for the rear guns.
Modded Cockpit Body bottom section (mount point):
(@0020) = (2 x (7 + 6 + 5)) = Changed = (@0028) - Central bottom layer 3 = (2x14) rectangle to covert parallel
rectangle to hex parallel center, coupled sides
-------
(@4213) = (@4221 - 8)
Moved central bottom layer x-beam
(@0018) = (2x09 ring) = Changed = (@0020) - Sides bottom layer 4 = shifted it down one row, removed 1 ball on end to form point and pinched outside end fit in center of 6 ball side.
(@4211) = (@4213 - 2)
Removed gold 10 ball ring mount
Changed = (@0010) = Central bottom layer 4 = (10 ring) leg waist w/gold
-------
(@4201) = (@4213 - 10)
Modded Rear Guns
(@0100) = Changed = Rear Gun mounts x2 - removed +2 from top/bottom mount point (2x4+2)=>(2x4)
(@4197) = (@4201-4)
Added extra mount point support bwtween rear gun mounts and rear cockpit body
(@4205) = (@4201+8)
Grand Total! = (@4205)
180701-M-ZO893-1112 MARINE CORPS BASE HAWAII (July 1, 2018) A Philippine Marine simulates security during a beach insertion rehearsal as part of Rim of the Pacific (RIMPAC) exercise on Pyramid Rock at Marine Corps Base Hawaii July 1, 2018. RIMPAC provides high-value training for task-organized, highly-capable Marine Air-Ground Task Force and enhances the critical crisis response capability of U.S. Marines in the Pacific. Twenty-five nations, 46 ships, five submarines, about 200 aircraft and 25,000 personnel are participating in RIMPAC from June 27 to Aug. 2 in and around the Hawaiian Islands and Southern California. (U.S. Marine Corps photo by Sgt. Zachary Orr)
VISTA is a highly capable research and development tool for airborne
systems integration, flight control systems, and cockpit displays.
Evaluating a design on VISTA is equivalent to flying the prototype,
but at a fraction of the cost and with an added margin of safety.
VISTA has played an integral part in the development of many
leading-edge designs. Most recently,VISTA simulated the JSF,
India’s LCA and NASA’s X-38.
Since it is a first-line fighter aircraft,VISTA can integrate the weapon
systems and tactical display concepts into the simulation.Wing hardpoints,
the APG-68 targeting radar and rapid maneuver capability
allow VISTA to act as a full-mission surrogate to the actual test
vehicle.
The pilot flying the simulation from the front cockpit need not be
qualified in the airplane. All controls and displays for the pilot-incommand
function have been relocated to the aft cockpit.
Atmospheric-capable Forge fighter enhanced with salvaged Komplex tech for superior speed and maneuverability.
The Peacekeeper is often deployed as a first response interceptor on distant human-colonized worlds.
Io Aircraft - www.ioaircraft.com
Drew Blair
www.linkedin.com/in/drew-b-25485312/
io aircraft, phantom express, phantom works, boeing phantom works, lockheed skunk works, hypersonic weapon, hypersonic missile, scramjet missile, scramjet engineering, scramjet physics, boost glide, tactical glide vehicle, Boeing XS-1, htv, Air-Launched Rapid Response Weapon, (ARRW), hypersonic tactical vehicle, hypersonic plane, hypersonic aircraft, space plane, scramjet, turbine based combined cycle, ramjet, dual mode ramjet, darpa, onr, navair, afrl, air force research lab, defense science, missile defense agency, aerospike,
Advanced Additive Manufacturing for Hypersonic Aircraft
Utilizing new methods of fabrication and construction, make it possible to use additive manufacturing, dramatically reducing the time and costs of producing hypersonic platforms from missiles, aircraft, and space capable craft. Instead of aircraft being produced in piece, then bolted together; small platforms can be produced as a single unit and large platforms can be produces in large section and mated without bolting. These techniques include using exotic materials and advanced assembly processes, with an end result of streamlining the production costs and time for hypersonic aircraft; reducing months of assembly to weeks. Overall, this process greatly reduced the cost for producing hypersonic platforms. Even to such an extent that a Hellfire missile costs apx $100,000 but by utilizing our technologies, replacing it with a Mach 8-10 hypersonic missile of our physics/engineering and that missile would cost roughly $75,000 each delivered.
Materials used for these manufacturing processes are not disclosed, but overall, provides a foundation for extremely high stresses and thermodynamics, ideal for hypersonic platforms. This specific methodology and materials applications is many decades ahead of all known programs. Even to the extend of normalized space flight and re-entry, without concern of thermodynamic failure.
*Note, most entities that are experimenting with additive manufacturing for hypersonic aircraft, this makes it mainstream and standardized processes, which also applies for mass production.
What would normally be measured in years and perhaps a decade to go from drawing board to test flights, is reduced to singular months and ready for production within a year maximum.
Unified Turbine Based Combined Cycle (U-TBCC)
To date, the closest that NASA and industry have achieved for turbine based aircraft to fly at hypersonic velocities is by mounting a turbine into an aircraft and sharing the inlet with a scramjet or rocket based motor. Reaction Engines Sabre is not able to achieve hypersonic velocities and can only transition into a non air breathing rocket for beyond Mach 4.5
However, utilizing Unified Turbine Based Combine Cycle also known as U-TBCC, the two separate platforms are able to share a common inlet and the dual mode ramjet/scramjet is contained within the engine itself, which allows for a much smaller airframe footprint, thus engingeers are able to then design much higher performance aerial platforms for hypersonic flight, including the ability for constructing true single stage to orbit aircraft by utilizing a modification/version that allows for transition to outside atmosphere propulsion without any other propulsion platforms within the aircraft. By transitioning and developing aircraft to use Unified Turbine Based Combined Cycle, this propulsion system opens up new options to replace that airframe deficit for increased fuel capacity and/or payload.
Enhanced Dynamic Cavitation
Dramatically Increasing the efficiency of fuel air mixture for combustion processes at hypersonic velocities within scramjet propulsion platforms. The aspects of these processes are non disclosable.
Dynamic Scramjet Ignition Processes
For optimal scramjet ignition, a process known as Self Start is sought after, but in many cases if the platform becomes out of attitude, the scramjet will ignite. We have already solved this problem which as a result, a scramjet propulsion system can ignite at lower velocities, high velocities, at optimal attitude or not optimal attitude. It doesn't matter, it will ignite anyways at the proper point for maximum thrust capabilities at hypersonic velocities.
Hydrogen vs Kerosene Fuel Sources
Kerosene is an easy fuel to work with, and most western nations developing scramjet platforms use Kerosene for that fact. However, while kerosene has better thermal properties then Hydrogen, Hydrogen is a far superior fuel source in scramjet propulsion flight, do it having a much higher efficiency capability. Because of this aspect, in conjunction with our developments, it allows for a MUCH increased fuel to air mixture, combustion, thrust; and ability for higher speeds; instead of very low hypersonic velocities in the Mach 5-6 range. Instead, Mach 8-10 range, while we have begun developing hypersonic capabilities to exceed 15 in atmosphere within less then 5 years.
Conforming High Pressure Tank Technology for CNG and H2.
As most know in hypersonics, Hydrogen is a superior fuel source, but due to the storage abilities, can only be stored in cylinders thus much less fuel supply. Not anymore, we developed conforming high pressure storage technology for use in aerospace, automotive sectors, maritime, etc; which means any overall shape required for 8,000+ PSI CNG or Hydrogen. For hypersonic platforms, this means the ability to store a much larger volume of hydrogen vs cylinders.
As an example, X-43 flown by Nasa which flew at Mach 9.97. The fuel source was Hydrogen, which is extremely more volatile and combustible then kerosene (JP-7), via a cylinder in the main body. If it had used our technology, that entire section of the airframe would had been an 8,000 PSI H2 tank, which would had yielded 5-6 times the capacity. While the X-43 flew 11 seconds under power at Mach 9.97, at 6 times the fuel capacity would had yielded apx 66 seconds of fuel under power at Mach 9.97. If it had flew slower, around Mach 6, same principles applied would had yielded apx 500 seconds of fuel supply under power (slower speeds required less energy to maintain).
Enhanced Fuel Mixture During Shock Train Interaction
Normally, fuel injection is conducted at the correct insertion point within the shock train for maximum burn/combustion. Our methodologies differ, since almost half the fuel injection is conducted PRE shock train within the isolator, so at the point of isolator injection the fuel enhances the combustion process, which then requires less fuel injection to reach the same level of thrust capabilities.
Improved Bow Shock Interaction
Smoother interaction at hypersonic velocities and mitigating heat/stresses for beyond Mach 6 thermodynamics, which extraordinarily improves Type 3, 4, and 5 shock interaction.
6,000+ Fahrenheit Thermal Resistance
To date, the maximum thermal resistance was tested at AFRL in the spring of 2018, which resulted in a 3,200F thermal resistance for a short duration. This technology, allows for normalized hypersonic thermal resistance of 3,000-3,500F sustained, and up to 6,500F resistance for short endurance, ie 90 seconds or less. 10-20 minute resistance estimate approximately 4,500F +/- 200F.
*** This technology advancement also applies to Aerospike rocket engines, in which it is common for Aerospike's to exceed 4,500-5,000F temperatures, which results in the melting of the reversed bell housing. That melting no longer ocurrs, providing for stable combustion to ocurr for the entire flight envelope
Scramjet Propulsion Side Wall Cooling
With old technologies, side wall cooling is required for hypersonic flight and scramjet propulsion systems, otherwise the isolator and combustion regions of a scramjet would melt, even using advanced ablatives and ceramics, due to their inability to cope with very high temperatures. Using technology we have developed for very high thermodynamics and high stresses, side wall cooling is no longer required, thus removing that variable from the design process and focusing on improved ignition processes and increasing net thrust values.
Lower Threshold for Hypersonic Ignition
Active and adaptive flight dynamics, resulting in the ability for scramjet ignition at a much lower velocity, ie within ramjet envelope, between Mach 2-4, and seamless transition from supersonic to hypersonic flight, ie supersonic ramjet (scramjet). This active and dynamic aspect, has a wide variety of parameters for many flight dynamics, velocities, and altitudes; which means platforms no longer need to be engineered for specific altitude ranges or preset velocities, but those parameters can then be selected during launch configuration and are able to adapt actively in flight.
Dramatically Improved Maneuvering Capabilities at Hypersonic Velocities
Hypersonic vehicles, like their less technologically advanced brethren, use large actuator and the developers hope those controls surfaces do not disintegrate in flight. In reality, it is like rolling the dice, they may or may not survive, hence another reason why the attempt to keep velocities to Mach 6 or below. We have shrunken down control actuators while almost doubling torque and response capabilities specifically for hypersonic dynamics and extreme stresses involved, which makes it possible for maximum input authority for Mach 10 and beyond.
Paradigm Shift in Control Surface Methodologies, Increasing Control Authority (Internal Mechanical Applications)
To date, most control surfaces for hypersonic missile platforms still use fins, similar to lower speed conventional missiles, and some using ducted fins. This is mostly due to lack of comprehension of hypersonic velocities in their own favor. Instead, the body itself incorporates those control surfaces, greatly enhancing the airframe strength, opening up more space for hardware and fuel capacity; while simultaneously enhancing the platforms maneuvering capabilities.
A scramjet missile can then fly like conventional missile platforms, and not straight and level at high altitudes, losing velocity on it's decent trajectory to target. Another added benefit to this aspect, is the ability to extend range greatly, so if anyone elses hypersonic missile platform were developed for 400 mile range, falling out of the sky due to lack of glide capabilities; our platforms can easily reach 600+ miles, with minimal glide deceleration.
The Martin B-10 was the fastest and most heavily armed bomber during its time. It had a gross weight of 14,731 pounds, a four-man crew, and was powered with two Wright 740 hp engines capable of a top speed of 212 mph. (Courtesy photo/amc.af.mil)
Air Force special operations forces used the Sikorsky MH-53M to covertly enter enemy territory. Capable of operating at day or night or in bad weather, these helicopters conducted long-range, low-level missions to insert, extract, and resupply special operations forces.
The MH-53 helicopters were originally HH-53 "Super Jolly Green Giants" used by the U.S. Air Force in the Southeast Asia War. Over the years, however, they received many upgrades and improvements. After the 1960s, they were completely re-skinned and had their engines and rotors replaced. Along with these improvements came a new designation, MH-53 ("M" for Multi-mission and "H" for helicopter).
The most significant enhancement to the Super Jollies was the Pave Low program, which modified them for operating at night or during bad weather. Equipped with forward-looking infrared (FLIR) sensors, inertial global positioning systems (GPS), Doppler radar navigation systems, and terrain-following and terrain-avoidance radar, the MH-53 could fly clandestine, low-level missions in any weather, day or night.
The MH-53M Pave Low IV has a system that greatly increased the aircraft's capabilities. This system gave the aircrew instant access to the total battlefield situation on a color, digital map screen that was compatible with night vision goggles. Using feeds from satellite links, the system displayed nearly real-time information about potential hazards along the flight route such as power lines or enemy electronic threats.
In 2008 the Air Force Special Operations Command (AFSOC) retired the MH-53 from active service.
LEKTRO's AP8850SDA is capable of towing a fully-loaded DC-9 and most other aircraft down to single-engine trainers. with the elimination of towbars, the LEKTRO AP8850SDA can maneuver in areas never thought of with conventional airplane tugs, indoors or outside. in many cases, LEKTROs overall length is less than the length of the towbar alone and can operate totally within the aircraft's airframe. the AP8850SDA's low profile design also allows for under fuselage and low-wing maneuvering. dual 36-volt standard commercially-available motive batteries permit extended operation and can easily be charged for 24-hour, non-stop use.
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Aeroscopia est un musée aéronautique français implanté à Blagnac (Haute-Garonne), près du site AéroConstellation, et accueille notamment deux exemplaires du Concorde, dont l'ouverture a eu lieu le 14 janvier 2015
Le tarmac Sud du musée n'est capable d'accueillir que trois gros appareils. L'installation des appareils fut définitivement terminée après que le premier prototype de l'A400M-180 y fut arrivé le 16 juillet 2015, en dépit de la possibilité de 360 000 euros de TVA.
Concorde, F-BVFC, MSN209 aux couleurs d'Air France
Caravelle 12, F-BTOE, MSN280 aux couleurs d'Air Inter, dernier exemplaire construit
A400M-180, F-WWMT, MSN001 stationné depuis le 16 juillet 2015
La réalisation en 2019 du nouveau tarmac au Nord du musée permet l'accueil d'appareils supplémentaires issus des entreprises locales Airbus et ATR. Le transfert des avions entre le site Airbus "Lagardère" et le musée a lieu sur une semaine, à raison d'un appareil par jour :
ATR 72-600, F-WWEY, MSN098 aux couleurs d'ATR, transféré sur site le 26 août 2019, premier exemplaire du 72 dans sa version 600
Airbus A340-600, F-WWCA, MSN360 aux couleurs d'Airbus, transféré sur site le 27 août 2019, premier exemplaire de l'A340 dans sa version 600
Airbus A320-111, F-WWAI, MSN001 aux anciennes couleurs d'Airbus, transféré sur site le 28 août 2019, premier exemplaire de l'A320 : inauguration le 14 février 1987 en présence de Lady Diana et du Prince Charles, premier vol le 22 février 1987
Airbus A380-800, F-WXXL, MSN002 aux couleurs d'Airbus, transféré sur site le 29 août 2019, second exemplaire de l'A380. Les deux ponts de cet appareil sont visitables, ainsi que le cockpit.
ATR 42-300, F-WEGC, MSN003 aux anciennes couleurs d'ATR, transféré sur site le 30 août 2019, troisième exemplaire du 42. Cet exemplaire est décoré aux couleurs du MSN001 et porte l'immatriculation F-WEGA
Concorde, F-WTSB, MSN201 (ANAE), il s'agit d'un appareil de présérie qui a servi entre autres à transporter plusieurs présidents de la République française.
Airbus A300B4-203, F-WUAB, MSN238 (Airbus Heritage), décoré aux couleurs du prototype, au lieu de MSN001 démantelé. L'intérieur est visitable. Dans la première section des vitrages transparents permettent de voir la structure et les systèmes de l'avion, tandis que dans les sections suivantes sont représentés des aménagements de première classe et VIP.
Super Guppy de l'association Ailes Anciennes Toulouse, l'appareil qui servait au transport des tronçons d'Airbus est exposé porte ouverte, et une passerelle permet l'accès à la soute où un film est projeté. L'ouverture n'a pas été une mince affaire, l'appareil n'ayant pas été ouvert pendant 15 ans. L'aide des anciens mécaniciens de l'avion a été primordiale pour permettre une ouverture en toute sécurité.
Corvette (Airbus)
Falcon 10 no 02, prototype ayant servi aux essais du turboréacteur Larzac (Ailes Anciennes Toulouse)
Fouga Magister (AAT)
Gazelle prototype (AAT)
Mirage III C (AAT)
Nord 1100 (AAT)
Lockheed F-104G (AAT)
MiG-15 (AAT)
MS.760 Paris (AAT)
Vought F-8E(FN) Crusader et son réacteur (AAT)
Alouette II Marine (AAT)
Cessna Skymaster (AAT)
Fairchild Metro, ancien avion de Météo-France (AAT)
HM-293, de Rodolphe Grunberg
Chagnes MicroStar, avion de construction amateur, version biréacteur de Rutan VariViggen (AAT)
Saab J35OE Draken (AAT)
Aeroscopia is a French aeronautical museum located in Blagnac (Haute-Garonne), near the AéroConstellation site, and notably hosts two copies of the Concorde, which opened on January 14, 2015
The south tarmac of the museum can only accommodate three large aircraft. The installation of the devices was definitively finished after the first prototype of the A400M-180 arrived there on July 16, 2015, despite the possibility of 360,000 euros in VAT.
Concorde, F-BVFC, MSN209 in Air France colors
Caravelle 12, F-BTOE, MSN280 in Air Inter colors, last model built
A400M-180, F-WWMT, MSN001 parked since July 16, 2015
The construction in 2019 of the new tarmac north of the museum will accommodate additional aircraft from local Airbus and ATR companies. The transfer of planes between the Airbus "Lagardère" site and the museum takes place over a week, at the rate of one aircraft per day:
ATR 72-600, F-WWEY, MSN098 in ATR colors, transferred to site on August 26, 2019, first copy of the 72 in its 600 version
Airbus A340-600, F-WWCA, MSN360 in Airbus colors, transferred to site on August 27, 2019, first copy of the A340 in its 600 version
Airbus A320-111, F-WWAI, MSN001 in the old Airbus colors, transferred to site on August 28, 2019, first copy of the A320: inauguration on February 14, 1987 in the presence of Lady Diana and Prince Charles, first flight on February 22, 1987
Airbus A380-800, F-WXXL, MSN002 in Airbus colors, transferred to site on August 29, 2019, second copy of the A380. The two decks of this aircraft can be visited, as well as the cockpit.
ATR 42-300, F-WEGC, MSN003 in the old ATR colors, transferred to the site on August 30, 2019, third specimen of the 42. This specimen is decorated in the colors of the MSN001 and bears the registration F-WEGA
Concorde, F-WTSB, MSN201 (ANAE), this is a pre-production aircraft which was used, among other things, to transport several presidents of the French Republic.
Airbus A300B4-203, F-WUAB, MSN238 (Airbus Heritage), decorated in the colors of the prototype, instead of dismantled MSN001. The interior can be visited. In the first section transparent glazing allows to see the structure and systems of the aircraft, while in the following sections are shown first class and VIP fittings.
Super Guppy from the Ailes Anciennes Toulouse association, the aircraft which was used to transport the Airbus sections is on display with the door open, and a gangway allows access to the hold where a film is shown. Opening was no small feat, as the device has not been opened for 15 years. The help of the former mechanics of the aircraft was essential to allow a safe opening.
Corvette (Airbus)
Falcon 10 no 02, prototype used for testing the Larzac turbojet engine (Ailes Anciennes Toulouse)
Fouga Magister (AAT)
Prototype Gazelle (AAT)
Mirage III C (AAT)
North 1100 (AAT)
Lockheed F-104G (AAT)
MiG-15 (AAT)
MS.760 Paris (AAT)
Vought F-8E (FN) Crusader and its engine (AAT)
Alouette II Marine (AAT)
Cessna Skymaster (AAT)
Fairchild Metro, former Météo-France (AAT) aircraft
HM-293, by Rodolphe Grunberg
Chagnes MicroStar, amateur-built aircraft, twin-jet version of Rutan VariViggen (AAT)
Saab J35OE Draken (AAT)
Aeroscopia est un musée aéronautique français implanté à Blagnac (Haute-Garonne), près du site AéroConstellation, et accueille notamment deux exemplaires du Concorde, dont l'ouverture a eu lieu le 14 janvier 2015
Le tarmac Sud du musée n'est capable d'accueillir que trois gros appareils. L'installation des appareils fut définitivement terminée après que le premier prototype de l'A400M-180 y fut arrivé le 16 juillet 2015, en dépit de la possibilité de 360 000 euros de TVA.
Concorde, F-BVFC, MSN209 aux couleurs d'Air France
Caravelle 12, F-BTOE, MSN280 aux couleurs d'Air Inter, dernier exemplaire construit
A400M-180, F-WWMT, MSN001 stationné depuis le 16 juillet 2015
La réalisation en 2019 du nouveau tarmac au Nord du musée permet l'accueil d'appareils supplémentaires issus des entreprises locales Airbus et ATR. Le transfert des avions entre le site Airbus "Lagardère" et le musée a lieu sur une semaine, à raison d'un appareil par jour :
ATR 72-600, F-WWEY, MSN098 aux couleurs d'ATR, transféré sur site le 26 août 2019, premier exemplaire du 72 dans sa version 600
Airbus A340-600, F-WWCA, MSN360 aux couleurs d'Airbus, transféré sur site le 27 août 2019, premier exemplaire de l'A340 dans sa version 600
Airbus A320-111, F-WWAI, MSN001 aux anciennes couleurs d'Airbus, transféré sur site le 28 août 2019, premier exemplaire de l'A320 : inauguration le 14 février 1987 en présence de Lady Diana et du Prince Charles, premier vol le 22 février 1987
Airbus A380-800, F-WXXL, MSN002 aux couleurs d'Airbus, transféré sur site le 29 août 2019, second exemplaire de l'A380. Les deux ponts de cet appareil sont visitables, ainsi que le cockpit.
ATR 42-300, F-WEGC, MSN003 aux anciennes couleurs d'ATR, transféré sur site le 30 août 2019, troisième exemplaire du 42. Cet exemplaire est décoré aux couleurs du MSN001 et porte l'immatriculation F-WEGA
Concorde, F-WTSB, MSN201 (ANAE), il s'agit d'un appareil de présérie qui a servi entre autres à transporter plusieurs présidents de la République française.
Airbus A300B4-203, F-WUAB, MSN238 (Airbus Heritage), décoré aux couleurs du prototype, au lieu de MSN001 démantelé. L'intérieur est visitable. Dans la première section des vitrages transparents permettent de voir la structure et les systèmes de l'avion, tandis que dans les sections suivantes sont représentés des aménagements de première classe et VIP.
Super Guppy de l'association Ailes Anciennes Toulouse, l'appareil qui servait au transport des tronçons d'Airbus est exposé porte ouverte, et une passerelle permet l'accès à la soute où un film est projeté. L'ouverture n'a pas été une mince affaire, l'appareil n'ayant pas été ouvert pendant 15 ans. L'aide des anciens mécaniciens de l'avion a été primordiale pour permettre une ouverture en toute sécurité.
Corvette (Airbus)
Falcon 10 no 02, prototype ayant servi aux essais du turboréacteur Larzac (Ailes Anciennes Toulouse)
Fouga Magister (AAT)
Gazelle prototype (AAT)
Mirage III C (AAT)
Nord 1100 (AAT)
Lockheed F-104G (AAT)
MiG-15 (AAT)
MS.760 Paris (AAT)
Vought F-8E(FN) Crusader et son réacteur (AAT)
Alouette II Marine (AAT)
Cessna Skymaster (AAT)
Fairchild Metro, ancien avion de Météo-France (AAT)
HM-293, de Rodolphe Grunberg
Chagnes MicroStar, avion de construction amateur, version biréacteur de Rutan VariViggen (AAT)
Saab J35OE Draken (AAT)
Aeroscopia is a French aeronautical museum located in Blagnac (Haute-Garonne), near the AéroConstellation site, and notably hosts two copies of the Concorde, which opened on January 14, 2015
The south tarmac of the museum can only accommodate three large aircraft. The installation of the devices was definitively finished after the first prototype of the A400M-180 arrived there on July 16, 2015, despite the possibility of 360,000 euros in VAT.
Concorde, F-BVFC, MSN209 in Air France colors
Caravelle 12, F-BTOE, MSN280 in Air Inter colors, last model built
A400M-180, F-WWMT, MSN001 parked since July 16, 2015
The construction in 2019 of the new tarmac north of the museum will accommodate additional aircraft from local Airbus and ATR companies. The transfer of planes between the Airbus "Lagardère" site and the museum takes place over a week, at the rate of one aircraft per day:
ATR 72-600, F-WWEY, MSN098 in ATR colors, transferred to site on August 26, 2019, first copy of the 72 in its 600 version
Airbus A340-600, F-WWCA, MSN360 in Airbus colors, transferred to site on August 27, 2019, first copy of the A340 in its 600 version
Airbus A320-111, F-WWAI, MSN001 in the old Airbus colors, transferred to site on August 28, 2019, first copy of the A320: inauguration on February 14, 1987 in the presence of Lady Diana and Prince Charles, first flight on February 22, 1987
Airbus A380-800, F-WXXL, MSN002 in Airbus colors, transferred to site on August 29, 2019, second copy of the A380. The two decks of this aircraft can be visited, as well as the cockpit.
ATR 42-300, F-WEGC, MSN003 in the old ATR colors, transferred to the site on August 30, 2019, third specimen of the 42. This specimen is decorated in the colors of the MSN001 and bears the registration F-WEGA
Concorde, F-WTSB, MSN201 (ANAE), this is a pre-production aircraft which was used, among other things, to transport several presidents of the French Republic.
Airbus A300B4-203, F-WUAB, MSN238 (Airbus Heritage), decorated in the colors of the prototype, instead of dismantled MSN001. The interior can be visited. In the first section transparent glazing allows to see the structure and systems of the aircraft, while in the following sections are shown first class and VIP fittings.
Super Guppy from the Ailes Anciennes Toulouse association, the aircraft which was used to transport the Airbus sections is on display with the door open, and a gangway allows access to the hold where a film is shown. Opening was no small feat, as the device has not been opened for 15 years. The help of the former mechanics of the aircraft was essential to allow a safe opening.
Corvette (Airbus)
Falcon 10 no 02, prototype used for testing the Larzac turbojet engine (Ailes Anciennes Toulouse)
Fouga Magister (AAT)
Prototype Gazelle (AAT)
Mirage III C (AAT)
North 1100 (AAT)
Lockheed F-104G (AAT)
MiG-15 (AAT)
MS.760 Paris (AAT)
Vought F-8E (FN) Crusader and its engine (AAT)
Alouette II Marine (AAT)
Cessna Skymaster (AAT)
Fairchild Metro, former Météo-France (AAT) aircraft
HM-293, by Rodolphe Grunberg
Chagnes MicroStar, amateur-built aircraft, twin-jet version of Rutan VariViggen (AAT)
Saab J35OE Draken (AAT)
Built by the Schiffswerks Rieherst company in Hamburg, the Umbria was launched on December 30th 1911 with the name of Bahia Blanca. It was a large freighter by that time, 150 meters long, with a power capable of providing a speed of 14 knots that could carry 9,000 tons of cargo and up to 2,000 passengers. In 1912 it began operating the Hamburg-America line doing different jobs between Europe and Argentina until the outbreak of World War I, when it was based in Buenos Aires. In 1918 the ship was acquired by the Argentinian government and it was not until 1935 when the ship was taken over by the Italian government and renamed again: the Umbria. From that moment its trips were to transport troops and during the following two years carried several thousand soldiers to the Italian colonies in East Africa.
The loss of the Umbria
In May 1940, when Italy was still neutral in World War II, the Umbria was secretly loaded with 360,000 bombs between 15 kg and 100 kg, 60 boxes of detonators, building materials and three Fiat Lunga cars, carrying a total 8,600 tons of weapons towards the East Africa. The explosives had destination Massawa and Assab, Eritrea, that was Italian colony by then, and the rest of the cargo was heading different locations in Asia. Italy's entry into the war was imminent and this shipment was destined to the defense of the colonies against the Allies and to the possible expansion of its African territories.
On 3rd June 1940 the Umbria reached Port Said, northern Egypt, where loaded with 1,000 tons of coal and water in a movement to fool the Allies, trying to look like a harmless freighter. The port, controlled by the Royal Navy, and its authorities allowed the ship enter on the Red Sea three days after arrival. The British delayed the departure of the Umbria knowing that Italy's entry into the war was imminent and that the cargo of Umbria had devastating power that sooner or later would be used against the Allies and why not, to get a great load to fight fascism. But Italy, as a neutral country that it was, had every right to transport weapons much like any other cargo to its colonies.
Having met the deadline to be retained, the Umbria crossed the Suez Canal on June 6th but with the escort of the HMS Grimsby. The importance and destructive capacity of the cargo required it. Three days later the Umbria entered in Sudan waters and the HMS Grimsby ordered the Umbria captain to anchor on Wingate Reef under the pretext of searching for contraband. Moments later the British warship HMS Leander arrived with a group of 20 sailors who boarded the Umbria. After thoroughly searching the ship and finding nothing, the captain ordered the British troops to remain the night aboard the Umbria.
The next morning Lorenzo Muiesan, Umbria captain, was in his cabin listening to the radio when Mussolini announced the entry of Italy into the World War II. Hostilities would begin at midnight of that day. Muiesan, a very patriotic captain with long experience, was the only one in the area who had heard the news and knew immediately that both Umbria and the burden would be used by the Allies against their own country. He had no option to disable both. In a move of extraordinary intelligence, as the hours passed retained by the British who did not yet know that Italy was officially the enemy, the captain ordered his crew conducting a rescue simulation... that was more real than the British thought. This maneuver, which the English soldiers agreed as they believed it would serve to further delay the departure of the Umbria. While the Italians occupied the lifeboats, the chief engineers, following Muiesan´s orders, opened all the valves and drown the ship to the bottom of the reef. With the crew safe, the British only had time to get on their ship and watch the freighter slid slowly.
When the captain of HMS Grimsby asked why he had done that Muiesan confirmed the declaration of war from Italy to Britain. The next day Muiesan and the rest of Umbria crew departed detainees to India, where they spent four years in prison.
CARGO:
The Umbria was carrying 360,000 individual aircraft bombs ranging in size from 15, 50 and 100 kg. The vessel also carried a large quantity of fuses, ammunition and detonators as well as other traditional cargo. The captain knew these bombs would be confiscated and used by the enemy against his country should they ever discover them which was why he made the call to sink the ship.
The Umbria had sailed in June 1940 with 6,000 tons of bombs, 60 boxes detonators, explosives, weapons and three Fiat 1100 Lunga from Genoa via Livorno and Naples in the Suez Canal and on the way via Massaua and Assab to Calcutta.
Aeroscopia est un musée aéronautique français implanté à Blagnac (Haute-Garonne), près du site AéroConstellation, et accueille notamment deux exemplaires du Concorde, dont l'ouverture a eu lieu le 14 janvier 2015
Le tarmac Sud du musée n'est capable d'accueillir que trois gros appareils. L'installation des appareils fut définitivement terminée après que le premier prototype de l'A400M-180 y fut arrivé le 16 juillet 2015, en dépit de la possibilité de 360 000 euros de TVA.
Concorde, F-BVFC, MSN209 aux couleurs d'Air France
Caravelle 12, F-BTOE, MSN280 aux couleurs d'Air Inter, dernier exemplaire construit
A400M-180, F-WWMT, MSN001 stationné depuis le 16 juillet 2015
La réalisation en 2019 du nouveau tarmac au Nord du musée permet l'accueil d'appareils supplémentaires issus des entreprises locales Airbus et ATR. Le transfert des avions entre le site Airbus "Lagardère" et le musée a lieu sur une semaine, à raison d'un appareil par jour :
ATR 72-600, F-WWEY, MSN098 aux couleurs d'ATR, transféré sur site le 26 août 2019, premier exemplaire du 72 dans sa version 600
Airbus A340-600, F-WWCA, MSN360 aux couleurs d'Airbus, transféré sur site le 27 août 2019, premier exemplaire de l'A340 dans sa version 600
Airbus A320-111, F-WWAI, MSN001 aux anciennes couleurs d'Airbus, transféré sur site le 28 août 2019, premier exemplaire de l'A320 : inauguration le 14 février 1987 en présence de Lady Diana et du Prince Charles, premier vol le 22 février 1987
Airbus A380-800, F-WXXL, MSN002 aux couleurs d'Airbus, transféré sur site le 29 août 2019, second exemplaire de l'A380. Les deux ponts de cet appareil sont visitables, ainsi que le cockpit.
ATR 42-300, F-WEGC, MSN003 aux anciennes couleurs d'ATR, transféré sur site le 30 août 2019, troisième exemplaire du 42. Cet exemplaire est décoré aux couleurs du MSN001 et porte l'immatriculation F-WEGA
Concorde, F-WTSB, MSN201 (ANAE), il s'agit d'un appareil de présérie qui a servi entre autres à transporter plusieurs présidents de la République française.
Airbus A300B4-203, F-WUAB, MSN238 (Airbus Heritage), décoré aux couleurs du prototype, au lieu de MSN001 démantelé. L'intérieur est visitable. Dans la première section des vitrages transparents permettent de voir la structure et les systèmes de l'avion, tandis que dans les sections suivantes sont représentés des aménagements de première classe et VIP.
Super Guppy de l'association Ailes Anciennes Toulouse, l'appareil qui servait au transport des tronçons d'Airbus est exposé porte ouverte, et une passerelle permet l'accès à la soute où un film est projeté. L'ouverture n'a pas été une mince affaire, l'appareil n'ayant pas été ouvert pendant 15 ans. L'aide des anciens mécaniciens de l'avion a été primordiale pour permettre une ouverture en toute sécurité.
Corvette (Airbus)
Falcon 10 no 02, prototype ayant servi aux essais du turboréacteur Larzac (Ailes Anciennes Toulouse)
Fouga Magister (AAT)
Gazelle prototype (AAT)
Mirage III C (AAT)
Nord 1100 (AAT)
Lockheed F-104G (AAT)
MiG-15 (AAT)
MS.760 Paris (AAT)
Vought F-8E(FN) Crusader et son réacteur (AAT)
Alouette II Marine (AAT)
Cessna Skymaster (AAT)
Fairchild Metro, ancien avion de Météo-France (AAT)
HM-293, de Rodolphe Grunberg
Chagnes MicroStar, avion de construction amateur, version biréacteur de Rutan VariViggen (AAT)
Saab J35OE Draken (AAT)
Aeroscopia is a French aeronautical museum located in Blagnac (Haute-Garonne), near the AéroConstellation site, and notably hosts two copies of the Concorde, which opened on January 14, 2015
The south tarmac of the museum can only accommodate three large aircraft. The installation of the devices was definitively finished after the first prototype of the A400M-180 arrived there on July 16, 2015, despite the possibility of 360,000 euros in VAT.
Concorde, F-BVFC, MSN209 in Air France colors
Caravelle 12, F-BTOE, MSN280 in Air Inter colors, last model built
A400M-180, F-WWMT, MSN001 parked since July 16, 2015
The construction in 2019 of the new tarmac north of the museum will accommodate additional aircraft from local Airbus and ATR companies. The transfer of planes between the Airbus "Lagardère" site and the museum takes place over a week, at the rate of one aircraft per day:
ATR 72-600, F-WWEY, MSN098 in ATR colors, transferred to site on August 26, 2019, first copy of the 72 in its 600 version
Airbus A340-600, F-WWCA, MSN360 in Airbus colors, transferred to site on August 27, 2019, first copy of the A340 in its 600 version
Airbus A320-111, F-WWAI, MSN001 in the old Airbus colors, transferred to site on August 28, 2019, first copy of the A320: inauguration on February 14, 1987 in the presence of Lady Diana and Prince Charles, first flight on February 22, 1987
Airbus A380-800, F-WXXL, MSN002 in Airbus colors, transferred to site on August 29, 2019, second copy of the A380. The two decks of this aircraft can be visited, as well as the cockpit.
ATR 42-300, F-WEGC, MSN003 in the old ATR colors, transferred to the site on August 30, 2019, third specimen of the 42. This specimen is decorated in the colors of the MSN001 and bears the registration F-WEGA
Concorde, F-WTSB, MSN201 (ANAE), this is a pre-production aircraft which was used, among other things, to transport several presidents of the French Republic.
Airbus A300B4-203, F-WUAB, MSN238 (Airbus Heritage), decorated in the colors of the prototype, instead of dismantled MSN001. The interior can be visited. In the first section transparent glazing allows to see the structure and systems of the aircraft, while in the following sections are shown first class and VIP fittings.
Super Guppy from the Ailes Anciennes Toulouse association, the aircraft which was used to transport the Airbus sections is on display with the door open, and a gangway allows access to the hold where a film is shown. Opening was no small feat, as the device has not been opened for 15 years. The help of the former mechanics of the aircraft was essential to allow a safe opening.
Corvette (Airbus)
Falcon 10 no 02, prototype used for testing the Larzac turbojet engine (Ailes Anciennes Toulouse)
Fouga Magister (AAT)
Prototype Gazelle (AAT)
Mirage III C (AAT)
North 1100 (AAT)
Lockheed F-104G (AAT)
MiG-15 (AAT)
MS.760 Paris (AAT)
Vought F-8E (FN) Crusader and its engine (AAT)
Alouette II Marine (AAT)
Cessna Skymaster (AAT)
Fairchild Metro, former Météo-France (AAT) aircraft
HM-293, by Rodolphe Grunberg
Chagnes MicroStar, amateur-built aircraft, twin-jet version of Rutan VariViggen (AAT)
Saab J35OE Draken (AAT)
How many Internet-capable devices does it take to watch the Mars Rover liftoff? Well, I know from tracking the Twitter stream at #MSL that an awful lot of people were watching it on their iPhone or iPad with the NASA TV app.
NASA TV:
I've done that myself for other launches, and was very grateful. This time I was not riding the bus, and was SO excited, I wanted the largest possible screen, with no breaks.
So I set up the largest computer screen I have available (laptop). I blew up the UStream channel full-size. But I also wanted to track the Twitter conversation and NASA Tweetup, so I fired up the Twitter client on the iPad.
That conversation was blazing fast, with comments and conversation in realtime in every language I know even slightly and every script I could recognize -- Russian, Japanese, Chinese, Arabic, Italian, French, Spanish, German and so many more! I could barely keep up, and didn't want to miss anything big, so next I pulled out the iPhone. This allowed me to skim & answer mentions & direct messages both from Twitter and Facebook without losing track of either the video stream or the conversation.
I almost used my digital camera to take this picture, which would have made four devices, but I did use the iPhone for that multitasking also. I think I could gave used as many devices as I could get my hands on and been thrilled. But really, all you truly need is that smartphone.