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Goole is the furthest inland port in Britain.
The port is capable of handling nearly 3 million tonnes of cargo per annum, making it one of the most important ports on the east coast of England.
The Yorkshire Waterways Museum
An independent Museum that celebrates Yorkshire's waterways heritage.
This is the home of the Tugs and Tom Pudding trains which transported coal from South and West Yorkshire for transfer into larger ships using the boat hoists. These boat hoists are now industrial icons.
en.wikipedia.org/wiki/Tom_Pudding
Wheldale
An historic coal tug boat.
Currently used by the museum for half day canal trips along the historic Yorkshire coal routes.
Wildland Firefighters on Rappel capable crews, come from all over the nation each spring to train at the National Helicopter Rappel Program’s Rappel Academy at Salmon AirBase, in Salmon, Idaho.
Wildland fire aircraft play a critical role in supporting firefighters on wildland fires. Helicopters also deliver aerial crews called Heli-Rappellers to wildland fires. These are specially trained firefighters that rappel from helicopters in order to effectively and quickly respond to fires in remote terrain.
Heli-Rappellers may land near a wildfire but if there is no landing zone close by they can utilize their skills to rappel from the hoovering helicopter. Once on the ground, crews build firelines using hand tools, chainsaws, and other firefighting tools. Forest Service photo by Charity Parks.
Designing and building a high power amplifier capable of driving low impedance (as low as 2 Ohm’s @ 50 Vpp) loads.
www.diyaudio.com/ see alias FdW
History of DIY audio
Audio DIY came to prominence in the 50s to 60s, as audio reproduction was relatively new and the technology "complex," audio reproduction equipment, and in particular high performance equipment, was not offered at the retail level. Kits and designs were available for consumers to build their own equipment. Famous vacuum tube kits from Dynaco, Heathkit, and McIntosh, as well as solid state (transistor) kits from Hafler allowed for consumers to build their own hi fidelity systems. Books and magazines were published which explained new concepts regarding the design and operation of vacuum tube and (later) transistor circuits.
While audio equipment has become easily accessible in the current day and age, there still exists an interest in building one's own equipment, including amplifiers, speakers, preamplifiers, and even CD players and turntables. Today, a network of companies, parts vendors, and on-line communities exist to foster this interest. DIY is especially active in loudspeaker and in tube amplification. Both are relatively simple to design and fabricate without access to sophisticated industrial equipment. Both enable the builder to pick and choose between various available parts, on matters of price as well as quality, allow for extensive experimentation, and offer the chance to use exotic or highly labor-intensive solutions, which would be expensive for a manufacturer to implement, but only require personal labor by the DIYer, which is a source of satisfaction to them.
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)
MISSION:
Supports Soldiers with a software-defined, reprogrammable, networkable, single-channel radio capable of simultaneous voice, data, and video communications.
DESCRIPTION:
The Rifleman Radio is a lightweight, rugged, handheld radio that transmits voice and data via the Soldier Radio Waveform (SRW). The Rifleman Radio acts as its own router and is not dependent on fixed infrastructures, such as cell phone towers or line-of-sight communications. Soldiers can communicate with anyone on the network and send information up and down the chain, as well as into the network backbone provided by the Warfighter Information Network-Tactical (WIN-T).
The Rifleman Radio can also be linked to the Nett Warrior, an Android-based smartphone that enables Soldiers to send messages, access mission-related applications, and track one another’s locations with Global Positioning System (GPS) technology. The digital communications also enables leaders to track Soldiers’ positions and provide protection in adversarial situations.
Read more at asc.army.mil/web/portfolio-item/c3t-rifleman-radio/
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)
en.wikipedia.org/wiki/Blackburn_Buccaneer
en.wikipedia.org/wiki/Yorkshire_Air_Museum#Collection
The Blackburn Buccaneer is a British carrier-capable attack aircraft designed in the 1950s for the Royal Navy (RN). Designed and initially produced by Blackburn Aircraft at Brough, it was later officially known as the Hawker Siddeley Buccaneer when Blackburn became a part of the Hawker Siddeley Group, but this name is rarely used.
The Buccaneer was originally designed in response to the Soviet Union introducing the Sverdlov class of light cruisers. Instead of building a new class of its own cruisers, the Royal Navy decided that it could address the threat posed via low-level attack runs performed by Buccaneers, so low as to exploit the ship's radar horizon to minimise the opportunity for being fired upon. The Buccaneer could attack using nuclear weapons or conventional munitions. During its service life, it would be modified to carry anti-ship missiles, allowing it to attack vessels from a stand-off distance and thus improve its survivability against modern ship-based anti-aircraft weapons. The Buccaneer performed its maiden flight in April 1958 and entered Royal Navy service during July 1962.
Initial production aircraft suffered a series of accidents, largely due to insufficient engine power; this shortfall would be quickly addressed via the introduction of the Buccaneer S.2, equipped with more powerful Rolls-Royce Spey jet engines, in 1965. The Buccaneer S.2 would be the first Fleet Air Arm (FAA) aircraft to make a non-stop, unrefuelled crossing of the Atlantic Ocean. During the 1960s and 1970s, the Royal Navy standardised the air wings operating from their carriers around the Buccaneer, Phantom, and the Fairey Gannet. The Buccaneer was also offered as a possible solution for the Royal Air Force (RAF) requirement for a supersonic interdictor carrying nuclear weapons. It was rejected as not meeting the specification in favour of the more advanced BAC TSR-2 bomber, but this aircraft would be cancelled largely due to its high cost, then its selected replacement, the General Dynamics F-111K, would also be cancelled. The Buccaneer was purchased as a TSR-2 substitute and entered RAF service during October 1969.
The Royal Navy retired the last of its large aircraft carriers in February 1979; as a result, the Buccaneer's strike role was transferred to the British Aerospace Sea Harrier and the Buccaneers were transferred to the RAF. After a crash in 1980 revealed metal fatigue problems, the RAF's fleet was reduced to 60 aircraft while the rest were withdrawn. The ending of the Cold War in the 1990s led to military cutbacks that accelerated the retirement of Britain's remaining Buccaneers; the last of the RAF's Buccaneers were retired in March 1994 in favour of the more modern Panavia Tornado. The South African Air Force (SAAF) was the only export customer for the type. Buccaneers saw combat action in the first Gulf War of 1991, and the lengthy South African Border War.
Following the end of the Second World War, the Royal Navy soon needed to respond to the threat posed by the rapid expansion of the Soviet Navy. Chief amongst Soviet naval developments in the early 1950s was the Sverdlov-class cruiser; these vessels were classifiable as light cruisers, being fast, effectively armed, and numerous. Like the German "pocket battleships" during the Second World War, these new Soviet cruisers presented a serious threat to the merchant fleets in the Atlantic. To counter this threat, the Royal Navy decided not to use a new ship class of its own, but instead introduce a specialised strike aircraft employing conventional or nuclear weapons. Operating from the Navy's fleet carriers, and attacking at high speed and low level, it would offer a solution to the Sverdlov problem.
A detailed specification was issued in June 1952 as Naval Staff Requirement NA.39, calling for a two-seat aircraft with folding wings, capable of flying at 550 knots (1,020 km/h; 630 mph) at sea level, with a combat radius of 400 nautical miles (740 km; 460 mi) at low altitude, and 800 nautical miles (1,500 km; 920 mi) at higher cruising altitudes. A weapons load of 8,000 pounds (3,600 kg) was required, including conventional bombs, the Red Beard free-fall nuclear bomb, or the Green Cheese anti-ship missile. Based on the requirement, the Ministry of Supply issued specification M.148T in August 1952, and the first responses were returned in February 1953. Blackburn's design by Barry P. Laight, Project B-103, won the tender in July 1955. For reasons of secrecy, the aircraft was called BNA (Blackburn Naval Aircraft) or BANA (Blackburn Advanced Naval Aircraft) in documents, leading to the nickname of "Banana Jet". The first prototype made its maiden flight from RAE Bedford on 30 April 1958.
The first production Buccaneer model, the Buccaneer S.1, entered squadron service with the Fleet Air Arm (FAA) in January 1963. It was powered by a pair of de Havilland Gyron Junior turbojets, producing 7,100 pounds-force (32,000 N) of thrust. This mark was somewhat underpowered, and as a consequence, could not achieve take off if fully laden with both fuel and armament. A temporary solution to this problem was the "buddy system": aircraft took off with a full load of weaponry and minimal fuel, and would subsequently rendezvous with a Supermarine Scimitar that would deliver the full load of fuel by aerial refuelling. The lack of power meant, however, that the loss of an engine during take-off, or landing at full load, when the aircraft was dependent on flap blowing, could be catastrophic.
The long-term solution to the underpowered S.1 was the development of the Buccaneer S.2, fitted with the Rolls-Royce Spey engine, which provided 40% more thrust. The turbofan Spey also had significantly lower fuel consumption than the pure-jet Gyron, which provided improved range. The engine nacelles had to be enlarged to accommodate the Spey, and the wing required minor aerodynamic modifications as a result. Hawker Siddeley announced the production order for the S.2 in January 1962. All Royal Navy squadrons had converted to the improved S.2 by the end of 1966. However, 736 Naval Air Squadron also used eight S.1 aircraft taken from storage to meet an extra training demand for RAF crews until December 1970.
Blackburn's first attempt to sell the Buccaneer to the Royal Air Force (RAF) occurred in 1957–1958, in response to the Air Ministry Operational Requirement OR.339, for a replacement for the RAF's English Electric Canberra light bombers, with supersonic speed, and a 1,000-nautical-mile (1,900 km; 1,200 mi) combat radius; asking for an all-weather aircraft that could deliver nuclear weapons over a long range, operate at high level at Mach 2+ or low level at Mach 1.2, with STOL performance. Blackburn proposed two designs, the B.103A, a simple modification of the Buccaneer S.1 with more fuel, and the B.108, a more extensively modified aircraft with more sophisticated avionics. Against a background of inter-service distrust, political issues, and the 1957 Defence White Paper, both types were rejected by the RAF; as being firmly subsonic, and incapable of meeting the RAF's range requirements; while the B.108, which retained Gyron Junior engines while being 10,000 pounds (4,500 kg) heavier than the S.1, would have been severely underpowered, giving poor short-take off performance. The BAC TSR-2 was eventually selected in 1959.
After the cancellation of the TSR-2, and then the substitute American General Dynamics F-111K, the Royal Air Force still required a replacement for its Canberras in the low-level strike role, while the planned retirement for the Royal Navy's aircraft carriers meant that the RAF would also need to add a maritime strike capability. It was therefore decided in 1968 that the RAF would adopt the Buccaneer, both by the purchase of new-build aircraft, and by taking over the Fleet Air Arm's Buccaneers as the carriers were retired. A total of 46 new-build aircraft for the RAF were built by Blackburn's successor, Hawker Siddeley, designated S.2B. These had RAF-type communications and avionics equipment, Martel air-to-surface missile capability, and could be equipped with a bulged bomb-bay door containing an extra fuel tank.
Some Fleet Air Arm Buccaneers were modified in-service to also carry the Martel anti-ship missile. Martel-capable FAA aircraft were later redesignated S.2D. The remaining aircraft became S.2C. RAF aircraft were given various upgrades. Self-defence was improved by the addition of the AN/ALQ-101 electronic countermeasures (ECM) pod (also found on RAF's SEPECAT Jaguar GR.3), chaff and flare dispensers, and AIM-9 Sidewinder capability. RAF low-level strike Buccaneers could carry out what was known as 'retard defence'; four 1,000-pound (450 kg) retarded bombs carried internally could be dropped to provide an effective deterrent against any following aircraft. In 1979, the RAF obtained the American AN/AVQ-23E Pave Spike laser designator pod for Paveway II laser-guided bombs; allowing the aircraft to act as target designators for further Buccaneers, Jaguars, and other strike aircraft. From 1986, No. 208 Squadron RAF, then No. 12 (B) Squadron, replaced the Martel ASM with the Sea Eagle missile.
The Yorkshire Air Museum & Allied Air Forces Memorial is an aviation museum in Elvington, York on the site of the former RAF Elvington airfield, a Second World War RAF Bomber Command station. The museum was founded, and first opened to the public, in the mid 1980s.
The museum is one of the largest independent air museums in Britain. It is also the only Allied Air Forces Memorial in Europe. The museum is an accredited museum under Arts Council accreditation scheme. It is a Member of Friends of the Few (Battle of Britain Memorial), the Royal Aeronautical Society, the Museums Association and the Association of Independent Museums.
The Museum is a registered charity (No. 516766) dedicated to the history of aviation and was also set up as a Memorial to all allied air forces personnel, particularly those who served in the Royal Air Force during the Second World War.
Site
Further information: RAF Elvington
The 20-acre (81,000 m2) parkland site includes buildings and hangars, some of which are listed. It incorporates a 7-acre (28,000 m2) managed environment area and a DEFRA and Environment Agency supported self sustainability project called "Nature of Flight". The museum is situated next to a 10,000 ft runway, which is privately owned.
History
Whilst the Royal Air Force carried on using the runway for aircraft landing and take off training until 1992, the buildings and hangars had long been abandoned. In 1980 Rachel Semlyen approached the owners of "what was then an abandoned and derelict wartime site, with the idea of restoring the buildings and creating a museum". In 1983, a group started clearing the undergrowth and the site was ready to be unveiled as the Yorkshire Air Museum in 1986.
Events
The Museum undertakes several annual events each year within the general attraction / entertainment area as well as educational / academic events for specific audiences, plus several corporate events in association with companies such as Bentley, Porsche, banking, government agencies etc. The unique annual Allied Air Forces Memorial Day takes place in September.
Exhibits
The Museum has over 50 aircraft spanning the development of aviation from 1853 up to the latest GR4 Tornado. Several aircraft including Victor, Nimrod, Buccaneer, Sea Devon, SE5a, Eastchurch Kitten, DC3 Dakota are kept live and operated on special "Thunder Days" during the year. Over 20 historic vehicles and a Registered Archive containing over 500,000 historic artefacts and documents are also preserved at the Museum, which is also the Official Archive for the National Aircrew Association and National Air Gunners Association. It is nationally registered and accredited through DCMS/Arts Council England and is a registered charity.
A permanent exhibition on RAF Bomber Command was opened at the museum by life member, Sir David Jason. In 2010 a new exhibition called "Pioneers of Aviation", and funded by the Heritage Lottery Fund, was opened featuring the lives and achievements of Sir George Cayley, Sir Barnes Wallis, Robert Blackburn, Nevil Shute and Amy Johnson.
Principal on-site businesses include: Restaurant, Retail Shop, Events, Aircraft Operation Engineering Workshops, Archives and Corporate Business Suite. The museum is also a location for TV and film companies.
Building 1 – Airborne Forces Display & No. 609 Squadron RAF Room
Building 2 – Uniform Display
Building 3 – Air Gunners' Exhibition
Building 4 – Archives & Reference Library
Building 5 – Museum Shop
Building 7 – Memorial Garden
Building 8 – Museum HQ, Main Entrance
Building 9 – Against the Odds
Building 10 – Elvington Corporate Room
Building 11 – Museum NAAFI Restaurant
Building 12 – Control Tower
Building 13 – French Officers' Mess
Building 14 – Airmens Billet and Station MT Display
Building 15 – Royal Observer Corp
Building 16 – Signal Square
Building 17 – Hangar T2 Main Aircraft exhibition
Building 18 – Archive & Collections Building
Building 19 – Handley Page Aircraft Workshop
Building 20 – Pioneer of Aviation Exhibition
Collection
Aircraft on display
Pre-World War II
Avro 504K – Replica
Blackburn Mercury – Replica
Cayley Glider – Replica
Mignet HM.14 Pou-du-Ciel
Port Victoria P.V.8 Eastchurch Kitten Replica
Royal Aircraft Factory BE.2c – Replica
Royal Aircraft Factory SE.5a – Replica
Wright Flyer – Replica
World War II
Avro Anson T.21 VV901
Douglas Dakota IV KN353
Fairchild Argus II FK338
Gloster Meteor F.8 WL168
Gloster Meteor NF.14 WS788
Handley Page Halifax III LV907
Hawker Hurricane I – Replica
Messerschmitt Bf 109 G-6 – Replica
Slingsby T.7 Kirby Cadet RA854
Supermarine Spitfire I – Replica
Waco Hadrian 237123
Post World War II
Air Command Commander Elite
Beagle Terrier 2 TJ704
Canadair CT-133 Silver Star 133417
de Havilland Devon C.2 VP967
de Havilland Vampire T.11 XH278
Europa Prototype 001
Mainair Demon
Saunders-Roe Skeeter AOP.12 XM553
Westland Dragonfly HR.5 WH991
Cold War
BAC Jet Provost T.4 XP640
Blackburn Buccaneer S.2 XN974
Blackburn Buccaneer S.2B XX901
British Aerospace Harrier GR.3 XV748
British Aerospace Nimrod MR.2 XV250
Dassault Mirage IIIE 538
Dassault Mirage IVA 45/BR
English Electric Canberra T.4 WH846
English Electric Lightning F.6 XS903 which arrived during June 1988.
Fairey Gannet AEW.3 XL502
Gloster Javelin FAW.9 XH767
Handley Page Victor K.2 XL231
Hawker Hunter FGA.78 QA10
Hawker Hunter T.7 XL572
Panavia Tornado GR.1 ZA354
Panavia Tornado GR.4 XZ631
Ground vehicles
Second World War
Thompson Brothers Aircraft Refueller
1938 Ford Model E
1940 "Tilly" Standard 12 hp Mkl RAF Utility Vehicle
1941 Chevrolet 4x4 CMP
1942 Austin K2 NAAFI Wagon
1942 Thornycroft ‘Amazon’ Coles Crane
Cold War
1947 Commer one and a half deck airport coach
1949 Citroen 11BL
1948 David Brown VIG.2 Aircraft Tractor
1949 David Brown VIG.3 Aircraft Tractor
1951 David Brown GP Airfield Tractor
1953 Alvis Saracen 12ton APC
1953 Austin Champ Cargo 4x4 General Purpose Vehicle
1956 Green Goddess Self Propelled Pump
1958 Commer Q4 Bikini Fire Pump Unit
1958 Lansing Aircraft Carrier Type Tug
1959 Daimler Ferret ASC MK.2/3/7
1966 Chieftain Main Battle Tank
1970 Douglas P3 nuclear aircraft 25 tonne tug
1971 Pathfinder Fire Engine 35ton (ex. Manchester Airport)
1972 TACR2 Range Rover - 6 wheeled fast response fire unit
1974 GMC 6 wheeled fast response airfield fire truck
1976 Dennis Mercury 17.5 tonne aircraft tug
Pathfinder Fire Engine
The growing threat of the Soviet Navy and the postwar drawdown of the British Royal Navy left the UK in a precarious position: it faced a larger, deadlier adversary without the means to stop it. Rather than build more surface combatants, the RN turned to deployment of more sophisticated aircraft to counter the Soviet threat. This resulted in a requirement for a carrier-based strike aircraft capable of high speed delivery of both antiship missiles and nuclear weapons. Blackburn's proposal was the only one seriously considered, and it became the Blackburn Buccaneer.
The Buccaneer was, for its time, an advance in naval aircraft design. It used area ruling for better aerodynamics, advanced avionics for accurate weapons delivery at high speed and low altitude, and refinements to the wings and tail for a smooth ride at low level. Weapons were carried in a rotary bomb bay similar to that of the Canberra. The Buccaneer was solidly built, as Blackburn's designers anticipated the stress of consistent low altitude flight and carrier operations on the airframe. The Buccaneer S.1's main weakness was a lack of engine power; this was cured in the S.2 by the use of uprated Rolls-Royce Spey engines.
The Buccaneer entered service in 1962 and acquired a reputation for toughness and reliability. However, the decision to retire Britain's large carriers in favor of smaller "Harrier carriers" in the late 1970s left the Buccaneers without a home. The RAF, which lacked an all-weather strike aircraft after the cancellation of the TSR-2 and F-111K Aardvark, took up the surviving Buccaneers as an "interim" aircraft until the Panavia Tornado was available. The Buccaneer's smooth low level handling and robust airframe ensured that the "interim" period would last over a decade. (Buccaneer crews also gained a reputation for daring: it was not uncommon for them to hit power lines during Red Flag exercises--while climbing.)
Ironically, RAF Buccaneers would only see combat in the twilight of their careers. As the Tornado fleet lacked laser designators for precision-guided weapons, Buccaneers were hurriedly sent to the Gulf for participation in Operation Desert Storm. Equipped with Pave Spike laser designators, the Buccaneers would lase a target that the Tornadoes would drop on, then use their own bombloads to follow up if necessary. No Buccaneers were lost in combat. South Africa also used theirs in undeclared wars in Angola and Namibia. It was the end of the line for the venerable "Buc": as the Tornado was upgraded, there was no need for the Buccaneer, and they were retired by 1994. Several dozen remain in museums, some in flyable condition.
Dad got a better picture that's also in my photostream, but this is XW541, a Buccaneer assigned to 16 Squadron at RAF Laarbruch, Germany. It visited the 1979 Ramstein airshow. XW541 was delivered to the RAF in 1971; it was to fly until 1980, after which it was used as a maintenance trainer until 1991, when it was scrapped. The nose section was saved and is in a private collection in the UK.
In the right foreground is a Royal Norwegian Air Force TF-104G, probably serial number 627 of 331 Squadron, based at Rygge. If it is 627, she didn't have much longer to fly: it was lost in a crash in February 1981. Also seen in the background is a Luftwaffe G.91R/3 and a CAF CF-104G, both of which are also in my photostream.
Ramstein airshows were the best. There were silver linings to growing up during the Cold War.
During World War II, both Great Britain and Germany had experimented with very large glider designs (the Hamlicar and Gigant, respectively) capable of carrying tanks. Though glider assaults had varied results during the war, the US Air Force briefly considered resurrecting the idea in 1948, and commissioned Chase Aircraft to build a large glider, the XCG-20 Avitruc. The XCG-20 was of all-metal construction, with a fully-equipped flight deck and a rear-mounted loading ramp for vehicles to be driven directly into the fuselage. The USAF abandoned the idea of glider assaults soon after the first XCG-20 was completed, but Chase had anticipated this: through the simple installation of two propeller-driven engines, the XCG-20 became the XC-123. This itself was considered only an interim design, as the XC-123A had four turbojet engines, becoming the first all-jet transport aircraft.
The USAF rejected the XC-123A, as it was found to have poor performance and short range, owing to the thirsty jets of the early 1950s. However, the piston-engined XC-123 showed promise, and the USAF ordered it into production in 1953. Production was delayed due to Chase Aircraft being acquired by Kaiser, who in turn sold the design to Fairchild Aircraft, who would produce it as the C-123B Provider.
The C-123 was considered a supplemental aircraft to the C-119 Flying Boxcar already in service and the soon-to-be-deployed C-130 Hercules. It had better single-engine performance than the C-119, and acquired a reputation for reliability, rugged design, simple maintenance, and the ability to land almost anywhere. A small number were converted to C-123J standard, with ski landing gear for operations in Antarctica and Greenland, and experiments were even made to convert it to an amphibian. Nevertheless, the number of C-123s in service were small compared to other types, and the C-130 began replacing it beginning in 1958.
As the United States involved itself more in the Vietnam War, one major advantage of its Viet Cong and North Vietnamese Army adversaries was the very jungle of Vietnam itself, which provided ready-made cover and camouflage from American air units. In an attempt to deprive the VC/NVA of jungle cover in known concentration areas, the USAF converted a number of C-123s to UC-123 standard, with spraying equipment for the pesticide Agent Orange. Under Operation Ranch Hand, UC-123s were among the first USAF aircraft deployed to Vietnam, and the first USAF aircraft lost in combat was a UC-123B. Spraying Agent Orange was very dangerous work, as it involved flying low and slow over hostile territory; it would not be until after the Vietnam War was over that it was learned that Agent Orange, used in the concentrated quantity employed in Vietnam, was also a deadly carcinogenic.
Besides their controversial employment as defoilant sprayers, standard C-123s were used as transports and Candlestick flareships, as the C-130 demand was exceeding supply, and the US Army’s CV-2 (later C-8) Caribous were proving the worth of a short-takeoff and landing transport. To improve the Provider’s performance in the “hot and high” conditions of Vietnam, two J85 turbojets were added beneath the wings of the C-123K variant, which became the final Provider variant and the main type used in Vietnam. CIA-flown Providers were used by Air America to clandestinely supply friendly Hmong tribes in Laos and in Cambodia. 54 C-123s were lost in Vietnam, second only to the C-130.
Following the end of American involvement in Vietnam, the C-123Ks were either handed over to South Vietnam or relegated to USAF Reserve and Air National Guard units, from which they were finally withdrawn around 1980. A few UC-123Ks were used to spray insecticides in Alaska and Guam as late as 1982. 11 other air forces used Providers, and the last C-123s were retired from the South Korean Air Force in 2001. 27 are preserved as museum pieces and a few remain in revenue service as “bush” aircraft in Alaska and elsewhere; remaining aircraft in storage were scrapped due to Agent Orange contamination.
Other than its USAF tail number--54-0581--and its civilian registration, N87DT, nothing can be found about this anonymous C-123K. It did serve in Vietnam, and at one point was a UC-123K defoliant sprayer, but nothing else. It was retired in 1982; in 1987, it was acquired by the Military Aircraft Restoration Corporation (MARC) for restoration. Its Southeast Asia camouflage was removed down to the bare metal. From 2010 to 2015, it was reported as sold to a private owner in Alaska, but in 2017, it was instead handed over to Yanks Air Museum.
Whatever its mysterious past, 54-0581 may look a little worn, but is actually still flyable. I saw it in May 2021.
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)
HSL 102, known as The Spitfire of the Ses, was commissioned in 1936, is the only 100 class high speed launch to survive. Capable of a speed of up to 40 knots, 102 took part in the Battle of Britain and together with her fellow launches, rescued more than 13,000 airmen from the sea.
The inspiration behind these RAF rescue craft was Aircraftsman T E Shaw
(better known as Lawrence of Arabia), who pressed for the development of a
large craft for offshore rescue work following his success in producing a
prototype seaplane tender, RAF 200.
The RAF 100 class High Speed Launches joined the RAF fleet in 1937 to
increase the operational range duties of the 200 class seaplane tenders. Built
by the The British Power Boat Company at Hythe, the 100 class HSLs were
designed by Fred Cooper. The class were a stretched version of the 60ft MTB
hull and the prototype was the format on which the RAF based their decision for
a new type of high speed launch.
The prototype, HSL 100, was launched in May 1936 and on trials surpassed all
the parameters set by both the builders and the RAF. The air ministry
immediately placed further orders, with HSLs 101-114 ordered in stages in 1936
with deliveries commencing in 1937. Two further 100 class HSLs were ordered
in 1938 with HSLs 117-132 ordered in 1939. In the event, production of this type
ceased after HSL 121 when the remaining 11 craft scheduled for completion in
1941 were switched to the BPB Whaleback design.
The launch is powered by a trio of Napier Sea Lion engines. They were also used in several of Sir Malcolm Campbell's record-breakers and the Supermarine S.5 racing seaplane, a forerunner of the Spitfire. The range was 500 miles at a
speed of 39 knots. The two wing engines were inclined to drive directly to the
outboard propeller shafts, whilst the centre engine faced the opposite direction
and transmitted via a Vee-drive to the centre propeller. This arrangement
allowed for “cruising” on the centre engine only, a range extending economy
measure which retained a high degree of manoeuvrability. The accommodation
included an Officer’s wardroom / sickbay for four and forecastle bunks for eight
crew.
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.
Capable of capturing an area approximately 1.3mm x 0.86mm.
Pentax K-5 with Extension Tubes, Pentax 2x-s Teleconverter, Kenko 2x MC7 Teleconverter, Sigma 105mm EX DG Macro, with a Pentax-M 50mm f/2 reversed on the front end of it all.
The penny being shot: www.flickr.com/photos/kurt-b/5438125294/
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)
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.
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.
The McDonnell Douglas (now Boeing) F/A-18 Hornet is a supersonic, all-weather carrier-capable multirole fighter jet, designed to attack both ground and aerial targets. The F/A-18 was derived from the YF-17 in the 1970s for use by the United States Navy and Marine Corps. The Hornet is also used by the air forces of several other nations. It has been the aerial demonstration aircraft for the U.S. Navy's Flight Demonstration Squadron, the Blue Angels, since 1986.
F/A-18 Hornet provided the baseline design for the F/A-18E/F Super Hornet, a larger, evolutionary redesign of the F/A-18. Compared to the Hornet, the Super Hornet is larger, heavier and has improved range and payload capability. The F/A-18E/F was originally proposed as an alternative to a completely new aircraft to replace existing dedicated attack aircraft such as the A-6. The larger variant was also directed to replace the aging F-14 Tomcat, thus serving a complementary role with Hornets in the U.S. Navy, and serving a wider range of roles including refueling tanker, and electronic jamming platform.
SCAMP is an extremely capable small boat; at 11 feet 11 inches in length. The boat was designed by well-known New Zealand designer John Welsford for the magazine Small Craft Advisor, hence its name - Small Craft Advisor Magazine Project, or SCAMP. www.smallcraftadvisor magazine.com
The Northwest School of Wooden Boatbuilding (www.nwboatschool.org) hosted the third SCAMP Camp (sm) March 4th - 15th, 2013 at the Northwest Maritime Center in Port Townsend WA. www.nwmaritime.org/
The next SCAMP Camp is scheduled in the same location August 5th - 16th, 2013; check the School's website for details. We'll announce 2014 SCAMP Camp dates later this spring.
This SCAMP Camp (sm) is taught by well-known small boat adventurer Howard Rice. SCAMP's designer, New Zealander John Welsford, will help to teach the August 2013 SCAMP Camp (sm).
During the March class, 6 SCAMPs are being built from CAD kits cut by Turnpoint Design of Port Townsend during the March 2013 workshop, and a total of ten students participated in the class. Students came from as far away as Germany and from Vermont, Montana, Oregon and other locations across the US to attend the class.
The Northwest School of Wooden Boatbuilding is located in Port Hadlock WA and is a private, accredited non-profit vocational school. You can find us on the web at www.nwboatschool.org .
Our mission is to teach and preserve the fine art of wooden boatbuilding and traditional maritime crafts. We build both commissioned and speculative boats for sale while teaching students boatbuilding the skills they need to work in the marine trades.
We also teach a variety of workshops throughout the year, of which SCAMP Camp (sm) is one.
You can reach us via e-mail at info@nwboatschool.org or by calling us at 360-385-4948.
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)
The tiny galley capable of serving four meals a day for 64 men.
Onslow was commissioned during the Cold War, a tense time that called for a submarine to watch, listen and collect information without detection. The most secretive work was tracking Soviet submarines moving into the Arabian Gulf from Vladivostok via the Coral Sea and the Great Australian Bight.
With five other Oberons, Onslow gave the Royal Australian Navy a formidable submarine force. The motto of the navy's submarine arm is "Strength, silence, surprise". This explains many of Onslow's characteristics, including:
•a diving chamber for Special Forces to leave the boat for covert operations
•a gash ejector containing weighted rubbish (gash) bags. When ejected, the bags sink to the ocean floor so no debris floats to give away the submarine's position
•soundproofing on all equipment to make Oberons one of the quietest submarines ever built.
Onslow has travelled the equivalent of more than 16 times around the world, serving Australia with quiet distinction for 30 years.
The Northrop Grumman E-2 Hawkeye is an American all-weather, carrier-capable tactical airborne early warning (AEW) aircraft. This twin-turboprop aircraft was designed and developed during the late 1950s and early 1960s by the Grumman Aircraft Company for the United States Navy as a replacement for the earlier, piston-engined E-1 Tracer, which was rapidly becoming obsolete. The aircraft's performance has been upgraded with the E-2B and E-2C versions, where most of the changes were made to the radar and radio communications due to advances in electronic integrated circuits and other electronics. The fourth major version of the Hawkeye is the E-2D, which first flew in 2007. The E-2 was the first aircraft designed specifically for its role, as opposed to a modification of an existing airframe, such as the Boeing E-3 Sentry. Variants of the Hawkeye have been in continuous production since 1960, giving it the longest production run of any carrier-based aircraft.
The E-2 also received the nickname "Super Fudd" because it replaced the WF (later E-1) "Willy Fudd". In recent decades, the E-2 has been commonly referred to as the "Hummer" because of the distinctive sounds of its turboprop engines, quite unlike that of turbojet and turbofan jet engines. In addition to U.S. Navy service, smaller numbers of E-2s have been sold to the armed forces of Egypt, France, Israel, Japan, Mexico, Singapore and Taiwan.
Grumman also used the basic layout of the E-2 to produce the Grumman C-2 Greyhound cargo aircraft.
From Wikipedia:
en.wikipedia.org/wiki/Northrop_Grumman_E-2_Hawkeye
Photo by Eric Friedebach
Until today I had not noticed the Brassier 7 restaurant had ceased trading but I was not surprised because I have always believed that location was not capable of supporting a 250 seater restaurant that was not within the price range of people living, working or studying in the area. Also, for various reasons. there was no way that it could attract people from elsewhere in the city.
I cannot remember exactly when but a number of years ago the celebrity chef Gary Rhodes opened his restaurant, Rhodes D7, on Capel Street in Dublin. I could not believe his choice of location and I often wondered if he had in fact every visited the restaurant or the location. I must admit that I have never understand the concept of paying extra to eat at a restaurant featuring the name of a famous chef that never cooks the food.
When it was first established my mother indicated that she would like to try it but when I phoned I was informed that it was booked out for at least four weeks. However, every time I passed by it was at best about 25% occupied. I tried a few more times but still there was a three to four week waiting list and and at one stage it was as high as six weeks despite the fact the place was less full every time I walked by. My mother never got to have a meal there.
Sometimes they would open on bank holidays and sometimes, at random, they were closed on Bank Holidays and Sundays [that is usually a bad sign]. One bank holiday I was passing by and as they were open I dropped in and got a table no problem and the food was good but expensive compared to other options nearby.
I think that it was Christmas 2008 and I had been invited to visit my brother for Christmas. On the 23rd. I visited the restaurant late in the evening and as I was the last customer to leave I got to have a chat with the head waiter who mentioned that he was going back to Poland the next morning for a two week holiday as the restaurant would be closed for two weeks. I asked him why would a restaurant close for two weeks at the busiest time of the year but he did not appear to think that it was odd but I certainly did.
The next day my trip to my brother’s house had to be cancelled because all the family were ill so I was stuck in Dublin for Christmas. On the 24th. I walked by the restaurant and it had a sign in the window indicating the the restaurant was closed for renovation until 17th. March [St. Patrick’s Day] and for many reasons that was an obvious lie.
The restaurant remained empty for a long time. Ta Brasserie 7 Limited was set up on Tuesday the 17th of April 2012. When it did reopen as Brasserie 7 I was the first customer and I got a excellent meal free of charge. Here is what I said back then “Saturday 8th. December 2012: [Update: I visited this restaurant today and I was their first customer. They have no connection with the previous operation which ceased trading at the end of 2008. The food was excellent as was the service]”.
I only visited twice during the following years because I considered it to be too expensive for what was on offer. It is possible that the prices dropped but I had lost interest.
In case you are interested here is an extract from the press release back in 2008:
“Welcome to rhodesD7, Gary Rhodes' first Irish restaurant venture. Situated in Dublin 7, our 250-cover venue offers Gary's unique style of European cuisine for which he has won 5 Michelin Stars. We offer a wide selection of dishes, each unique and flavoursome with Gary's distinctive touch. With a mezzanine floor and heated outdoor eating area, rhodesD7 offers a choice of fabulous dining areas. Situated on the ground floor of the landmark Capel Building, our modern, vibrant interior contains commissioned works of art by renowned Irish artist Deborah Donnelly.”
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)
At the beginning of the Vietnam War, there was little interest in a dedicated counterinsurgency (COIN) aircraft. The USAF was too committed to an all-jet, nuclear-capable force, while the US Army was satisfied with its helicopter fleet; the Navy concentrated on its carriers, and while the Marines were mildly interested, they lacked funding.
Vietnam was to change that. Horrendous losses among US Army UH-1s was to lead to a rethinking of helicopter doctrine, and pointed up the lack of a dedicated COIN aircraft. The USAF found itself depending on World War II-era A-26K Invaders, former US Navy A-1 Skyraiders, and converted trainers like the T-28 Trojan. The USAF also found itself in the market for a better forward air control (FAC) aircraft, due to the high loss rate of its O-1 Birddogs and O-2 Skymasters. Finally, the US Navy needed something to better cover its Mobile River Force units in the Mekong Delta, which could not always depend on USAF air support. In 1963, all three services issued a requirement for a new light design capable of performing as both a COIN and FAC aircraft. North American's NA-300 was selected in 1964 and designated OV-10A Bronco.
The OV-10 design drew heavily on independent research done at the China Lake research establishment, which in turn was inspired by the World War II P-38 Lightning fighter. The P-38 used a central "gondola" fuselage to concentrate all of its firepower along the centerline, which made for better accuracy; the OV-10 would do the same. As in the P-38, the engines were contained in twin booms that stretched back to the tail. The Bronco's four machine gun armament was placed in sponsons on either side of the fuselage, while ordnance was carried beneath the sponsons. To satisfy the USAF's requirements for a FAC aircraft, the two-man crew flew underneath a large, spacious canopy that gave them superb visibility. Because the Marines wanted an aircraft that could carry a Recon team, the fuselage was extended and, if the rear seat was removed, five paratroopers could be squeezed into the back, or two stretchers.
When the OV-10 arrived in Vietnam in 1968, there was a fear that the Bronco would be the jack of all trades and master of none. In fact, it proved to be excellent in all of its roles. As a FAC, it was a huge improvement over the slower O-1 and O-2; as a COIN aircraft, it was also a good aircraft, though it could not carry the same amount of ordnance as an A-1. The Navy equipped one squadron with OV-10As as VAL-4--nicknamed the "Black Ponies" for their dark green camouflage--and these were used extensively over the Mekong Delta. There were problems with the design: the airframe was actually too heavy for the engines, which left it underpowered, and ditching was invariably fatal for the pilot, as his seat tended to hurl forward into the instrument panel. Nonetheless, the Bronco turned in a sterling performance in Southeast Asia.
Though the Navy transferred its surviving Black Ponies to the Marines after the end of American involvement in Vietnam, the USAF and Marines would keep theirs for the next 20 years. For the 1970s and 1980s, the OV-10 replaced all other FAC designs in USAF service, aside from a handful of OA-37B Dragonfly squadrons. The Marines also kept their OV-10s and further refined the design by adding all-weather capability in the long-nosed OV-10D variant.
By the First Gulf War in 1991, the OV-10 was starting to show its age. The USAF began retiring its fleet even before Desert Storm; the Bronco was considered to be too slow to survive a modern air defense environment. Though the Marines used some of their OV-10Ds, the loss of two aircraft also led the USMC to retire their Broncos after war's end. Both services chose jets as replacements--the USAF with modified OA-10A Thunderbolt IIs, and the Marines with two-seat all-weather F/A-18Ds.
OV-10s were also a mild export success, going to seven other countries, mainly in the COIN role. Most have since been retired in favor of newer designs, though the Philippines still has a large and active OV-10 force. The type enjoyed a brief renaissance in 2015 when two former Marine OV-10Ds were taken up by the USAF for use against ISIS forces in Iraq, to see if the design was still viable. Though the OV-10s performed well, the USAF is not likely to put it back into production. 360 were built, and at least 25 are on display in museums aside from the aircraft that are still operational.
Aside from the Philippine Air Force, the California Department of Forestry and Fire Protection (CalFire) uses a fleet of about 20 former USAF OV-10As and former USMC OV-10Ds. These are used to scout for fires during high fire danger times, lead in waterbombers on attack runs, and coordinate large numbers of waterbombers working a particular fire. In the case of the former Marine OV-10Ds, CalFire uses these aircraft's infrared sensors to pick up "hot spots" that would normally be invisible to visual search. Though the aircraft are aging, CalFire still uses their Broncos in these roles.
Though this model carries the registration N476AW, this is actually inaccurate for a CalFire OV-10D. N476AW was indeed a civilian-operated Bronco, but was operated by the US State Department from Patrick AFB, Florida. N476AW was formerly 155501 of the USMC's VMO-4, and was retired in 1994. The State Department acquired it and several other OV-10Ds for use in spraying cocaine fields in Colombia. Given that the coca farmers and the cartels were opposed to this spraying, State OV-10s were frequently shot at and occasionally shot down--to the point that additional armor was scabbed on the bottom of the Broncos to protect the crew.
N476AW was reported active until 2009, when it was taken off the FAA's registry and marked only as "destroyed." This could mean it was scrapped, or possibly one of the OV-10s that was shot down on a covert mission over Colombia.
Though N476AW/155501 never served with CalFire, this model shows off the bright overall gloss blue used by CalFire's OV-10Ds when they were initially put into service. Today CalFire tends to paint their Broncos in more visible white and red. Dad built this kit for display in the Poletto Collection, but in 2013 I donated it to the Great Falls Model Railroad Club for display on their layout at the Montana State Fairgrounds.
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)
The first of 50 new trams capable of carrying more than 200 people was unveiled at the Preston tram workshop on Monday (July 1, 2013), about seven months behind schedule.
The new trams are the cornerstone of an $800 million project to boost Melbourne’s tram network. They were ordered by the former Brumby government.
The new tram will be used on route 96 between East Brunswick and St Kilda, one of the city's busiest. But it is not expected to make its first run until October, because it must first complete about 4000 kilometres of test runs.
Four other E-Class trams will follow soon after, adding five new high capacity trams to the network by early next year. The last of the 50 new trams is due in 2018, by which time Melbourne's tram fleet will have the capacity to carry an extra 10,500 passengers.
Ian Dobbs, Public Transport Victoria's chief executive, said the E class trams would give Melbourne's straining tram network much needed breathing space.
"The tram network, although it's iconic, has been under pressure for some years and patronage has been growing at some 30 per cent over the last 10 years," Mr Dobbs said. "These trams are going to have an
immediate impact when they're brought into service. They're much bigger then the trams we're replacing and it allows us to cascade newer vehicles across the system. "
The government's contract with tram manufacturer Bombardier contains an option to order a further 100 trams.
But Public Transport Minister Terry Mulder said the state government would observe the impact the 50 newer trams had before committing to any extra.
The 33-metre long trams have the capacity to carry 210 passengers, the most of any in Melbourne, and are the first to be manufactured here since the early 1990s.
They will add to the 100 low-floor trams that already operate in Melbourne, mostly on routes 96 and 109.
The first tram was unveiled on Monday as a disability advocate prepared to step up his case against Public Transport Victoria over its failure to stick to a federal government schedule to improve disability access on Melbourne’s tram network.
Under federal standards, 55 per cent of Melbourne's tram network was meant to be wheelchair accessible by 2012. But so far, only about 21 per cent of the network meets the standard. The government has committed $70 million over four years to make tram stops wheelchair-friendly.
Ray Jordan, a wheelchair user, has previously taken the Department of Transport to the Victorian Equal Opportunity and Human Rights Commission because the size of the gap between low-floor trams and Melbourne's easy access tram stops does not meet national standards.
"There is no point having disability features inside the tram if you can't get in the damn thing in the first place," Mr Jordan said.
Under Commonwealth disability standards for accessible public transport, the vertical gap between the tram and stop must be no more than 12 millimetres and the horizontal gap no more than 40 millimetres, measurements many of the existing low floor tram stops do not meet.
Public Transport Victoria is fitting foot plates onto Melbourne's existing low-floor trams to bridge the gap, but does not expect to complete the job until late this year.
The new E-Class trams have been fitted with foot plates that bridge the gap to within disability standards. - Melbourne Age, July 1, 2013.
Photo sourced from the Net.
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)
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)
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)
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.
Harrier GR9
The Harrier, informally referred to as the Jump Jet, is the famous family of British-designed military jet aircraft capable of vertical/short take-off and landing (V/STOL) operations. The Harrier family is the only truly successful design of this type from the many that arose in the 1960s.
There are four main versions of the Harrier family: Hawker Siddeley Harrier, British Aerospace Sea Harrier, Boeing/BAE Systems AV-8B Harrier II, and BAE Systems/Boeing Harrier II. The Hawker Siddeley Harrier is the first generation-version and is also known as the AV-8A Harrier. The Sea Harrier is a naval strike/air defence fighter. The AV-8B and BAE Harrier II are the US and British variants respectively of the second generation Harrier aircraft. Between 1969 and 2003, 824 Harrier variants were delivered, including remanufactured aircraft.
Historically the Harrier was developed to operate from ad-hoc facilities such as car parks or forest clearings, avoiding the need for large air bases vulnerable to tactical nuclear weapons. Later the design was adapted for use from aircraft carriers.
Following an approach by the Bristol Engine Company in 1957 that they were planning a directed thrust engine, Hawker Aircraft came up with a design for an aeroplane that could meet the NATO specification for a "Light Tactical Support Fighter". The resultant Hawker P.1127 was ordered as a prototype and flew in 1960.
Development continued with nine evaluation aircraft, the Hawker Siddeley Kestrel; These started flying in 1964 and were assessed by the "Tri-partite Evaluation Squadron" which consisted of British, US and German pilots, and several flew and are preserved in the United States. The RAF ordered a modified P.1127/Kestrel as the Harrier GR.1 in 1966, with most converted to GR.1A and ultimately GR.3 status in the 1970s with more powerful engines. These and new-build GR3s operated with the RAF until 1994, and a number survive in museums around the world as well as frequent use as 'gate guards' at MoD establishments.
The British Aerospace Sea Harrier is a naval V/STOL jet fighter, reconnaissance and attack aircraft, a development of the Hawker Siddeley Harrier. The first version entered service with the Royal Navy's Fleet Air Arm in April 1980 as the Sea Harrier FRS.1, and was informally known as the 'Shar'. The upgraded Sea Harrier FA2 entered service in 1993. It was withdrawn from Royal Navy service in March 2006. The Sea Harrier FRS Mk.51 remains in active service with the Indian Navy.
The Harrier was extensively redeveloped by McDonnell Douglas and British Aerospace (now parts of Boeing and BAE Systems respectively), leading to the Boeing/BAE Systems AV-8B Harrier II. This is a family of second-generation V/STOL jet multi-role aircraft, including the British Aerospace-built Harrier GR5/GR7/GR9, which entered service in the mid-1980s. The AV-8B is primarily used for light attack or multi-role tasks, typically operated from small aircraft carriers. Versions are used by several NATO countries, including the Spanish and Italian Navies, and the United States.
The BAE Systems/Boeing Harrier II is a modified version of the AV-8B Harrier II that was used by the RAF and the Royal Navy until December 2010, when they were all retired from operational service due to defence cuts in favour of maintaining the remaining Tornado fleet, and stored serviceable at RAF Cottesmore. At the end of November 2011, the UK Government announced the sale of 72 remaining Harrier Airframes to the US Marine Corps for spares to support their AV-8B fleet, with the remaining two others being allocated to museums.
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)
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)
Chargement d'une pièce de 105 mm d'un « Gigant », un avion capable d'emporter 15 tonnes de fret dans son immense soute. La cargaison est sans doute destinée au front nord-africain.
Italien.- Transportflugzeug Messerschmitt Me 323 "Gigant", Entladen/Beladen eines Halbkettenfahrzeugs Opel "Maultier" auf einem Feldflugplatz; PK XI. Fliegerkorps
Deutsches Bundesarchiv Bild 101I-559-1085-07
Wildland Firefighters on Rappel capable crews, come from all over the nation each spring to train at the National Helicopter Rappel Program’s Rappel Academy at Salmon AirBase, in Salmon, Idaho.
Wildland fire aircraft play a critical role in supporting firefighters on wildland fires. Helicopters also deliver aerial crews called Heli-Rappellers to wildland fires. These are specially trained firefighters that rappel from helicopters in order to effectively and quickly respond to fires in remote terrain.
Heli-Rappellers may land near a wildfire but if there is no landing zone close by they can utilize their skills to rappel from the hoovering helicopter. Once on the ground, crews build firelines using hand tools, chainsaws, and other firefighting tools. Forest Service photo by Charity Parks.
The Battle of Chantilly or Ox Hill was the final engagement in the Northern Virginia Campaign, a coda to the Second Battle of Bull Run, and it accomplished nothing except the deaths of two capable Union generals: Maj Gens Isaac Stevens and Philip Kearny.
Following defeat at Second Bull Run, the Union Army of Virginia under Maj Gen John Pope regrouped around Centreville. Reinforcements managed to replace the massive Union losses of the day before, and the Sec of War Edwin Stanton General-in-Chief Henry Halleck directed Pope to attack, but the Union Army commander had been stunned by the scale of his defeat and his officers had lost faith in their commander.
Despite his great victory on the Manassas Battlefield, Confederate. Gen Robert Lee still desired to cut off and destroy Pope's forces. As a result, Lee decided to repeat the tactic that had gotten him so far; send Maj Gen Thomas Jackson's troops around the Union right flank and cut off the escape route at Germantown, Virginia. On August 31, Jackson's troops moved out and again easily found its way around the Union army. Not until several reports of enemy infantry arrive did Pope realize the renewed threat to his rear. Canceling his attacks, he ordered his army to fall back while various units probed out the Confederate forces. One of the probes was two brigades under the command of Brig Gen Issac Stevens who approached the grassy slope of Ox Hill near the Plantation of Chantilly.
Clearly exhausted from the long marches and hard fighting earlier in the campaign, compounded by pouring rain, Jackson's troops had moved slowly in their flanking attack. They had finally halted at Ox Hill while Jackson himself took a nap. Around 4:00PM on September 1, Steven's division arrived here on the field with IX Corps commander Maj Gen Jesse Reno, who was incapacitated with sickness. Stevens deployed to the left of the grassy field, facing off against the Confederate troops under Brig Gen Alexander Lawton's division. Not realizing that he was in fact heavily outnumbered, Stevens led a strong attack, and in ferocious fighting managed to drive back the brigade of Col Henry Strong. At the height of the fighting, Maj Gen Issac Stevens, waving the flag of the 79th New York, led his old regiment, on a frontal charge over a fence to the cry of: "Highlanders, my Highlanders, follow your general!"
A bullet then struck his temple and killed him instantly.
Almost at this point the skies opened up and a fierce thunderstorm broke out, literally drowning out the fighting as units lost cohesion, sight of each other and had ammunition rendered useless. Opposing units that blindly collided into each other between flashes of lightning were reduced to brutal fighting with bayonets . Finally the weight of Confederate numbers began to tell, and the survivors of Stevens' division fell back.
At this point, about 6:00PM, Maj Gen Phil Kearny arrived on the field with his first brigade, that of Brig Gen David Birney. Kearny had preformed poorly at Second Bull Run, but at Chantilly the one-armed general was back in performance, sending Birney's troops charging through a rain-soaked cornfield to strike the Confederates of Maj Gen Ambrose Hill's division. When his troops stalled in pitch hand-to-hand fighting Kearny went looking for support. He found the 21st Massachusetts, which had been badly mauled in the earlier fighting. The 21st refused to advance, and to check the gap between the unit and those of his troops, Kearny rode back into the cornfield. When an aide told him that there could be enemy troops hiding Keanry replied. "the Rebel bullet that can kill me has not yet been molded." As darkness fell, he came across another unit in the field and asked it to identify itself, which it did-the 49th Georgia. Keanry replied "Okay." and began to return to Union lines. Realizing that the rider was an enemy, the troops of the 49th Georgia called on Kearny to halt, who responded by putting the spurs to his horse. Shots rang out and Maj Gen Phil Kearny fell dead.
Soon afterwards, fighting around Chantilly began to die down. Both sides received reinforcements, but neither side seemed interested in renewing the struggle. The Union forces pulled out that night, ending the vicious Battle of Chantilly that had cost them 1300 casualties and two of their best commanders. The Confederate army had suffered less, 800, but it had failed in its attempt at destroying the Union forces and contented itself with resting on its laurels, ending the Northern Virginia Campaign for good.
Ox Hill Battlefield Park, Chantilly, Virginia
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.
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)
A fast, capable road bike with a great build and killer paint job by Jordan at Hot Tubes. Photo by JP Bevins.
RAF Museum, Cosford.
BAe Harrier GR9A, ZG477.
The Harrier, informally referred to as the Jump Jet, is the famous family of British-designed military jet aircraft capable of vertical/short take-off and landing (V/STOL) operations. The Harrier family is the only truly successful design of this type from the many that arose in the 1960s.
There are four main versions of the Harrier family: Hawker Siddeley Harrier, British Aerospace Sea Harrier, Boeing/BAE Systems AV-8B Harrier II, and BAE Systems/Boeing Harrier II. The Hawker Siddeley Harrier is the first generation-version and is also known as the AV-8A Harrier. The Sea Harrier is a naval strike/air defence fighter. The AV-8B and BAE Harrier II are the US and British variants respectively of the second generation Harrier aircraft. Between 1969 and 2003, 824 Harrier variants were delivered, including remanufactured aircraft.
Historically the Harrier was developed to operate from ad-hoc facilities such as car parks or forest clearings, avoiding the need for large air bases vulnerable to tactical nuclear weapons. Later the design was adapted for use from aircraft carriers.
Following an approach by the Bristol Engine Company in 1957 that they were planning a directed thrust engine, Hawker Aircraft came up with a design for an aeroplane that could meet the NATO specification for a "Light Tactical Support Fighter". The resultant Hawker P.1127 was ordered as a prototype and flew in 1960.
Development continued with nine evaluation aircraft, the Hawker Siddeley Kestrel; These started flying in 1964 and were assessed by the "Tri-partite Evaluation Squadron" which consisted of British, US and German pilots, and several flew-and are preserved- in the United States. The RAF ordered a modified P.1127/Kestrel as the Harrier GR.1 in 1966, with most converted to uprated GR.1A and ultimately GR.3 status in the 1970s with more powerful engines. These and new-build GR3s operated with the RAF until 1994, and a number survive in museums around the world as well as frequent use as 'gate guards' at MoD establishments.
The British Aerospace Sea Harrier is a naval V/STOL jet fightof the Hawker Siddeley Harrier. The first version entered service with the Royal Navy's Fleet Air Arm in April 1980 as the Sea Harrier FRS.1, and was informally known as the 'Shar'. The upgraded Sea Harrier FA2 entered service in 1993. It was withdrawn from Royal Navy service in March 2006. The Sea Harrier FRS Mk.51 remains in active service with the Indian Navy.
The Harrier was extensively redeveloped by McDonnell Douglas and British Aerospace (now parts of Boeing and BAE Systems respectively), leading to the Boeing/BAE Systems AV-8B Harrier II. This is a family of second-generation V/STOL jet multi-role aircraft, including the British Aerospace-built Harrier GR5/GR7/GR9, which entered service in the mid-1980s. The AV-8B is primarily used for light attack or multi-role tasks, typically operated from small aircraft carriers. Versions are used by several NATO countries, including the Spanish and Italian Navies, and the United States.
The BAE Systems/Boeing Harrier II is a modified version of the AV-8B Harrier II that was used by the RAF and the Royal Navy until December 2010, when they were all retired from operational service due to defence cuts in favour of maintaining the remaining Tornado fleet, and stored serviceable at RAF Cottesmore. At the end of November 2011, the UK Government announced the sale of 72 remaining Harrier Airframes to the US Marine Corps for spares to support their AV-8B fleet, with the remaining two others being allocated to museums, including the airframe now at Cosford.
During World War II, both Great Britain and Germany had experimented with very large glider designs (the Hamlicar and Gigant, respectively) capable of carrying tanks. Though glider assaults had varied results during the war, the US Air Force briefly considered resurrecting the idea in 1948, and commissioned Chase Aircraft to build a large glider, the XCG-20 Avitruc. The XCG-20 was of all-metal construction, with a fully-equipped flight deck and a rear-mounted loading ramp for vehicles to be driven directly into the fuselage. The USAF abandoned the idea of glider assaults soon after the first XCG-20 was completed, but Chase had anticipated this: through the simple installation of two propeller-driven engines, the XCG-20 became the XC-123. This itself was considered only an interim design, as the XC-123A had four turbojet engines, becoming the first all-jet transport aircraft.
The USAF rejected the XC-123A, as it was found to have poor performance and short range, owing to the thirsty jets of the early 1950s. However, the piston-engined XC-123 showed promise, and the USAF ordered it into production in 1953. Production was delayed due to Chase Aircraft being acquired by Kaiser, who in turn sold the design to Fairchild Aircraft, who would produce it as the C-123B Provider.
The C-123 was considered a supplemental aircraft to the C-119 Flying Boxcar already in service and the soon-to-be-deployed C-130 Hercules. It had better single-engine performance than the C-119, and acquired a reputation for reliability, rugged design, simple maintenance, and the ability to land almost anywhere. A small number were converted to C-123J standard, with ski landing gear for operations in Antarctica and Greenland, and experiments were even made to convert it to an amphibian. Nevertheless, the number of C-123s in service were small compared to other types, and the C-130 began replacing it beginning in 1958.
As the United States involved itself more in the Vietnam War, one major advantage of its Viet Cong and North Vietnamese Army adversaries was the very jungle of Vietnam itself, which provided ready-made cover and camouflage from American air units. In an attempt to deprive the VC/NVA of jungle cover in known concentration areas, the USAF converted a number of C-123s to UC-123 standard, with spraying equipment for the pesticide Agent Orange. Under Operation Ranch Hand, UC-123s were among the first USAF aircraft deployed to Vietnam, and the first USAF aircraft lost in combat was a UC-123B. Spraying Agent Orange was very dangerous work, as it involved flying low and slow over hostile territory; it would not be until after the Vietnam War was over that it was learned that Agent Orange, used in the concentrated quantity employed in Vietnam, was also a deadly carcinogenic.
Besides their controversial employment as defoilant sprayers, standard C-123s were used as transports and Candlestick flareships, as the C-130 demand was exceeding supply, and the US Army’s CV-2 (later C-8) Caribous were proving the worth of a short-takeoff and landing transport. To improve the Provider’s performance in the “hot and high” conditions of Vietnam, two J85 turbojets were added beneath the wings of the C-123K variant, which became the final Provider variant and the main type used in Vietnam. CIA-flown Providers were used by Air America to clandestinely supply friendly Hmong tribes in Laos and in Cambodia. 54 C-123s were lost in Vietnam, second only to the C-130.
Following the end of American involvement in Vietnam, the C-123Ks were either handed over to South Vietnam or relegated to USAF Reserve and Air National Guard units, from which they were finally withdrawn around 1980. A few UC-123Ks were used to spray insecticides in Alaska and Guam as late as 1982. 11 other air forces used Providers, and the last C-123s were retired from the South Korean Air Force in 2001. 27 are preserved as museum pieces and a few remain in revenue service as “bush” aircraft in Alaska and elsewhere; remaining aircraft in storage were scrapped due to Agent Orange contamination.
C-123K 54-0612 was delivered to the USAF in 1955, and appears to have been probably assigned to the 309th Troop Carrier Group at Rhein-Main airbase, West Germany before being transferred to the 317th TCG at Evreux, France when the 309th was deactivated in 1958. While with the latter, 54-0612 was detached to the 1127th Field Activities Squadron at Leopoldville in the Congo, where it was used to supply and transport both Belgian and Congolese Army troops against the Simba Uprising of 1965. After the uprising was mostly quelled, 54-0612 returned to the United States and joined the 1st Air Commando Wing at Hurlburt Field, Florida, training both USAF and RVNAF crews in flying the C-123 in combat; it was upgraded to a C-123K. As the active duty USAF retired the Provider after Vietnam, 54-0612 made its last stop with the 302nd Tactical Airlift Wing (Reserve) at Rickenbacker AFB, Ohio, and was among the last C-123s to be retired in 1981. It was placed on display at the March Air Museum that year.
Though displayed in Southeast Asia camouflage for many years, recently 54-0612 was repainted in overall aluminum to simulate bare metal, the scheme that the aircraft would have carried during its time in Europe and the Congo. Though a little plain, it's an excellent restoration.
In the late 1940s, the newly independent US Air Force faced a number of challenges, two of which were paramount: developing a reliable strategic nuclear bomber, and developing interceptors capable of defending the United States from the Soviet Union’s strategic nuclear bombers. The USAF had a plan in mind—the so-called “1954 Interceptor” that would evolve into the F-102 Delta Dagger and F-106 Delta Dart—but these were still some years away. To bridge the gap, Northrop was developing the F-89 Scorpion, but delays to the Scorpion project meant that the United States was theoretically defenseless until it entered service. The USAF then called for interceptors that could be converted quickly from existing aircraft. This would evolve into two aircraft: the F-94 Starfire and F-86D Sabre Dog.
The F-86D started life as the F-95A. Unlike the F-94, which was a fairly straightforward conversion of the T-33A Shooting Star trainer into an interceptor, the F-95 was designed to be flown by one man. In previous dedicated interceptors, a two-man crew was deemed optimum, as the second man would operate the complicated radars of the day. A single-seat interceptor was unheard of, but as the 1954 Interceptor was also going to be a single-seat aircraft, the F-95 would provide valuable research into the concept. To achieve this, however, the fire control system would have to have advanced computers assisting the pilot.
Though it was based on the F-86 Sabre day fighter, the F-95 had less than 30 percent commonality with its parent design: the fuselage was deeper, wider, and longer; the intake had to be redesigned to accommodate the nose radar; the tail was larger; the engine was upgraded with an afterburner for quick takeoffs and climbs; and the canopy was changed to a hinged type rather than the sliding model on the F-86. The latter’s machine gun armament was deleted in favor of an underfuselage tray of 24 Mighty Mouse folding-fin aerial rockets (FFARs).
As the F-95 prototype neared completion, there was some thought that Congress might cancel the aircraft: it was redundant with the F-89 and F-94 also entering service. The F-95 did have the Sabre’s remarkable combat record behind it, and in a funding dodge, North American changed the designation from F-95 to F-86D, making it seem like just another Sabre variant, rather than the nearly entirely new aircraft that it was. This also earned the aircraft its informal nickname: Sabre Dog, based on the old phonetic alphabet for D.
Some pilots, however, claimed the Dog stood for the way the F-86D flew. While it did not have the same propensity to go into uncontrollable pitchups like the F-86 (which was known as the “Sabre Dance”), it could easily be overcorrected, with much the same fatal results. It was not as easy to fly as the “standard” F-86, and the fire control computer, as could be expected for an early 1950s aircraft, was not very reliable. An optical sight was provided for the pilot if the computer went down, which was frequently. Moreover, North American, operating in “emergency” mode, could turn out F-86Ds before Hughes could complete the fire control system. At one point, over 300 F-86Ds sat idle at the North American plant, waiting for computers. Because of the balky computer and the flying characteristics of the Sabre Dog, it was considered the most complicated aircraft to fly in the USAF, requiring a training syllabus matched only by the B-47 Stratojet.
The United States was not the only nation that needed interceptors, and several NATO nations requested F-86Ds of their own. The fire control system was considered too advanced for export, however, and instead it was downgraded to a simper version, the rocket tray was removed and replaced with four 20mm cannon, and it was supplied to friendly nations as the F-86K. While still not the easiest aircraft to fly, the pilot had a better chance of scoring a kill with the more accurate cannon, and the F-86K was successful in NATO service. Subsequently, a number of F-86Ds were returned to North American, undergoing an avionics upgrade, a simpler cockpit layout, and extended wingtips. This resulted in the F-86L, which was used by several Air National Guard interceptor units into the mid-1960s. While American Sabre Dogs only carried rockets, foreign aircraft were modified to carry AIM-9 Sidewinders later. 16 foreign air forces flew Sabre Dogs.
2847 F-86D and associated variants were built, and were the most prolific interceptor in the West during the late 1950s and early 1960s. Most were replaced by more advanced aircraft beginning in the mid-1960s, but a few Yugoslavian F-86Ks soldiered on into the early 1980s. None were ever involved in combat. Today, a handful remain in museums.
53-0997, shown here, was built originally as a F-86D for the USAF, but sometime around 1957, it was modified to a F-86L. It went on to serve with the 151st Fighter-Interceptor Group (Utah ANG) at Salt Lake City International Airport. When the 151st converted to transports, its F-86Ls were retired. 53-0997 was then donated to the city of Butte, Montana, and placed on display at Bert Mooney Airport. The F-86L was never flown by the Montana ANG, so why the city of Butte decided to acquire this aircraft is unknown.
Though it inaccurately carries a "USAF" legend beneath the canopy, 53-0997 has weathered Butte's notorious winters comparatively well. It is displayed with the rocket tray in firing position, which is somewhat unusual for an F-86D/L on display. The large international orange panels were carried on some ANG aircraft operationally.
I had known about the "Butte Sabre" for years, but this year was the first time I had a chance to photograph, as I passed through Butte on the way home from Arizona on a very rainy evening.