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DAY 2 of the Formula Ford 50th Anniversary Race Weekend and after a Really Fast Action Packed array of Cars in both Mazda and Formula Ford Racing and Qualifying on Saturday it was time for Sunday and to find out who would be Crowned the Formula Ford Champion of 2021.
AMOC GT / GT4 & Intermarque (Qualifying)
First up on the Sunday for Qualifying was The AMOC GT/GT4 Championship and with a Grid of Just 5 Cars for this One its going to be Very Interesting to see out of the 5 Drivers who Can set the Quickest Pace During Qualifying. Lets Find Out who took Pole and the Fastest Lap.
In First Place taking Pole Position and the Fastest Lap was the Duo Pair of Rikki Cann and Samuel Wilson) in their Aston Martin V8 Vantage with a Best Lap Time of 1:00.791 and a Top Speed of 71.53mph. Fantastic Work both Ricky and Rob Really Pushing the Aston Martin Hard and Gunning fort that All Important Victory come the First Race.
In Second Place was (Jamie Sturges) in his VW Golf TCR with a Best Lap Time of 1:03.245 and a Top Speed of 68.75mph. Amazing Work there Jamie Pushing that Golf and Racing it Like a Pro.
In Third Place was the Duo of (Whit and Fenn) in their Lotus Elise Motorsport with a Best Lap Time of 1:04.089 and a Top Speed of 67.85mph. Great Work there Whit and Fenn Fantastic Driving and Great Team Work.
Three Very Quick and Capable Cars in the Hands of Some Very Competitive Drivers will make for a Really Fantastic Race. With all three Cars Having Different Power Outputs it will be Interesting to see what Techniques Each of them will use to their Advantage Come the First Race.
AMOC GT / GT4 & Intermarque (Race 1)
After a Very Quick and Heated Qualifying Session which saw the Duo of Rikki Cann and Samuel Wilson Take Pole Position will Jamie and the Duo of Whit and Fenn be able to Beat them off the Line and Who Will Take Home their First Victory of the Weekend?
In First Place Taking the Victory was (Rikki Cann) in his Aston Martin V8 Vantage with a Best Lap Time of 58.194 and an Average Speed of 73.41mph. Amazing Job there Ricky Really Working Hard Behind the Wheel to Keep that Aston in the Lead Thought the Entire Race with some Beautifully Controlled Driving as well.
In Second Place was (Andy Thompson) in his Seat Toledo with a Best Lap Time of 57.893 and an Average Speed of 73.35mph. Incredible Drive there Andy Really Well Done and Making sure to hold onto that All Important Second Place.
In Third Place was (Paul Whight) in his Lotus Elise Motorsport with a Best Lap Time of 57.284 and an Average Speed of 72.75mph. Superb Drive from Paul Really Looked like he was Enjoying that Drive and Kept Pushing Hard the Whole Way around the Race Track. His Smooth Driving Through Clearways was Amazing to see.
What an Amazing First Race for the AMOC GT Championship with Many Different Cars from Many different Manufacturers Taking Part it always a Joy to see both the Cars and their Drivers Happy Doing what they Love to do. With One Last Race to go will the Likes of Rikki Cann's Teammate Samuel Wilson be able to Hold on and Get One More Victory for the Team? Lets Find Out.
AMOC GT / GT4 & Intermarque (Race 2 FINAL)
In First Place taking the Final Win of the Day for AMOC GT was (Rob Fenn) in his Lotus Elise Motorsport) with a Best Lap Time of 50.083 and an Average Speed of 83.82mph. Congratulations Rob what a Drive and What a Car Fantastic Work.
In Second Place was (Samuel Wilson) in his Aston Martin V8 Vantage with a Best Lap Time of 51.459 and an Average Speed of 80.50mph. Amazing Driving there Samuel Keeping Close to Rob on Many Occasions around the Circuit and a Cracking Overtake on Rob through Clearways.
In Third Place was (Julian Reddyhough) in his Aston Martin Vantage with a Best Lap Time of 59.552 and an Average Speed of 71.18mph. Super Driving From Julian Smooth through the Corners and Making sure to Hang onto that Third Place During the Entirety of the Race.
A Really Fantastic Two Races for the AMOC GT Championship here this Weekend while the Grid might not have been up to Full Capacity We saw the Likes of Rob Fenn Samuel Wilson Rikki Cann and Julian Reddyhough take some Incredible Victories thought the Two Races. Congratulations to All of you and Good Luck to all other Drivers who were Taking Part. Keep Pushing Hard and Victory Will Come to You.
BRSCC Mazda MX5 Championship (Race 1)
Next Up was the BRSCC Mazda MX5 Championship and with Saturdays Qualifying showing a Huge Grid of 35 Cars this was Definitely going to be a Fantastic Race to Witness. Lets get right to it and Find Out who Took Victory and by How Much.
In First Place taking the Victory was (Brian Trott) in his Mazda MX5 MK1 with a Best Lap Time of 58.179 and an Average Speed of 73.82mph. Super Work there Brain Racing Against another 34 Competitors in Identical Cars and Winning takes Incredible Driver Skill and Talent and you Really Showed that During the Race. Congratulations.
In Second Place was (Oliver Allwood) in his Mazda MX5 MK1 with a Best Lap Time of 57.532 and an Average Speed of 73.81mph. Well Done Oliver Fantastic Driving and a Really Great Defence of Second Place thought the entire Race.
In Third Place was (Zak Oates) in his Mazda MX5 MK1 with a Best Lap Time of 58.020 and an Average Speed of 73.79mph. Really Nice Work there Zak Amazing Drive and Keeping Very Close to Oliver and Brain at the Front of the Gird thought. Brilliant Driving.
What a Race with Three Incredible Drivers in the likes of Brian Oliver and Zak All Pushing their Cars to the Limit and Achieving Superb Results for Race 1. Good Luck to all other Drivers Lets See if Race 2 of the Day Might Turn things Around.
BRSCC Mazda MX5 Championship (Race 2)
After a Thrilling and Nail Biting Race 1 which saw Brian Trott take the Victory with Oliver Allwood in Second and Zak Oates in Third Place will anyone Else be able to Challenge thease Three Very Fast and Talented Drivers? Lets Find Out.
In First Place taking the Overall Victory was (Steve Foden) in his Mazda MX5 MK1 with a Best Lap Time of 1:07.517 and an Average Speed of 63.32mph. Congratulations Steve a Well Deserved Victory and Another Brilliant Trophy to add to the Cabinet at Home. Congratulations.
In Second Place was (Oliver Allwood) in his Mazda MX5 MK1 with a Best Lap Time of 1:07.789 and an Average Speed of 63.17mph. Brilliant Work Once Again Oliver taking Second Place and Racing with Everything you could Possibly Get out of that Car. A Future Mazda Champion in the Making no Doubt. Brilliant Drive.
In Third Place was (Luke Pullen) in his Mazda MX5 MK1 with a Best Lap Time of 1:07.835 and an Average Speed of 63.14mph. Well Done Luke Really Fantastic Driving in Very Damp and Bright Conditions.
Another Amazing Race for the Mazda MX5 Championship with the Likes of Steve Foden Oliver Allwood and Luke Pullen all taking Incredible Victories thought Race 2 and Standing on the Podium. Keep Up the Amazing Work you Three and to Everyone Else Keep Working Towards Those Goals of Victory and Success.
With One Final Race Coming Up will Steve Foden be able to Hang on and Take Another Victory for 1st Place or will the Likes of Luke and Oliver try to Steal it away from Him? Lets Find Out.
BRSCC Mazda MX5 Championship (Race 3 FINAL)
In First Place taking the Last Victory of the Day for the BRSCC Mazda MX5 Championship was (Michael Knibbs) in his Mazda MX5 MK1 with a Best Lap Time of 58.656 and an Average Speed of 72.84mph. Congratulations Michael A Very Strong Drive with a Lot of Ambition Behind the Wheel. What a Fantastic Way to End off the Weekend.
In Second Place was (Jack Brewer in his Mazda MX5 MK1 with a Best Lap Time of 57.970 and an Average Speed of 72.82mph. Great Drive Jack Pushing Hard and Making Sure to Keep Up with Michael at the Front of the Grid. A Very Committed and Determined Drive.
In Third Place was (Brian Trott) in his Mazda MX5 MK1 with a Best Lap Time of 58.293 and an Average Speed of 72.75mph. Well Done Brian Great Driving and it looked like you were Having a lot of Fun out there and always Remember that its the Love and the Passion that Counts not Just The Race Victory.
What a Weekend it has been for the BRSCC Mazda MX5 Championship. We Have Witnessed Many Talented Drivers from the Likes of Brain Trott and Jack Brewer to Steve Foden and Oliver Allwood as well as Zak Oates. All thease Incredible People Come Here every Year to Share their Passions for what they Love not Just with the Teams and Crew but also the Spectators. Here's to Hoping that a New Generation can be Inspired to follow in their Footsteps and Keep the Legacy of this Great Racing Series Going Now and Well into the Future.
BRSCC Mazda MX5 SuperCup Championship (Race 2)
The Mazda MX5 Super Cup Championship was next Up and after A Whole Day of Qualifying and Qualifying Second Fastest on Saturday it was time to see what Each of the Drivers could do and How they would use their Style and Race Craft to Gain a Victory. With Another Large Grid of 30 Cars Anything Can Happen and Racing always has its Moments of Unpredictability.
In First Place taking the Victory was (Declan Lee) in his Mazda MX5 MK3 with a Best Lap Time of 1:07.272 and an Average Speed of 45.71mph. What a Drive from Declan in Very Wet and Near Impossible Visibility Conditions He Kept his Foot Down and Head up to Take an Incredible Victory. Congratulations Declan.
In Second Place was (Richard Amos) in his Mazda MX5 MK3 with a Best Lap Time of 1:06.697 and an Average Speed of 45.70mph. Brilliant Driving there Richard Keep Pace with Declan Really Well and Navigating in Almost Blind Conditions shows Just How Incredible of a Driver you are.
In Third Place was (John Langridge) in his Mazda MX5 MK3 with a Best Lap Time of 1:07.831 and an Average Speed of 45.68mph. Brilliant Work out there John a True Rain Master of Brands Hatch Keeping the Car on Track and some Truly Incredible Pace from you.
What an Insane Race with Wet and Rainy Weather Conditions Really Mixing the Grid Up and Showing who the Very Talented Drivers are that can Push their Machinery Beyond its Limits in the Wet and Still take Victory. Some Incredible Drivers in the likes of Declan Richard and John Braving it out there to Deliver some Truly Fantastic Wet Weather Performances. Well Done to all the other Drivers as Well thease Conditions are Always Unpredictable and Yet you All put on a Brave Face and Drive like true Gentlemen Thought.
With Race 3 The Final Race Coming up who will be able to take the Last Podium for Mazda SuperCup? Lets Find Out.
BRSCC Mazda MX5 SuperCup Championship (Race 3 FINAL)
The FINAL Race for Mazda SuperCup and with Some Incredible Racing Witnessed in the Rain in the Previous Race would this Last Race Shake things up further? Lets See.
In First Place Taking the Victory was (Jack Harding) in his Mazda MX5 MK3 with a Best Lap Time of 56.785 and an Average Speed of 61.14mph. Super Work there Jack Taking the Victory and the Fastest Lap. Well Done.
In Second Place was (Patrick Fletcher) in his Mazda MX5 MK3 with a Best Lap Time of 56.820 and an Average Speed of 61.05mph. Great Work there Patrick Really Great Effort and a Super Drive for Second Place.
In Third Place was (James Cossins) in his Mazda MX5 MK3 with a Best Lap Time of 56.839 and an Average Speed of 61.04mph. Amazing Driving there James Racing Hard and Holding on Tightly to that All Important Third Place Finish.
Another Incredible Set of Races from the Mazda's to Round of a Brilliant Days Racing for All Drivers Competing in the Mazda Classes. Another set of Incredible Victories for the likes of Jack Patrick and James who all showed their Talent Skill and Determination for Victory.
However We are Not Done Yet as the Grand Finale of Races for this Weekends Formula Ford Championship is Coming Up Next and After a Hectic and Very Competitive Day of both Qualifying and Racing on Saturday With Multiple Races to be Decided Who would be Crowed the Formula Ford Festival Champion?
BRSCC Formula Ford Festival (Semi Final Race 1 Result)
Here we are Now at The Semi Finals after a Very Action Packed Last Chance Race and Now with a Gird of 26 Drivers and Cars This Race as Well as Two More Will Decide the 2021 Formula Ford Champion. Lets See First Who Took Victory in Race 1 for the Semi Finals.
In First Place was (Niall Murray) in his Van Diemen BD21 with a Best Lap Time of 1:01.661 and an Average Speed of 56.48mph. Brilliant Work Niall Congratulations on P1 after a Heroic Drive.
In Second Place was (Neil McLennan) in his Spectrum KMR with a Best Lap Time of 1:01.640 and an Average Speed of 56.41mph. Superb Work there from Neil to take P2 He Really Enjoys this Track and Loves to Race as Quickly as he Can alongside his Fellow Friends and Competitors.
In Third Place was (Jamie Sharp) in his Medina Sport JL17 with a Best Lap Time of 1:01.157 and an Average Speed of 56.37mph. Congratulations Jamie a Really Fantastic Drive and Keeping Very Close to Neil During the Whole Race. Here's Hoping for an Epic Duel in the FINALE Between you two.
With the First of Two Semi Final Races Over Niall Murray is the Winner with Neil McLennan in Second Place and Jamie Sharp in Third Place. Currently Jamie Can Still Win the Championship but will both the likes of Neil and Nial try Something in Race 2 of the Semi Finals to Gain Back their Chances of Becoming Champion? Lets Find Out.
BRSCC Formula Ford Festival (Semi Final Race 2 Result)
In First Place was (Joey Foster) in his Firman 2021 with a Best Lap Time of 1:01.302 and an Average Speed of 69.96mph. Fantastic Driving Joey Really Well Done and a Super Victory for you Indeed.
In Second Place was (Oliver White) in his Medina Sport JL17 with a Best Lap Time of 1:01.124 and an Average Speed of 69.67mph. Congratulations Oliver P2 and Super Car Control During the Race and a Stunning Formula Ford.
In Third Place was (Thomas Mills) in his Spectrum KMR with a Best Lap Time of 1:01.154 and an Average Speed of 69.66mph. Fantastic Work Thomas Well Driven with Amazing Car Control and Tight through the Corners at Clearways.
Another Brilliant Final for Formula Ford with the Likes of Joey Oliver and Thomas all Taking Victories. A Huge Congratulations to Everyone Else who was also Competing in both of Thease Finals. Keep Working on the Car and Training as Much as you can To Improve Lap Times and Strike when the Moment is right on Track for Victory.
BRSCC Formula Ford Festival (GRAND FINAL) (GRAND FINAL CHAMPIONSHIP RACE RESULTS ONLY NOT OVERALL FORMULA FORD 2021 GRAND FINAL CHAMPIONSHIP RESULTS)
This is it the Grand Final of the Formula Ford Festival Race Weekend and With Jamie Sharp Being Potentially One Race away From Taking the Title it has come down to the wire and this Last Race will Determined who The New Formula Ford Grand Final Champion of 2021 is.
In First Place Taking the Grand Final Championship Crown is (Jamie Sharp) in his Medina Sport JL17 with a Best Lap Time of 50.918 and an Average Speed of 66.77mph. Congratulations Jamie a Truly Champion Like Drive to Secure The Title of 2021 Formula Ford Grand Final Champion and Some Brilliant Drives all Season for a Well Deserved Victory in Formula Ford.
In Second Place was (Maxwell Esterson) in his Ray GR18 with a Best Lap Time of 51.116 and an Average Speed of 66.76mph. A Truly Competitive Drive there Maxwell Second in The Championship Standings and Something to be Very Proud of Phenomenal Driving.
In Third Place was (Andre Castro) in his Ray GR15 with a Best Lap Time of 51.137 and an Average Speed of 66.73mph. Superb Driving there Andre with P3 in the Standings and a Well Deserved Place in Formula Ford History.
Jamie Sharp is The New 2021 Formula Ford Grand Final Champion After a Heroic Battle Thought the Season He has Emerged Victorious. Congratulations Jamie you Really Deserve This Championship and all the Hard Work you Have done has Really Paid off. Both Maxwell and Andre also Did a Phenomenal Job and together All Three of you will Make History and Inspire Future Generations to come and Have a Go at Formula Ford.
Now Lets take a Look at the Overall GRAND FINAL Championship Standings for Formula Ford 2021
In First Position was (Jamie Sharp) in his Medina Sport JL17
In Second Position was (Neil McClennan) in his Spectrum KMR
In Third Position was (Maxwell Esterson) in his Ray GR 18
The Overall Formula Ford National Championship Pro 2021 was Won by (Chris Middlehurst) in his Van Diemen LA10 with 433 Points A Really Incredible Achievement Chris and a Strong Drive Thought The Whole Season
In Second Place on 431 Points was (Alex Walker) in his Spectrum 011 Superb Job there Alex Well Deserved
In Third Place on 414 Points was (Max Esterson) in his Ray GR18 Fantastic Work Max Phenomenal Driving Thought The Season
And This Concludes The Weekend at Brands Hatch's Formula Ford 50th Anniversary Weekend. This Weekend will be Remembered for a Long Time Coming and to All The Drivers who Took the Crowns in their Respective Championships. Congratulations. To All other Drivers Keep Working at it your Time Will Come.
See You All Again Next Year for Another Competitive and no Doubt Incredible Season of Formula Ford Racing at Brands Hatch.
30' (foot) surf rescue boat
Another surf capable boat that the Coast Guard has used in recent years is the 30' surf rescue boat (SRB) introduced in 1983.[14] The 30' SRB was self righting and self bailing and designed with marked differences from the typical lifeboats used by the Coast Guard up until the early 1980s. The 30' SRB is not considered to be a MLB, but was generally used in a similar capacity. Designed to perform search and rescue in adverse weather the vessel is generally operated with a crew of two, a surfman and an engineer. The crew both stand on the coxswain flat, protected by the superstructure on the bow and stern. The boat's appearance has caused many to comment that it looks like a "Nike Tennis Shoe".
Since 1997 the introduction of the faster 47' MLB and the phasing out of the 44' MLBs made the 30 footers obsolete. The class of vessels underwent an overhaul in the early nineties to extend their life until the newer and faster 47' motor lifeboats came into service, and in the late 1990s most of the 30 footers were de-commissioned. One still remains on active duty at Motor Lifeboat Station Depoe Bay in Depoe Bay, Oregon and is used almost daily. This station was host to the last 36' motor lifeboat in the late 1980s
1991
The F-111 was a long-range, all-weather strike aircraft capable of navigating at low level to destroy targets deep in enemy territory. The versatile F-111 Aardvark entered the U.S. Air Force inventory in 1967,and the fighter version was retired in 1996 (the electronic warfare EF-111A served until 1998). The aircraft was originally conceived in 1960 to combine the USAF requirement for a fighter-bomber with Navy's need for an air-superiority fighter, though the Navy eventually cancelled its program.
Primarily a bomber, the F-111 featured a sweep wing varying between 16 degrees and 72.5 degrees, with side-by-side seating for a pilot and weapons systems officer. The F-111's wings are straight for take-offs, landings or slow speed flight; by sweeping its wings rearward, it could exceed twice the speed of sound (Mach 2). The F-111F was equipped with an all-weather AN/AVQ-26 Pave Tack infra-red targeting designator/reader carried in a pod-mounted turret under the fuselage. It could track and designate ground targets for targets for laser, infra-red and electro-optical bombs. The F-111F was one of the most effective Allied aircraft in Operation Desert Storm (1991), flying more than 2,400 sorties against Iraqi strategic sites, vehicle formations and hardened bunkers.
In all, 566 F-111s of all series were built; 106 of them were production F-111Fs. The F-111F on display arrived at the museum in May 1996.
TECHNICAL NOTES:
Armament: One 20mm M61A1 Vulcan cannon, plus a mix of up to 24 conventional or nuclear weapons
Engines: Two Pratt & Whitney TF30-P-100s of 25,000 lbs. thrust each with afterburner
Maximum speed: 1,452 mph
Range: 2,971 miles
Span: 32 ft. swept, 63 ft. extended
Length: 73 ft. 6 in.
Height: 17 ft.
Weight: 100,000+ lbs. maximum
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)
OiOS Desktop
Imagine a UNIX based Enterprise Operating System, a scalable universally collaborative stable business platform capable of running on Sparc or x86 Systems. Delivering support for Cloud enterprise features, ZFS file systems, Virtualisation, Advanced Security, and Compatibility. Enabling you to build new possibilities, enter new markets and harness human relationships in Open Source across the world. Whether you are a Systems Administrator, Recreational User or Information Technology Professional, OiOS supports the new economics of highly creative, diversified ways of doing business, and building networks.
OiOS Server
Imagine a UNIX based Enterprise Operating System, a scalable universally collaborative stable business platform capable of running on Sparc or x86 Systems. Delivering support for Cloud enterprise features, ZFS file systems, Virtualisation, Advanced Security, and Compatibility. Enabling you to build new possibilities, enter new markets and harness human relationships in Open Source across the world. Whether you are a Systems Administrator, Business, or Information Technology Professional, OiOS supports the new economics of highly creative, diversified ways of doing business, and building networks.
OiOS 151a8 Increased migration by world exchanges financial exchanges to Unix and Linux opens development to stock trading platform giving more opportunities to run software on more stable Unix platforms
Free open source enterprise systems available on live DVD or USB stick
Professionals Join in @
- Openindiana.org
- #openindiana on irc.freenode.net
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.
The Convair B-58 Hustler was the first operational supersonic jet bomber, and the first capable of Mach 2 flight. The aircraft was developed for the United States Air Force for service in the Strategic Air Command (SAC) during the 1960s. Originally intended to fly at high altitudes and speeds to avoid Soviet fighters, the introduction of highly accurate Soviet surface-to-air missiles forced the B-58 into a low-level penetration role that severely limited its range and strategic value. This led to a brief operational career between 1960 and 1969. Its specialized role was succeeded by other American supersonic bombers, such as the FB-111A and the later B-1B Lancer.
The B-58 received a great deal of notoriety due to its sonic boom, which was often heard by the public as it passed overhead in supersonic flight.
This aircraft flew from Los Angeles to New York and back on 5 March 1962, setting three separate speed records, and earning the crew the Bendix Trophy and the Mackay Trophy for 1962. The aircraft was flown to the Museum on 1 March 1969.
General characteristics
* Crew: 3: pilot; observer (navigator, radar operator, bombardier); defense system operator (DSO; electronic countermeasures operator and pilot assistant).
* Length: 96 ft 10 in (29.5 m)
* Wingspan: 56 ft 9 in (17.3 m)
* Height: 29 ft 11 in (8.9 m)
* Wing area: 1,542 ft² (143.3 m²)
* Airfoil: NACA 0003.46-64.069 root, NACA 0004.08-63 tip
* Empty weight: 55,560 lb (25,200 kg)
* Loaded weight: 67,871 lb (30,786 kg)
* Max takeoff weight: 176,890 lb (80,240 kg)
* Powerplant: 4× General Electric J79-GE-5A turbojet
* *Zero-lift drag coefficient: 0.0068
* Drag area: 10.49 ft² (0.97 m²)
* Aspect ratio: 2.09
Performance
* Maximum speed: Mach 2.0 (1,319mph) at 40,000 ft (12,000 m)
* Cruise speed: 610 mph (530 kn, 985 km/h)
* Combat radius: 1,740 mi (1,510 nmi, 3,220 km)
* Ferry range: 4,100 mi (4,700 nmi, 7,600 km)
* Service ceiling: 63,400 ft (19,300 m)
* Rate of climb: 17,400 ft/min (88 m/s) at gross weight[30]
* Wing loading: 44.0 lb/ft² (215 kg/m²)
* Thrust/weight: 0.919 lbf/lb
* Lift-to-drag ratio: 11.3 (without weapons/fuel pod)
Armament
* Guns: 1× 20 mm (0.79 in) T171 cannon[29]
* Bombs: 4× B-43 or B61 nuclear bombs; maximum weapons load was 19,450 lb (8,820 kg)
The F-102 Delta Dagger was the first operational Mach 1 capable supersonic, all-weather interceptor in the United States Air Force. Manufactured by the Convair division of General Dynamics in San Diego, California its signature wasp-waisted delta-wing design found its inspiration in technology developed by German scientists during the Second World War. Entering duty in April 1956, during the height of the Cold War, the F-102's high-altitude and high-speed capabilities provided an effective solution to the threat poised by the massive Soviet bomber force.
The F-102 used an internal weapons bay to carry up to six AIM-4 infa-red or radar guided missiles and rockets. Delta Daggers, more commonly known as "Deuces", saw limited operational use in Southeast Asia from March 1962 to December 1969 in its primary role as an air defense interceptor and in an additional mission as an escort fighter for B-52 Stratofortress bombers. A single F-102 was lost to a North Vietnamese MiG-21 in air-to-air combat; fourteen others were lost to a combination of ground fire and accidents.
Over 1,000 F-102s were accepted into the U.S. inventory, flying for two decades until their gradual replacement by the Mach 2 capable F-106 Delta Dart. Over 200 F-102s were subsequently converted for use as target drones (QF-102A or PQM-102A).
The museum's F-102A, serial number 56-1114, entered the active service in May 1957. It was stationed with the 52nd Fighter Group at Suffolk County AFB, NY, the 79th Fighter Group, Youngstow, OH and the 1st Fighter Group, Selfridge AFB, MI. In December 1960, the aircraft was transferred to the114th Fighter Group (ANG), Sioux Fall, SD and finally to the 114th Fighter Group (ANG), Fresno, CA. where it was retired in 1970 and moved into storage at Davis-Monthan AFB, AZ.
In 1988, aircraft 56-1114 was mounted on a pedestal and placed on static display in front of the South West Air Division Operations Center at March AFB. In 1996, the aircraft was removed from the pedestal; by October 2000, the aircraft was restored for display at the MFAM. This aircraft is on loan from the USAF.
Former President, George W. Bush, was an F-102 pilot when he was in the Air National Guard. To recognize his service, the museum has placed the name "Lt George W. Bush" on the canopy frame of aircraft 56-1114.
-March Field Air Museum website (www.marchfield.org/)
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)
Though the US Navy reconsidered its decision to retire the AD Skyraider after the Korean War, it was still a piston-engined attack aircraft designed during World War II, while the Navy preferred going to a modern, all-jet attack/fighter fleet. To supplement and then replace the AD, the Navy issued a requirement for a jet attack fighter weighing no more than 48,000 pounds, capable of carrying tactical nuclear weapons, and with a speed of at least 550 miles an hour. The Navy was not surprised when Douglas’ chief designer, Edward Heinemann, submitted a proposal for a delta-winged, light attack jet—they were surprised to find that it met all of the requirements, yet weighed in at only 23,000 pounds, less than half the required weight. It was also so small that it did not need folding wings to fit on aircraft carrier elevators. Heinemann deliberately omitted as much weight as possible to bring the aircraft in under weight, and subsequently, at a lower unit cost than anticipated. One part of this effort was external structural ribbing for the rudder; this “temporary” solution would be used on every aircraft produced.
Heinemann’s design was quickly ordered by the Navy as the A4D Skyhawk. The first A4D-1 flew in June 1952, with deliveries to the fleet beginning in 1956. Pilots used to the increasingly larger and more powerful aircraft the US Navy fielded in the late 1950s, such as the F3H Demon and F4H Phantom II, were surprised at the diminutive A4D, which looked toylike on the decks of Forrestal-class supercarriers. It quickly earned the nicknames “Tinkertoy Bomber,” “Scooter,” and “Heinemann’s Hot Rod.”
The Skyhawk—redesignated A-4 in 1962—also quickly gained a reputation for reliability and nimbleness. Despite its small size, it could carry its own weight in bombs and still turn inside anything in the inventory, even the purpose-built F-8 Crusader fighter. For this reason, the Navy began assigning A-4C Skyhawks as “emergency fighter” detachments to Essex-class antisubmarine carriers, as these ships, still equipped with World War II-era hydraulic catapults and limited in deck space, could not carry the more modern F-4. Besides their internal 20mm cannon, A-4s could also carry up to four Sidewinder missiles.
It would be in the Vietnam War that the A-4 would prove its worth. Besides its large bombload and superb manuverability, the Skyhawk was also found to be able to take considerable punishment. Several A-4s returned to their carriers missing pieces of rudder or with holes shot through the wings. At the beginning of American involvement, the Navy began replacing the older A-4C “short-nose” models with the improved A-4E, which added a fifth hardpoint and a longer nose with more advanced avionics; this was quickly supplemented by the A-4F, which added a dorsal hump with still more avionics and ECM equipment.
Until the A-7 Corsair II began arriving in the fleet in the late 1960s, the A-4 represented the backbone of naval light attack units, operating alongside the A-6 Intruder in striking targets throughout Southeast Asia. On land, A-4s served with Marine Corps units, and proved so reliable and well-liked that the Marines decided not to use the A-7 at all. The Skyhawk also proved itself to be adaptable to other missions: A-4s carried out the US Navy’s first precision strike mission, a 1967 attack on the Hanoi thermal powerplant with AGM-62 Walleye missiles, and also served as Wild Weasel/Iron Hand suppression of enemy air defense aircraft, armed with AGM-45 Shrikes.
Though they were slower than the F-4 and F-8, and lacked the A-6’s ability to fly in the worst of inclement weather, the Skyhawk was not defenseless against enemy MiGs: it was the only American aircraft that could turn with a MiG-17 if it was “clean” of bombs, and only one A-4 was lost to enemy aircraft during the Vietnam War. In turn, one A-4, piloted by Lieutenant Commander Ted Schwartz, shot down a MiG-17 with Zuni rockets in 1967. Skyhawks would drop the first and last bombs of US Navy aircraft in the Vietnam War, and flew more sorties than any other naval aircraft—and paid a commensurate price: 362 Skyhawks were shot down or lost in accidents during the war, the most of any one type. Two A-4 pilots won the Medal of Honor during Vietnam, James Stockdale and Michael Estocin, the latter posthumously; longtime prisoner of war Everett Alvarez Jr. was also an A-4 pilot, as was fellow POW and later Presidential candidate, John McCain.
The A-4’s story did not end with Vietnam. Recognizing its superb manueverability, the US Navy began building adversary units with Skyhawks simulating the MiG-17 as part of the Top Gun program, beginning in 1969. These stripped down “Mongoose” A-4s proved to be a match even against far more advanced F-14 Tomcats and F-18 Hornets, and A-4s remained in the adversary role until 1998. Alongside these aircraft, the Navy used two-seat TA-4J Skyhawks as advanced trainers until 2003, while Marine units continued to use the penultimate A-4M Skyhawk in the light attack role until after the First Gulf War in 1991; Marine OA-4M “fast FAC” forward air control aircraft flew as late as 1998. The TA-4J was replaced by the T-45 Goshawk; there has never truly been a replacement for the A-4E adversaries and A-4M light attack aircraft, though the AV-8B Harrier supplemented them.
While Vietnam was the last war for American Skyhawks, foreign users would put the aircraft to further use. Israel would use their A-4H/Ns in the Yom Kippur War with heavy casualties, due to more advanced Egyptian and Syrian air defenses; better luck was had in the Lebanon War of 1982. Argentina’s A-4B/Qs saw extensive service over the Falklands in 1982, impressing even their British adversaries with hair-raising low-level bomb runs against British ships in San Carlos Water: though the Argentine aircraft took severe punishment from Fleet Air Arm Sea Harriers, they also sank or damaged five ships. Finally, Kuwait used their A-4KU Skyhawks from the beginning of the First Gulf War.
Overall, 2960 A-4s were produced and flew with the air arms of eleven nations. Still others survive as government contract aggressor aircraft, or in private hands, while many are preserved in museums.
Though I originally misidentified this as an A-4M, it's actually an A-4L--BuNo 150586, built as an A-4C. (Because that's not confusing.) It joined VMA-223 ("Bulldogs") in 1962 at MCAS Cherry Point, North Carolina. In 1964, it transferred to VMA-214 (the famous "Black Sheep") and saw combat over Vietnam, flying from Chu Lai. In 1968, 150586 went to the Navy and VA-95 ("Green Lizards") aboard the USS John F. Kennedy (CVA-67). In 1970, it was converted to an A-4L and returned first to the Marines with VMA-142 ("Flying Gators") at NAS Jacksonville, Florida, and then ended with the Navy and VC-12 ("Fighting Omars") at NAS Oceana, Virginia, acting as an adversary aircraft.
150586 was retired in 1977, but its flying days were not over. It was bailed to Tracor Flight Systems as N403FS, acting as a target tug and chase aircraft. Its flying days finally came to an end in 1985, and it was stored at MASDC in Arizona. In 2010, it was recovered, moved to MCAS Yuma, and restored in the colors of VMA-214, as the squadron's colors appeared in the 1980s while in A-4Ms. (When 150586 was with VMA-214, it was still a "flatback" A-4C.)
Still, it's always good to see a Black Sheep A-4, althought 150586 could use a touchup here and there. It's displayed at MCAS Yuma's airpark, though at an angle that makes photographing through a fence very difficult.
***UPDATE*** Jen has officially kickstarted the summer with a healthy addcition to Paul McCobb. I was jazzed to help fuel her passion. Thanks!
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.
From Edmunds (http://www.edmunds.com/lexus/gx470/2007/review.html) -
Pros
Rugged and capable off-road, comprehensively equipped interior, luxurious cabin furnishings.
Cons
Very tight quarters in optional third-row seat, side-hinged cargo door impedes curbside loading.
What's New for 2007
A few detail changes to onboard entertainment systems mark this midsize luxury SUV's transition into the 2007 model year. The optional navigation system has been upgraded with "fifth-generation" technology that includes voice activation for many functions, an improved display and an input jack for plumbing in devices like an iPod. The Mark Levinson Premium Audio System that resides alongside the navigation system can now play DVDs while displaying video on the navigation screen when the vehicle is parked. Additionally, the optional rear-seat entertainment system's video screen has been expanded to 9 inches wide.
Introduction
Entering its fifth year of production, the 2007 Lexus GX 470 remains the brand's middle SUV offering, sandwiched between the car-based RX 350 crossover and full-size LX 470. While it's not much larger than the RX, it's built more like the LX with a full ladder frame, a stout suspension and an all-wheel-drive system that includes a dual-range transfer case. In fact, the GX shares its 263-horsepower, 4.7-liter, DOHC, 32-valve V8 and five-speed automatic transmission with the more expensive LX.
The GX 470 is based on Toyota's Land Cruiser Prado platform: the same structural and mechanical base upon which the 4Runner and FJ Cruiser are erected. It's an exceptionally capable and rugged platform that manages the neat trick of supplying excellent on-road comfort and solid off-road performance.
But just because the 2007 Lexus GX 470 shares much of its engineering with the 4Runner and FJ Cruiser doesn't mean it feels like either of them. This is a truly luxurious machine that packs all the creature comforts expected of a Lexus into its body and covers most anything any human might touch in supple, perfectly stitched leather. In fact, it's so overstuffed with luxury equipment that the dashboard can seem overrun with buttons and switches to those who encounter it for the first time. Fortunately that sense of being overwhelmed fades rapidly once the ignition key is turned, the "Optitron" electroluminescent instrument panel fires to life and the engine settles into a barely audible idle.
While the GX packs in all the gee-whiz overkill elements expected of a 21st-century luxury machine, its most impressive technology is really only apparent off-road. The dual-range all-wheel-drive system is among the very best available (the center differential is a Torsen limited-slip unit) and it's complemented by the shockingly effective Downhill Assist Control (DAC), Hill-start Assist Control (HAC) and Active-TRAC (A-TRAC) traction control systems. Throw in excellent four-wheel disc brakes with both ABS and brake assist systems and it takes real effort to get into trouble with a GX 470.
Like other Prado-based vehicles, the GX 470 is a little narrow compared to some of its competition, and the styling is disappointingly generic, but this is otherwise a solid choice for the buyer who wants (or better, needs) the ability of a traditional SUV.
Cowes RNLI ILB (inshore lifeboat)
Lifeboat B-859 SHEENA LOUISE
In the Solent off of Cowes
B-859 is a Atlantic 85 B class lifeboats, which are 8½ metres long, are capable of 35 knots and can carry up to four crew members.
The Atlantic 85 was designed by the RNLI and has been developed over the past 5 years to meet the ever-changing requirements of the lifesaving service. It can operate safely in daylight up to force 7 conditions and at night up to force 6.
At the end of World War II, the New Zealand government wanted to establish a domestic airline capable of linking the far-flung communities of New Zealand, while leaving Air New Zealand to handle international routes. In 1947, the New Zealand National Airways Corporation (NAC) was established by merging several small air taxi services, a prewar airline (Union Airways), and converting 40 Squadron of the Royal New Zealand Air Force to civilian use. As a result, NAC had a bewildering array of aircraft, most of them war surplus: besides the almost inevitable Douglas DC-3s, there were also Lockheed 10 Electras and ex-RNZAF Short Sunderland flying boats, among others; despite being obsolete, prewar deHavilland DH.89 Dragon Rapides remained with NAC into the 1950s due to their ability to land on beach airstrips. This wide variety of aircraft led to maintenance problems and a high accident rate, though most of the crashes were nonfatal.
Through the 1950s, NAC reduced its services to South Pacific islands so as to retire the Sunderlands and consolidate its domestic network. NAC’s interest in the Vickers Viscount turboprop led to the New Zealand government embarking on an extensive modernization of its airports prior to the Viscount’s purchase in 1954; so popular were the new aircraft that NAC—and New Zealand itself—saw passenger numbers experience a huge growth, so much that it was called the “Viscount Jump.”
NAC, though partially state-owned, found itself under increasing pressure from Air New Zealand, its own government, and British aviation companies. It was able to modernize its fleet by purchasing Fokker F.27 Friendships to replace its DC-3s (though DC-3s would remain with NAC until its demise, flown as sightseeing aircraft) and adding jets with Boeing 737s; in both cases, NAC was threatened with retailiation from Handley-Page and BAC, respectively, who demanded that NAC adopt the Herald and One-Eleven. NAC became the third customer for the 737, and its experience in operating the type on short runways led to several improvements made to the design by Boeing.
By 1975, NAC was proving resilient and successful, petitioning the New Zealand government to allow it to return to flying South Pacific routes with 727s. When McDonnell Douglas made an offer to NAC for DC-10s, Air New Zealand reacted, worried that NAC could drive it out of business. As the national flag carrier, Air New Zealand’s clout carried considerable weight, and in April 1978, the New Zealand government merged NAC into Air New Zealand. The action outraged many New Zealanders, who accused Air New Zealand of “bullying” and illegal influence, but the merger stood. It would be some years before Air New Zealand recovered from absorbing NAC, as the two airlines operated on completely different business models.
Chassis n° F102BB31359
- One of only 929 512 BB models produced
- One of the most capable supercars of its era
- In the same ownership for over 30 years
Bonhams : The Zoute Sale
Important Collectors' Motor Cars
The Zoute Grand Prix Gallery
Estimated : € 175.000 - 225.000
Sold for € 218.500
Zoute Grand Prix Car Week 2025
Knokke - Zoute
België - Belgium
October 2025
Having reasserted itself at the top of the supercar hierarchy with the first 'Boxer' - the 365 GTB/4 BB - Ferrari went one better with its successor: the 512 BB. For the new Boxer, Ferrari abandoned its long-standing practice of denoting a model by the capacity of an individual cylinder and adopted the Dino-type nomenclature where '512' indicates 5 litres/12 cylinders. Displacement was increased by enlarging both bore and stroke, while in addition the compression ratio was raised and dry-sump lubrication adopted. The result of all these changes was a useful increase in torque which, coupled with revised gear ratios, made the 512 more tractable.
Changes to Pininfarina's inspired coachwork were, not surprisingly, few. The running gear likewise came in for only minor revision while the already excellent all-round ventilated disc brakes remained unchanged. Inside, the 512 remained virtually the same as before but for the welcome adoption of multi-way adjustable seats in place of the fixed originals. Road & Track magazine had achieved a speed of 175mph (280km/h) in the preceding 365 GT/4 BB, and although lack of road space prevented the discovery of their test 512's capability, Ferrari's claimed maximum of 188mph (302km/h) was felt entirely realistic.
In 1981 the model was updated with Bosch fuel injection, becoming the 512 BBi. Once again, maximum power remained unchanged but there was more available at lower revs and torque increased still further. Possessing an engine directly related to Ferrari's contemporary Formula 1 unit, as well as being both lighter and faster than the legendary Daytona, the 512 BB was one of the most capable and exciting supercars of its era and is still capable of providing all the thrills that an enthusiastic owner-driver could wish for.
One of only 929 512 BB models produced by Ferrari, the example offered here is described by our vendor as in beautifully unrestored condition. Although the first owner was an American and the Ferrari remained in the USA for many years, it is believed it is an European car. The most recent owner had the car for almost 30 years in a large Ferrari collection and has taken very good care of it. The bodywork is said to be very nice, with neatly fitting panels and beautiful paintwork, around 75% of which is still believed to be original. The gaps are consistent everywhere, while the lighting lenses and other details such as rubber mouldings, mirrors, and windows are said to be in good condition.
Boasting Daytona-style cognac-coloured leather seats, the original interior likewise is described as in good condition, possessing a lovely patina. The carpeting and door cards are said to be well preserved, as is the dashboard. Light brown dominates, with nostalgic black gauges with orange numbers and needles, and it is reported that everything functions properly, including the factory-fitted air conditioning.
In the vendor's own words: "Driving the Ferrari is simply fantastic, a sensation in fact. Everything about the car is in good condition, including the braking system and the suspension, providing a confident feeling when driving at higher speeds. As if you're strapped to the front of a rocket, the 512BB takes off with breathtaking acceleration. The sensation and experience of the power combined with the howling twelve-cylinder right behind the occupants are simply magnificent. The intake sound of the six Weber carburettors is phenomenal and is complemented by a fantastic exhaust sound. The steering responds to every minimal input you make, and the car instils incredible confidence. It's simply amazing what Ferrari managed to achieve almost 50 years ago."
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 newly designed spacecraft capable of going through time is sent to Mars to rescue a crew previously lost on Mars. The ship is sent through the past but to the wrong time years later than the first crew Empire of Danger was directed by Eric E Shook. Cast: Cindy Tozer, Traci Alms, Tatum Green, Caleb Howald, Samantha Shook, Stephanie Hunsicker, Darkeith Lofton, Jayson Johnson, Adam Kennedy, Eric Shook, Mike Davis, Beverly Rankin, Heather Myers, Randy Miller, Lester Fornshell, Mike Morrison, Melissa Schutzbach, Derek Alams, Steve Rankin, Andrea Melton, Brenda Alexander, Lisa Love, Justin Roley and Roger Anderson.
Production Company Westfield Entertainment
Download whole movie here:
Empire of Danger
www.amazon.com/Empire-Of-Danger/dp/B0030BMC8O/ref=pd_sim_...
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.
Iran apparently has a “Plan B” toward developing nuclear weapons, according to images released publicly for the first time. The Telegraph newspaper says the images show Iran has activated the Arak heavy-water production plant, which is capable of producing plutonium.
The images show signs of activity at the Arak plant, including a cloud of steam that indicates heavy-water production. Heavy water is needed to operate a nuclear reactor that can produce plutonium, which can then be used in building a bomb. According to the Institute for Science and International Security, at full capacity the heavy-water plant could produce about 20 pounds of plutonium a year, enough for two nuclear warheads if the plutonium was reprocessed.
International Atomic Energy Agency (IAEA) inspectors have been denied access to the heavily-guarded Iranian facility since August 2011 and the Islamic Republic has turned down repeated requests for information about the site, located about 150 miles south-west of Tehran.
Details of Iran’s plutonium program at the Arak facility emerged as the world’s leading nations resumed talks with Tehran aimed at easing Western fears over the country’s nuclear ambitions. However, the latest round of negotiations ended with no signs of a breakthrough other than an agreement to meet again.
Western officials say their latest offer include the easing of some sanctions if the Islamic Republic closed its Fordow nuclear facility, where it conducts its most controversial uranium enrichment work. In response to that offer, Iran’s chief negotiator, Saeed Jalili, said Fordow is under the supervision of the United Nations nuclear agency and there is “no justification” for shutting it down.
Calling the talks a “positive step,” Iran says the two sides have agreed to meet at the expert level next month in Istanbul and to hold further high-level negotiations in Kazakhstan in April. European Union foreign policy chief Catherine Ashton says the six powers – the United States, France, Germany, Britain, Russia and China – hope Iran will react positively to the nuclear proposal they presented at the talks when the parties resume negotiations in the next two months.
News of a second Iranian path to nuclear weapons should come as a great concern to world powers, who once again have seen little progress in talks over the Islamic Republic’s pursuit of nuclear technology. As it has done in the past, Tehran has successfully stalled Western powers by enticing them with the carrot of hope for a diplomatic resolution to the standoff over its intentions. Pray that world leaders will stop allowing Iran to kick the can down the road and demand action by a set deadline before the Islamic Republic reaches the “red line” spelled out last fall by Israeli Prime Minister Benjamin Netanyahu.
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The Chance Vought F4U Corsair was a carrier-capable fighter aircraft that saw service in World War II and the Korean War (and in isolated local conflicts). Goodyear-built Corsairs were designated FG and Brewster-built aircraft F3A. The Corsair served in some air forces until the 1960s, following the longest production run of any piston-engined fighter in U.S. history (1942–1952). Some Japanese pilots regarded it as the most formidable American fighter of World War II. The U.S. Navy counted an 11:1 kill ratio with the F4U Corsair.
Corsairs served with the U.S. Navy, U.S. Marines, Fleet Air Arm, and the Royal New Zealand Air Force, as well the French Navy Aeronavale and other services postwar. It quickly became the most capable carrier-based fighter-bomber of World War II. Demand for the aircraft soon overwhelmed Vought's manufacturing capability, resulting in production by Goodyear (as the FG-1) and Brewster (as the F3A-1). From the first prototype delivery to the U.S. Navy in 1940, to final delivery in 1953 to the French, 12,571 F4U Corsairs were manufactured by Vought, in 16 separate models.
The C-3 Forward Ballistic Missile was capable of being launched from a submerged Fleet Ballistic Missle (FBM) submarine. Outfitted with multiple independently-targetable re-entry vehicle (MIRV) warheads, the C-3 was twice as accurate and had twice the explosive power of the A-3. The first submarine to carry and launch a C-3 missile was the USS James Madison (SSBN-627) in August of 1970. This mock-up missile was donated by the U.S. Navy through Lockheed Missile and Space Company, which manufactured the C-3 Missiles for the Navy. It measures 32 feet long with a 74-inch diameter. The mockup weighs 12,000 pounds, but the deployable missile weighed 65,000 pounds.
The USS Bowfin Submarine Museum and Park opened in 1981 next to the USS Arizona Memorial Visitor Center in Pearl Harbor. The centerpiece of the museum is the World War II submarine USS Bowfin (SS-287), which is open for public tours. Adjacent to the Bowfin is a 10,000 square foot museum which exhibits an impressive collection of submarine-related artifacts such as submarine weapon systems, photographs, paintings, battleflags, original recruiting posters, and detailed submarine models, all illustrating the history of the U.S. Submarine Service. Numerous submarine-related artifacts litter the grounds around the park, which also features the Waterfront Memorial, a public memorial honoring the 52 American submarines and the more than 3,500 submariners lost during World War II.
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.
Possibly the most famous Sabre Dog, "Dennis the Menace" was known to the USAF as 52-3863; it was assigned to the 97th Fighter-Interceptor Squadron, based at Wright-Patterson AFB, Ohio. When the F-86D was withdrawn from active duty USAF service in the late 1950s, 3863 was scrapped.
When the USAF began saving examples of aircraft types for preservation for the National Museum of the USAF, it acquired 50-0477, one of the first Sabre Dogs to be built. 0477 never served with an active duty or Air National Guard unit, but was used as a testbed for its entire service life. It was retired in 1956 at Wright-Patterson and moved across the field to the NMUSAF. Since 0477 had never seen squadron duty, it was repainted as 52-3863.
The 97th FIS had one of the more impressive F-86D markings in the USAF, with its stylized snarling panther, and 52-3863 was one of the few USAF aircraft to carry nose art at a time when it was officially discouraged by the service. "Dennis the Menace" is, of course, Hank Ketchum's famous and destructive little boy, which was serialized both as a comic strip and TV show in the 1950s. This "Dennis" is displayed with the rocket tray open.
Capable of creating a classic, elegant design with its pilasters and distinctive beading, Magnet Kitchens' Bloomsbury can just as effortlessly become the height of contemporary styling, with its new curved contours and sleek, stainless steel appliances.
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 Vickers Valiant came out of the same postwar specification drawn up by the Royal Air Force for a nuclear-capable, all-jet bomber force to replace the huge numbers of Avro Lancaster and Lincoln bombers then making up the backbone of Bomber Command. This became known as the “V-Bomber” force for the names of each aircraft: the Avro Vulcan, Handley-Page Victor, and Vickers Valiant.
The latter almost never made it to production. Both the Vulcan and Victor used revolutionary wing designs that the British Air Ministry was not entirely sure would work. As a hedge against the failure of either or both of the other designs, Vickers was given the nod to develop the Type 660, which had been initially rejected as too conservative; helping matters considerably was the company’s promise to fly a prototype in 1951—a very short time, considering the specification was issued in 1949. Vickers delivered, however, the first Valiant B.1 taking to the air in May 1951, and deliveries commencing in December 1953, despite the loss of the first prototype to a fire.
As designed, the Valiant was not particularly remarkable, but it was not designed to be: unlike the Vulcan’s all-delta wing and the Victor’s cruciform wing and bulbous fuselage, both considered radical at the time, the Valiant had nothing particularly revolutionary about its design, which was partially inspired by the Boeing B-47 Stratojet and had similar performance. Despite this, however, it had superb performance, able to reach speeds just below the speed of sound at altitude and with the best climb rate of any of the V-bombers, as well as carry the large atomic bombs of the time. Valiants were used to test the first British air-droppable nuclear bombs in the mid-1950s, and would be the only one of the V-bombers to drop bombs in combat: a number of Valiants were used to attack Egyptian airfields during the 1957 Suez War, with mixed results. As the V-force would need air refuelling to reach targets deep inside the Soviet Union, a number of Valiants were converted or purpose-built as Valiant B(K).1s, and these were used extensively during the 1950s.
The Valiant was to have a comparatively short life, however. Due to the increased surface-to-air missile defenses of the Soviet Union by 1960, the V-bombers were forced to the low-level penetration role. While this was not difficult for any of the V-force, it had unintended consequences for the Valiant: due to the type of aluminum alloy used in its construction, the Valiant was particularly vulnerable to metal fatigue, made worse by the switch to low-level operations. After a near-fatal collapse of a wing spar in August 1964, the Valiant force was grounded for inspection, which revealed wing cracks in most of the aircraft. As there was nothing the Valiant could do that the Vulcan and Victor could not do as well, it was decided to retire the Valiant in 1965 as a cost-saving measure. The force was rapidly taken out of service, replaced by the Vulcan in the bomber role and Victor as tankers. Of 107 aircraft produced, only one still exists today, at RAF Museum Cosford.
The Valiant in the Malmstrom Museum’s Foreign Bombers collection is the sole Valiant B.2 produced. This aircraft was a purpose-built low altitude penetration version of the Valiant, with longer wings, upgraded engines and a strengthened airframe, which increased its speed nearly to supersonic at sea level. It was painted overall gloss black for night operations; as the only Valiant so painted, it became known simply as the “Black Bomber.” Though it offered superior performance to the Valiant B.1, the B.2 was cancelled in 1955 and was destroyed as a ground gunnery target a few years afterwards.
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)
Electronics hobby
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.
Designer: Wu Min (吴敏)
1973, December
Be ready to assemble at the first call and be capable of fighting and winning
Zhao zhi jilai laizhi neng zhan zhan zhe neng sheng (召之即来来之能站站之能胜)
Call nr.: BG E15/246 (Landsberger collection)
More? See: chineseposters.net
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)
HI Fiona,
It was a great event! Please see below the story and some photos attached, if you'd like to post this on Indigo where appropriate and on the gallery, I will leave this into your capable hands!
Thanks again for the contribution. We really had a good and inspiring time!
Sandrine
****
Encouraged by Informa`s One Planet Eating initiatives, the Hong Kong team got together at HOME to share a few healthy tapas, organic cocktails and be inspired by Christian Mongendre, our Guest Speaker, who created HOME. You can check him out: www.lifestyleasia.com/470121/tastemakers-christian-mongen...
In balancing mind and body, HOME - Eat to Live strives to use only organic produce whenever possible. Much of our ingredients are sourced locally from a network of farms and our food is made fresh daily. Our menu aims to appeal to everyone. We believe that healthy, plant-based foods should be tasty, filling, and nutritious. We offer vegan, gluten free & raw options, including healthy desserts and organic cocktails. We are committed to supporting a sustainable, plant-based lifestyle, collectively lowering our carbon footprint and preserving our earth's fresh water supply through a plant-based menu, mindful ingredient sourcing, eco-friendly packaging and practices.
During the talk, Christian raised awareness about recycling, compost, biodegradable materials like the plastic they use, from corn, LED lights which create no heat.
He also told us about the importance of eating more plant based food, and the impact on our planet. As a very demanding person, he wanted to create a vegetarian and sustainable restaurant and also bring taste and colour to our plates, with no processed food. Christian also pointed out the menu of HOME, each dish is called by animals in danger: Golden Snub Nosed Monkey Open Faced Toast, Manta Ray Salad Bowl, Siberian Tiger Earth Bowl, Northern White Rhino Sliders , Hawaiian Monk Seal Flatbread...
The team was very engaged and questioned him around the cost of eating healthy, being higher than eating meat. At HOME, they try to educate their customers about the origin of the products they use, Kale is one example, they were the first restaurant to import Kale but as demand grows, price goes down and we reach economies of scale. To make 'Healthy food' affordable, the market demand need to change and it is starting to change.
Finally, we asked him for advice around Pledges we should all make:
- Wellbeing = Food, "you are what you eat" , what you are eating to regenerate your body
- How are you breathing: Try to take time and be conscious of your breath
- Try Meditation
- Drink high quality water and not distilled
- Exercise and organise more events like 'Walk the World'
- Cut down on sweets and opt for healthier snacks
- Choose an organic range of teas
- Recycle
- Having LED lights
- And last but not least, we all agreed to at least TRY: Meat Free Monday !
Alena & Sandrine
Sandrine Declippeleir
Account Director - Professional Services, Asia Pacific
Business intelligence | informa
T: +852 3757 9703
M: +852 9222 1747
sandrine.declippeleir@informa.com<
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National Museum of the US Air Force
Entering service in 1993, the C-17 Globemaster III is the US Air Force's newest, most versatile cargo aircraft to enter the airlift force. The C-17 is capable of rapid strategic delivery of troops and all types of cargo to main operating bases or directly to small, austere airfields. It can also perform tactical airlift and airdrop missions or transport litters and ambulatory patients during aeromedical evacuations.
A crew of three (pilot, copilot, and loadmaster) operates the C-17, which can carry about 170,000 pounds of cargo. The large aft door will accommodate almost all of the US Army's air-transportable vehicles and palletized cargo, including the Army's M-1 Abrams main battle tank. The C-17 can take off and land on runways as short as 3,500 feet and only 90 feet wide. Its four Pratt & Whitney F117-PW-100 engines can reverse their thrust to help slow it down on landings. The thrust reversers direct the engine exhaust upward and forward to prevent dust and debris from being pulled into the engine intakes. These reversible engines also allow the pilot to back the plane or even turn it around on a narrow runway using a three-point star turn method.
The Globemaster Ill on display is the prototype C-17. Built by the Douglas Aircraft Company, which is now Boeing, it was designated T-1 (serial number 87-0025). T-1 made its first flight on September 15, 1991, when it was delivered to the USAF at Edwards AFB, California, for testing. After completing the extensive C-17 flight test program, T-1 supported many other flight and propulsion test programs for the USAF, NASA, and others. T-1 also appeared in a number of major motion pictures, including Transformers (2007), Transformers: Revenge of the Fallen (2009), Iron Man (2008), and Iron Man 2 (2010).
After twenty years of wide-ranging flight tests, T-1 had reached the end of its flying career, and it was retired at Edwards AFB in 2011. T-1 was flown to the Museum to begin its new career in April 2012.
TECHNICAL NOTES
Crew: Three (pilot, copilot, and loadmaster)
Aeromedical Evacuation Crew: Five (two flight nurses and three medical technicians)
Engines: Four Pratt & Whitney F117-PW-100 turbofan engines of 40,440 thrust each
Load: 170,900 pounds of cargo; 102 troops/paratroops; or 36 litter and 54 ambulatory patients
Maximum speed: 518 mph (Mach .74) at 28,000 ft
Range: Global with aerial refueling
Lockheed F-104 Starfighter – the first series production aircraft capable of reaching the speed of Mach 2 was designed in early 1950s by Clarence "Kelly" Johnson. It was an air defense fighter and due to the development of guided air-to-air missiles the manoeuvrability was sacrificed for speed. A sleek fuselage ended with a long needle of the Pitot tube, housing the powerful GE J79 engine, T-shaped tailplane and tiny trapezoid wings with very sharp leading edges caused that the Starfighter obtained a nickname “a missile with a man in it”. The first version was the F-104A, subsequently the upgraded F-104C was developed. --- Although the Starfighter’s career in the USA was rather short and insignificant, it became one of the world’s most popular combat aircraft, with 2,580 aircraft operated by 14 countries on 3 continents and license production in 6 countries. It remained in service for over 40 years. In the 1960s the Starfighter in the F-104G version with enhanced air–to–ground capabilities became the main type of nuclear-capable strike fighter and reconnaissance aircraft in Germany, Netherlands, Belgium, Spain, Greece, Italy, Turkey, Denmark and Norway. It was also operated by Canada and Japan. It was license built by MBB in Germany, Fokker in the Netherlands, SABCA in Belgium, Fiat in Italy, Canadair in Canada and Mitsubishi in Japan. --- Italy was the country which had operated the Starfighters for the longest time. The Fiat company undertook the license production of the F-104G in 1962. As Italy operated the Starfighters mainly in the fighter interceptor role, during 1965–66 a new version F-104S, with upgraded engine and avionics, capable of carrying AIM-7 Sparrow radar guided missiles was developed. Deliveries of this version, in the fighter-bomber and interceptor role lasted since 1969 until 1979. 246 aircraft were built, including 40 for Turkey. --- In late 1980s the majority of Italian F-104S underwent the ASA avionics upgrade, enabling the aircraft to carry the Aspide 1A missile, an Italian upgraded version of the Sparrow, and the new version of the Sidewinder, the AIM-9L. In 1990s the Italian Air Force was planning to replace the Starfighters with the Eurofighter Typhoons, but the delay of the Eurofighter program resulted in the necessity of another avionics upgrade, designated ASA-M, within which communication and navigation instruments from the AMX aircraft were installed. --- The aircraft on display, serial number MM 6876 was donated by the Italian Air Force It served with the 9th Fighter Wing (9o Stormo) "Francesco Baracca" at Grazzanise near Naples. During its service has undergone both avionics upgrades.
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)
Towards the end of World War II, the USAAF issued a requirement for a large transport capable of carrying tanks. Douglas responded with the C-74 Globemaster, but it was not successful--the aircraft itself was fine, but the end of the war led to the USAAF cancelling the contract. The Berlin Airlift exposed the need for a heavy transport, however, and the now-independent USAF reconsidered. Douglas, by this time, were ready to offer a completely different aircraft, the C-124 Globemaster II.
Though the tail and wings of the C-124 were generally similar to the C-74, the fuselage was much deeper and wider. A rear ramp was included, but also clamshell nose doors, allowing for "all-through" loading. The Globemaster II could indeed carry tanks like the M4 Sherman, and could also carry up to 200 troops and their equipment. The USAF ordered it into production in 1950.
The C-124 was not aesthetically pleasing, but it was a workhorse. Its capacity came in handy during the Korean War and the Vietnam War, and it had the range to cross the Pacific from Hawaii to Japan. Although it was approaching obsolescence by the time of Vietnam, it was the only USAF transport (aside from the C-133 Cargomaster) capable of carrying oversize loads. Though dubbed "Old Shaky" because of the vibration of the engines through the fuselage, the Globemaster II performed yeoman work through two decades of service.
With the Lockheed C-141 Starlifter entering service in the early 1960s, the C-124 was relegated to Air National Guard units and finally retired in 1974. 448 were built, and nine are known to be left.
This aircraft, 53-0050, was delivered to the USAF in 1955 and spent most of its career at either Dover AFB, Delaware, or McChord AFB, Washington. It was relegated to the 151st Military Airlift Group (Utah ANG) at Salt Lake City in 1969, and retired in 1972. It was sent to the Aberdeen Proving Ground in Maryland for use as a ground target for US Army artillery tests, but luckily the C-124's size saved it: 53-0050 was used as storage instead. In 1992, when the Hill AFB Museum learned it was almost intact, they acquired it and brought it to Hill for restoration.
Dad took this picture with a disposable camera, so the quality is far from perfect. 53-0050 is mostly bare metal, with white uppersurfaces to reflect heat away from the fuselage, and international orange recognition stripes for Arctic operations. A Military Air Transport Service (MATS) stripe is carried on the tail. 53-0050 is shown at the far end of Hill's airpark against the snowy Wasatch Range; today, it has been moved to the front of the museum entrance.
After seeing my indoor grown Kumoan palm tree with a single leaf from a stem (which resulted from the normal multileaf leaf stem not breaking apart), I wondered if all plants were capable of such... I attributed this change to environmental conditions. I attributed it to environmental conditions because leaves did eventually split, when my pattern of care-taking changed (not neccissarily for worse/better- its still growing rapidly). They split to more closely resemble an outdoor Kumoan palm tree I was growing who's leaves split nearly the moment they grew, rather than many months later.
While arriving early at work one day, I was looking at a tree (17) and noticed it had two different leaves on one of the stems. Once again, I attributed this to the weather. This time, one leaf had come out and grown to full size, with one point, and another leaf began to grow, but stopped while it was very small. I assume the weather had changed, so the drastic leaf change from a 5 point leaf to a one point leaf had stopped immediately, leaving the second one point leaf not nearly full grown. They've been surviving for what I assume is months now, but definitely weeks and nearly a month (because I've seen that much with my own two eyes).
It seems to me on the evolutionary scale, a one point star would be in line before a 5 point scale, in terms of creation. So it appears the tree had taken a step backwards in evolution to accomodate for the weather - or had rather declined to take not a normally taken step. It seems to me that it would be more likely (easier) for a creature to be able to take a step back in evolution, rather than taking a step forward to keep up with habitat. However, it's possible that we may evolove much faster than currently accepted in thought.
Later I realized that the leaves coming from the branch on this tree had distinct characteristics setting it apart from the whole of the tree itself. In all, 3 distinct leaf shapes. It's likely that a nearby tree, which had at least some leaves similar to one of the multstyled leaves on the branch picture here had a branch broken off and naturally grafted onto its neighboring tree. The most striking thing however was that even those leaves from the neighboring tree had distinct differences from the leaves on this branch.
I wonder if it were merely nutrient specific changes that occured to the leaves; perhaps the tree which may have accepted the graft pulls different nutrients from the ground, thus altering the nutrient intake of the grafted branch from its norm. Or did the chemical properties of the tree alter the physical properties of the branch to the point that it had fluctuating leaf structures. As you can see in the picture, the first leaf is 5 points, the second is one but miniature, the third is one, and the forth connected on the same stem as the third and forth has 5, then the rest have five. All leaves of which are on the stem do not match the rest of the leaves of the rest of the housing or nearby tree.
It has been a few years since I've taken these pictures, I do wonder how they're doing now.
The Tornado GR4 is a variable geometry, two-seat, day or night, all-weather attack aircraft, capable of delivering a wide variety of weapons. Powered by two Rolls-Royce RB 199 Mk 103 turbofan engines, the GR4 is capable of low-level supersonic flight and can sustain a high subsonic cruise speed. The aircraft can fly automatically at low level using terrain-following radar when poor weather prevents visual flight. The aircraft is also equipped with forward-looking infrared and is night-vision goggle compatible, making it a capable platform for passive night operations. For navigation purposes, the Tornado is equipped with an integrated global positioning inertial navigation system that can also be updated with visual or radar inputs. The GR4 is also equipped with a Laser Ranger and Marked Target Seeker system that can be used for ground designation or can provide accurate range information on ground targets.
The GR4 can carry up to three Paveway II, two Paveway III or Enhanced Paveway Laser and Global Positioning System Guided Bombs (LGBs), and by using a Thermal Imaging Airborne Laser Designation (TIALD) pod it is able to self-designate targets for LGB delivery. The GR4 also has a ground-mapping radar to identify targets for the delivery of conventional 1000lb bombs. All GR4 aircraft are capable of carrying the Air Launched Anti- Radiation Missile (ALARM), which homes on the emitted radiation of enemy radar systems and can be used for the suppression of enemy air defences. The GR4 is capable of carrying up to nine ALARM missiles or a mixed configuration of ALARM missiles and bombs. In the reconnaissance role the GR4 can carry the Digital Joint Reconnaissance Pod to provide detailed reconnaissance imagery; this is currently being replaced with the RAPTOR pod, which provides an even greater day-and night reconnaissance potential.
For self-protection, the GR4 is normally armed with two AIM-9L Sidewinder short-range air-to-air missiles, a BOZ-107 Pod on the right wing to dispense chaff and flares and a Sky Shadow-2 electronic countermeasures pod on the left wing. The aircraft can also carry an integral 27mm Mauser cannon capable of firing 1700 rounds per minute.
The Tornado GR4 is now equipped with the Storm Shadow missile and the new Brimstone missile. The Storm Shadow allows the Tornado to make precision strikes in poor weather with a greatly increased stand-off range from the target area. Brimstone provides the Tornado with an effective anti-armour weapon, also providing an enhanced stand-off range.
The Tornado GR4 is currently operated from two bases. Based at RAF Lossiemouth, in Scotland, are the Operational Conversion Unit, No. 15(R) Squadron, and Nos 12(B), 14 and 617 Squadrons. RAF Marham is the home of the GR4s of Nos II(AC), IX(B), 13 and 31 Squadrons.
In addition to its long-range, high-speed precision strike capability, including supersonic at low level with a low-level combat radius of 400nmls, the Tornado GR4 is a world leader in the specialised field of all-weather, day and night tactical reconnaissance. The new RAPTOR (Reconnaissance Airborne Pod TORnado) pod is one of the most advanced reconnaissance sensors in the world and greatly increased the effectiveness of the aircraft in the reconnaissance role. Its introduction into service gave the GR4 the ability to download real-time, long-range, oblique-photography data to ground stations or to the cockpit during a mission. The stand-off range of the sensors also allows the aircraft to remain outside heavily defended areas, thus minimising the aircraft’s exposure to enemy air-defence systems.
Some Tornado GR4s involved in Operation Telic were fitted with the RAPTOR pod and the aircraft is currently employed in the Gulf on both Close Support and Reconnaissance missions in support of Coalition Forces in Afghanistan.
Specifications
Engines: Two RB199 turbofans
Thrust: 16,000lbs each
Max speed: 1.3Mach
Length: 16.72m
Max altitude: 50,000ft
Span: 8.6m
Aircrew: 2
Armament: Storm Shadow, Brimstone, ALARM, AIM-9 Sidewinder, Paveway II, Paveway III, Enhanced Paveway, General Purpose Bombs, Mauser 27mm
Built by the Schiffswerks Rieherst company in Hamburg, the Umbria was launched on December 30th 1911 with the name of Bahia Blanca. It was a large freighter by that time, 150 meters long, with a power capable of providing a speed of 14 knots that could carry 9,000 tons of cargo and up to 2,000 passengers. In 1912 it began operating the Hamburg-America line doing different jobs between Europe and Argentina until the outbreak of World War I, when it was based in Buenos Aires. In 1918 the ship was acquired by the Argentinian government and it was not until 1935 when the ship was taken over by the Italian government and renamed again: the Umbria. From that moment its trips were to transport troops and during the following two years carried several thousand soldiers to the Italian colonies in East Africa.
The loss of the Umbria
In May 1940, when Italy was still neutral in World War II, the Umbria was secretly loaded with 360,000 bombs between 15 kg and 100 kg, 60 boxes of detonators, building materials and three Fiat Lunga cars, carrying a total 8,600 tons of weapons towards the East Africa. The explosives had destination Massawa and Assab, Eritrea, that was Italian colony by then, and the rest of the cargo was heading different locations in Asia. Italy's entry into the war was imminent and this shipment was destined to the defense of the colonies against the Allies and to the possible expansion of its African territories.
On 3rd June 1940 the Umbria reached Port Said, northern Egypt, where loaded with 1,000 tons of coal and water in a movement to fool the Allies, trying to look like a harmless freighter. The port, controlled by the Royal Navy, and its authorities allowed the ship enter on the Red Sea three days after arrival. The British delayed the departure of the Umbria knowing that Italy's entry into the war was imminent and that the cargo of Umbria had devastating power that sooner or later would be used against the Allies and why not, to get a great load to fight fascism. But Italy, as a neutral country that it was, had every right to transport weapons much like any other cargo to its colonies.
Having met the deadline to be retained, the Umbria crossed the Suez Canal on June 6th but with the escort of the HMS Grimsby. The importance and destructive capacity of the cargo required it. Three days later the Umbria entered in Sudan waters and the HMS Grimsby ordered the Umbria captain to anchor on Wingate Reef under the pretext of searching for contraband. Moments later the British warship HMS Leander arrived with a group of 20 sailors who boarded the Umbria. After thoroughly searching the ship and finding nothing, the captain ordered the British troops to remain the night aboard the Umbria.
The next morning Lorenzo Muiesan, Umbria captain, was in his cabin listening to the radio when Mussolini announced the entry of Italy into the World War II. Hostilities would begin at midnight of that day. Muiesan, a very patriotic captain with long experience, was the only one in the area who had heard the news and knew immediately that both Umbria and the burden would be used by the Allies against their own country. He had no option to disable both. In a move of extraordinary intelligence, as the hours passed retained by the British who did not yet know that Italy was officially the enemy, the captain ordered his crew conducting a rescue simulation... that was more real than the British thought. This maneuver, which the English soldiers agreed as they believed it would serve to further delay the departure of the Umbria. While the Italians occupied the lifeboats, the chief engineers, following Muiesan´s orders, opened all the valves and drown the ship to the bottom of the reef. With the crew safe, the British only had time to get on their ship and watch the freighter slid slowly.
When the captain of HMS Grimsby asked why he had done that Muiesan confirmed the declaration of war from Italy to Britain. The next day Muiesan and the rest of Umbria crew departed detainees to India, where they spent four years in prison.
CARGO:
The Umbria was carrying 360,000 individual aircraft bombs ranging in size from 15, 50 and 100 kg. The vessel also carried a large quantity of fuses, ammunition and detonators as well as other traditional cargo. The captain knew these bombs would be confiscated and used by the enemy against his country should they ever discover them which was why he made the call to sink the ship.
The Umbria had sailed in June 1940 with 6,000 tons of bombs, 60 boxes detonators, explosives, weapons and three Fiat 1100 Lunga from Genoa via Livorno and Naples in the Suez Canal and on the way via Massaua and Assab to Calcutta.
Aeroscopia est un musée aéronautique français implanté à Blagnac (Haute-Garonne), près du site AéroConstellation, et accueille notamment deux exemplaires du Concorde, dont l'ouverture a eu lieu le 14 janvier 2015
Le tarmac Sud du musée n'est capable d'accueillir que trois gros appareils. L'installation des appareils fut définitivement terminée après que le premier prototype de l'A400M-180 y fut arrivé le 16 juillet 2015, en dépit de la possibilité de 360 000 euros de TVA.
Concorde, F-BVFC, MSN209 aux couleurs d'Air France
Caravelle 12, F-BTOE, MSN280 aux couleurs d'Air Inter, dernier exemplaire construit
A400M-180, F-WWMT, MSN001 stationné depuis le 16 juillet 2015
La réalisation en 2019 du nouveau tarmac au Nord du musée permet l'accueil d'appareils supplémentaires issus des entreprises locales Airbus et ATR. Le transfert des avions entre le site Airbus "Lagardère" et le musée a lieu sur une semaine, à raison d'un appareil par jour :
ATR 72-600, F-WWEY, MSN098 aux couleurs d'ATR, transféré sur site le 26 août 2019, premier exemplaire du 72 dans sa version 600
Airbus A340-600, F-WWCA, MSN360 aux couleurs d'Airbus, transféré sur site le 27 août 2019, premier exemplaire de l'A340 dans sa version 600
Airbus A320-111, F-WWAI, MSN001 aux anciennes couleurs d'Airbus, transféré sur site le 28 août 2019, premier exemplaire de l'A320 : inauguration le 14 février 1987 en présence de Lady Diana et du Prince Charles, premier vol le 22 février 1987
Airbus A380-800, F-WXXL, MSN002 aux couleurs d'Airbus, transféré sur site le 29 août 2019, second exemplaire de l'A380. Les deux ponts de cet appareil sont visitables, ainsi que le cockpit.
ATR 42-300, F-WEGC, MSN003 aux anciennes couleurs d'ATR, transféré sur site le 30 août 2019, troisième exemplaire du 42. Cet exemplaire est décoré aux couleurs du MSN001 et porte l'immatriculation F-WEGA
Concorde, F-WTSB, MSN201 (ANAE), il s'agit d'un appareil de présérie qui a servi entre autres à transporter plusieurs présidents de la République française.
Airbus A300B4-203, F-WUAB, MSN238 (Airbus Heritage), décoré aux couleurs du prototype, au lieu de MSN001 démantelé. L'intérieur est visitable. Dans la première section des vitrages transparents permettent de voir la structure et les systèmes de l'avion, tandis que dans les sections suivantes sont représentés des aménagements de première classe et VIP.
Super Guppy de l'association Ailes Anciennes Toulouse, l'appareil qui servait au transport des tronçons d'Airbus est exposé porte ouverte, et une passerelle permet l'accès à la soute où un film est projeté. L'ouverture n'a pas été une mince affaire, l'appareil n'ayant pas été ouvert pendant 15 ans. L'aide des anciens mécaniciens de l'avion a été primordiale pour permettre une ouverture en toute sécurité.
Corvette (Airbus)
Falcon 10 no 02, prototype ayant servi aux essais du turboréacteur Larzac (Ailes Anciennes Toulouse)
Fouga Magister (AAT)
Gazelle prototype (AAT)
Mirage III C (AAT)
Nord 1100 (AAT)
Lockheed F-104G (AAT)
MiG-15 (AAT)
MS.760 Paris (AAT)
Vought F-8E(FN) Crusader et son réacteur (AAT)
Alouette II Marine (AAT)
Cessna Skymaster (AAT)
Fairchild Metro, ancien avion de Météo-France (AAT)
HM-293, de Rodolphe Grunberg
Chagnes MicroStar, avion de construction amateur, version biréacteur de Rutan VariViggen (AAT)
Saab J35OE Draken (AAT)
Aeroscopia is a French aeronautical museum located in Blagnac (Haute-Garonne), near the AéroConstellation site, and notably hosts two copies of the Concorde, which opened on January 14, 2015
The south tarmac of the museum can only accommodate three large aircraft. The installation of the devices was definitively finished after the first prototype of the A400M-180 arrived there on July 16, 2015, despite the possibility of 360,000 euros in VAT.
Concorde, F-BVFC, MSN209 in Air France colors
Caravelle 12, F-BTOE, MSN280 in Air Inter colors, last model built
A400M-180, F-WWMT, MSN001 parked since July 16, 2015
The construction in 2019 of the new tarmac north of the museum will accommodate additional aircraft from local Airbus and ATR companies. The transfer of planes between the Airbus "Lagardère" site and the museum takes place over a week, at the rate of one aircraft per day:
ATR 72-600, F-WWEY, MSN098 in ATR colors, transferred to site on August 26, 2019, first copy of the 72 in its 600 version
Airbus A340-600, F-WWCA, MSN360 in Airbus colors, transferred to site on August 27, 2019, first copy of the A340 in its 600 version
Airbus A320-111, F-WWAI, MSN001 in the old Airbus colors, transferred to site on August 28, 2019, first copy of the A320: inauguration on February 14, 1987 in the presence of Lady Diana and Prince Charles, first flight on February 22, 1987
Airbus A380-800, F-WXXL, MSN002 in Airbus colors, transferred to site on August 29, 2019, second copy of the A380. The two decks of this aircraft can be visited, as well as the cockpit.
ATR 42-300, F-WEGC, MSN003 in the old ATR colors, transferred to the site on August 30, 2019, third specimen of the 42. This specimen is decorated in the colors of the MSN001 and bears the registration F-WEGA
Concorde, F-WTSB, MSN201 (ANAE), this is a pre-production aircraft which was used, among other things, to transport several presidents of the French Republic.
Airbus A300B4-203, F-WUAB, MSN238 (Airbus Heritage), decorated in the colors of the prototype, instead of dismantled MSN001. The interior can be visited. In the first section transparent glazing allows to see the structure and systems of the aircraft, while in the following sections are shown first class and VIP fittings.
Super Guppy from the Ailes Anciennes Toulouse association, the aircraft which was used to transport the Airbus sections is on display with the door open, and a gangway allows access to the hold where a film is shown. Opening was no small feat, as the device has not been opened for 15 years. The help of the former mechanics of the aircraft was essential to allow a safe opening.
Corvette (Airbus)
Falcon 10 no 02, prototype used for testing the Larzac turbojet engine (Ailes Anciennes Toulouse)
Fouga Magister (AAT)
Prototype Gazelle (AAT)
Mirage III C (AAT)
North 1100 (AAT)
Lockheed F-104G (AAT)
MiG-15 (AAT)
MS.760 Paris (AAT)
Vought F-8E (FN) Crusader and its engine (AAT)
Alouette II Marine (AAT)
Cessna Skymaster (AAT)
Fairchild Metro, former Météo-France (AAT) aircraft
HM-293, by Rodolphe Grunberg
Chagnes MicroStar, amateur-built aircraft, twin-jet version of Rutan VariViggen (AAT)
Saab J35OE Draken (AAT)
Aeroscopia est un musée aéronautique français implanté à Blagnac (Haute-Garonne), près du site AéroConstellation, et accueille notamment deux exemplaires du Concorde, dont l'ouverture a eu lieu le 14 janvier 2015
Le tarmac Sud du musée n'est capable d'accueillir que trois gros appareils. L'installation des appareils fut définitivement terminée après que le premier prototype de l'A400M-180 y fut arrivé le 16 juillet 2015, en dépit de la possibilité de 360 000 euros de TVA.
Concorde, F-BVFC, MSN209 aux couleurs d'Air France
Caravelle 12, F-BTOE, MSN280 aux couleurs d'Air Inter, dernier exemplaire construit
A400M-180, F-WWMT, MSN001 stationné depuis le 16 juillet 2015
La réalisation en 2019 du nouveau tarmac au Nord du musée permet l'accueil d'appareils supplémentaires issus des entreprises locales Airbus et ATR. Le transfert des avions entre le site Airbus "Lagardère" et le musée a lieu sur une semaine, à raison d'un appareil par jour :
ATR 72-600, F-WWEY, MSN098 aux couleurs d'ATR, transféré sur site le 26 août 2019, premier exemplaire du 72 dans sa version 600
Airbus A340-600, F-WWCA, MSN360 aux couleurs d'Airbus, transféré sur site le 27 août 2019, premier exemplaire de l'A340 dans sa version 600
Airbus A320-111, F-WWAI, MSN001 aux anciennes couleurs d'Airbus, transféré sur site le 28 août 2019, premier exemplaire de l'A320 : inauguration le 14 février 1987 en présence de Lady Diana et du Prince Charles, premier vol le 22 février 1987
Airbus A380-800, F-WXXL, MSN002 aux couleurs d'Airbus, transféré sur site le 29 août 2019, second exemplaire de l'A380. Les deux ponts de cet appareil sont visitables, ainsi que le cockpit.
ATR 42-300, F-WEGC, MSN003 aux anciennes couleurs d'ATR, transféré sur site le 30 août 2019, troisième exemplaire du 42. Cet exemplaire est décoré aux couleurs du MSN001 et porte l'immatriculation F-WEGA
Concorde, F-WTSB, MSN201 (ANAE), il s'agit d'un appareil de présérie qui a servi entre autres à transporter plusieurs présidents de la République française.
Airbus A300B4-203, F-WUAB, MSN238 (Airbus Heritage), décoré aux couleurs du prototype, au lieu de MSN001 démantelé. L'intérieur est visitable. Dans la première section des vitrages transparents permettent de voir la structure et les systèmes de l'avion, tandis que dans les sections suivantes sont représentés des aménagements de première classe et VIP.
Super Guppy de l'association Ailes Anciennes Toulouse, l'appareil qui servait au transport des tronçons d'Airbus est exposé porte ouverte, et une passerelle permet l'accès à la soute où un film est projeté. L'ouverture n'a pas été une mince affaire, l'appareil n'ayant pas été ouvert pendant 15 ans. L'aide des anciens mécaniciens de l'avion a été primordiale pour permettre une ouverture en toute sécurité.
Corvette (Airbus)
Falcon 10 no 02, prototype ayant servi aux essais du turboréacteur Larzac (Ailes Anciennes Toulouse)
Fouga Magister (AAT)
Gazelle prototype (AAT)
Mirage III C (AAT)
Nord 1100 (AAT)
Lockheed F-104G (AAT)
MiG-15 (AAT)
MS.760 Paris (AAT)
Vought F-8E(FN) Crusader et son réacteur (AAT)
Alouette II Marine (AAT)
Cessna Skymaster (AAT)
Fairchild Metro, ancien avion de Météo-France (AAT)
HM-293, de Rodolphe Grunberg
Chagnes MicroStar, avion de construction amateur, version biréacteur de Rutan VariViggen (AAT)
Saab J35OE Draken (AAT)
Aeroscopia is a French aeronautical museum located in Blagnac (Haute-Garonne), near the AéroConstellation site, and notably hosts two copies of the Concorde, which opened on January 14, 2015
The south tarmac of the museum can only accommodate three large aircraft. The installation of the devices was definitively finished after the first prototype of the A400M-180 arrived there on July 16, 2015, despite the possibility of 360,000 euros in VAT.
Concorde, F-BVFC, MSN209 in Air France colors
Caravelle 12, F-BTOE, MSN280 in Air Inter colors, last model built
A400M-180, F-WWMT, MSN001 parked since July 16, 2015
The construction in 2019 of the new tarmac north of the museum will accommodate additional aircraft from local Airbus and ATR companies. The transfer of planes between the Airbus "Lagardère" site and the museum takes place over a week, at the rate of one aircraft per day:
ATR 72-600, F-WWEY, MSN098 in ATR colors, transferred to site on August 26, 2019, first copy of the 72 in its 600 version
Airbus A340-600, F-WWCA, MSN360 in Airbus colors, transferred to site on August 27, 2019, first copy of the A340 in its 600 version
Airbus A320-111, F-WWAI, MSN001 in the old Airbus colors, transferred to site on August 28, 2019, first copy of the A320: inauguration on February 14, 1987 in the presence of Lady Diana and Prince Charles, first flight on February 22, 1987
Airbus A380-800, F-WXXL, MSN002 in Airbus colors, transferred to site on August 29, 2019, second copy of the A380. The two decks of this aircraft can be visited, as well as the cockpit.
ATR 42-300, F-WEGC, MSN003 in the old ATR colors, transferred to the site on August 30, 2019, third specimen of the 42. This specimen is decorated in the colors of the MSN001 and bears the registration F-WEGA
Concorde, F-WTSB, MSN201 (ANAE), this is a pre-production aircraft which was used, among other things, to transport several presidents of the French Republic.
Airbus A300B4-203, F-WUAB, MSN238 (Airbus Heritage), decorated in the colors of the prototype, instead of dismantled MSN001. The interior can be visited. In the first section transparent glazing allows to see the structure and systems of the aircraft, while in the following sections are shown first class and VIP fittings.
Super Guppy from the Ailes Anciennes Toulouse association, the aircraft which was used to transport the Airbus sections is on display with the door open, and a gangway allows access to the hold where a film is shown. Opening was no small feat, as the device has not been opened for 15 years. The help of the former mechanics of the aircraft was essential to allow a safe opening.
Corvette (Airbus)
Falcon 10 no 02, prototype used for testing the Larzac turbojet engine (Ailes Anciennes Toulouse)
Fouga Magister (AAT)
Prototype Gazelle (AAT)
Mirage III C (AAT)
North 1100 (AAT)
Lockheed F-104G (AAT)
MiG-15 (AAT)
MS.760 Paris (AAT)
Vought F-8E (FN) Crusader and its engine (AAT)
Alouette II Marine (AAT)
Cessna Skymaster (AAT)
Fairchild Metro, former Météo-France (AAT) aircraft
HM-293, by Rodolphe Grunberg
Chagnes MicroStar, amateur-built aircraft, twin-jet version of Rutan VariViggen (AAT)
Saab J35OE Draken (AAT)
New screenshots from CAD of Raven, Mach 8-10 Aircraft that is orbital capable. Image shows U-TBCC (not omitted). Fueled by 8,000 PSI compressed H2, and forward tank at 8,000 PSI compressed O2 for orbital launches, max payload of 15,000 LBS with an estimated launch cost of $2.5 million. Aircraft flies up to 40,000ft, and accelerates into hypersonic velocities and continues accelerating to outside atmosphere reaching 16,000+ mph and parking orbit of 170 miles.
That's right, 95% lower costs for launching 15,000 LBS payloads into orbit. True single stage to orbit aircraft, that is not capable of burning up on re-entry since it is 6,000F temperature resistent.
Larger Image: www.ioaircraft.com/hypersonic/ravenutbcc_space_23.jpg
Website: 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, additive manufacturing, titanium 3d printing, go fly prize, boeing go fly prize,
Advanced Additive Manufacturing for Hypersonic Aircraft
Utilizing new methods of fabrication and construction, make it possible to use additive manufacturing, dramatically reducing the time and costs of producing hypersonic platforms from missiles, aircraft, and space capable craft. Instead of aircraft being produced in piece, then bolted together; small platforms can be produced as a single unit and large platforms can be produces in large section and mated without bolting. These techniques include using exotic materials and advanced assembly processes, with an end result of streamlining the production costs and time for hypersonic aircraft; reducing months of assembly to weeks. Overall, this process greatly reduced the cost for producing hypersonic platforms. Even to such an extent that a Hellfire missile costs apx $100,000 but by utilizing our technologies, replacing it with a Mach 8-10 hypersonic missile of our physics/engineering and that missile would cost roughly $75,000 each delivered.
Materials used for these manufacturing processes are not disclosed, but overall, provides a foundation for extremely high stresses and thermodynamics, ideal for hypersonic platforms. This specific methodology and materials applications is many decades ahead of all known programs. Even to the extend of normalized space flight and re-entry, without concern of thermodynamic failure.
*Note, most entities that are experimenting with additive manufacturing for hypersonic aircraft, this makes it mainstream and standardized processes, which also applies for mass production.
What would normally be measured in years and perhaps a decade to go from drawing board to test flights, is reduced to singular months and ready for production within a year maximum.
Unified Turbine Based Combined Cycle (U-TBCC)
To date, the closest that NASA and industry have achieved for turbine based aircraft to fly at hypersonic velocities is by mounting a turbine into an aircraft and sharing the inlet with a scramjet or rocket based motor. Reaction Engines Sabre is not able to achieve hypersonic velocities and can only transition into a non air breathing rocket for beyond Mach 4.5
However, utilizing Unified Turbine Based Combine Cycle also known as U-TBCC, the two separate platforms are able to share a common inlet and the dual mode ramjet/scramjet is contained within the engine itself, which allows for a much smaller airframe footprint, thus engingeers are able to then design much higher performance aerial platforms for hypersonic flight, including the ability for constructing true single stage to orbit aircraft by utilizing a modification/version that allows for transition to outside atmosphere propulsion without any other propulsion platforms within the aircraft. By transitioning and developing aircraft to use Unified Turbine Based Combined Cycle, this propulsion system opens up new options to replace that airframe deficit for increased fuel capacity and/or payload.
Enhanced Dynamic Cavitation
Dramatically Increasing the efficiency of fuel air mixture for combustion processes at hypersonic velocities within scramjet propulsion platforms. The aspects of these processes are non disclosable.
Dynamic Scramjet Ignition Processes
For optimal scramjet ignition, a process known as Self Start is sought after, but in many cases if the platform becomes out of attitude, the scramjet will ignite. We have already solved this problem which as a result, a scramjet propulsion system can ignite at lower velocities, high velocities, at optimal attitude or not optimal attitude. It doesn't matter, it will ignite anyways at the proper point for maximum thrust capabilities at hypersonic velocities.
Hydrogen vs Kerosene Fuel Sources
Kerosene is an easy fuel to work with, and most western nations developing scramjet platforms use Kerosene for that fact. However, while kerosene has better thermal properties then Hydrogen, Hydrogen is a far superior fuel source in scramjet propulsion flight, do it having a much higher efficiency capability. Because of this aspect, in conjunction with our developments, it allows for a MUCH increased fuel to air mixture, combustion, thrust; and ability for higher speeds; instead of very low hypersonic velocities in the Mach 5-6 range. Instead, Mach 8-10 range, while we have begun developing hypersonic capabilities to exceed 15 in atmosphere within less then 5 years.
Conforming High Pressure Tank Technology for CNG and H2.
As most know in hypersonics, Hydrogen is a superior fuel source, but due to the storage abilities, can only be stored in cylinders thus much less fuel supply. Not anymore, we developed conforming high pressure storage technology for use in aerospace, automotive sectors, maritime, etc; which means any overall shape required for 8,000+ PSI CNG or Hydrogen. For hypersonic platforms, this means the ability to store a much larger volume of hydrogen vs cylinders.
As an example, X-43 flown by Nasa which flew at Mach 9.97. The fuel source was Hydrogen, which is extremely more volatile and combustible then kerosene (JP-7), via a cylinder in the main body. If it had used our technology, that entire section of the airframe would had been an 8,000 PSI H2 tank, which would had yielded 5-6 times the capacity. While the X-43 flew 11 seconds under power at Mach 9.97, at 6 times the fuel capacity would had yielded apx 66 seconds of fuel under power at Mach 9.97. If it had flew slower, around Mach 6, same principles applied would had yielded apx 500 seconds of fuel supply under power (slower speeds required less energy to maintain).
Enhanced Fuel Mixture During Shock Train Interaction
Normally, fuel injection is conducted at the correct insertion point within the shock train for maximum burn/combustion. Our methodologies differ, since almost half the fuel injection is conducted PRE shock train within the isolator, so at the point of isolator injection the fuel enhances the combustion process, which then requires less fuel injection to reach the same level of thrust capabilities.
Improved Bow Shock Interaction
Smoother interaction at hypersonic velocities and mitigating heat/stresses for beyond Mach 6 thermodynamics, which extraordinarily improves Type 3, 4, and 5 shock interaction.
6,000+ Fahrenheit Thermal Resistance
To date, the maximum thermal resistance was tested at AFRL in the spring of 2018, which resulted in a 3,200F thermal resistance for a short duration. This technology, allows for normalized hypersonic thermal resistance of 3,000-3,500F sustained, and up to 6,500F resistance for short endurance, ie 90 seconds or less. 10-20 minute resistance estimate approximately 4,500F +/- 200F.
*** This technology advancement also applies to Aerospike rocket engines, in which it is common for Aerospike's to exceed 4,500-5,000F temperatures, which results in the melting of the reversed bell housing. That melting no longer ocurrs, providing for stable combustion to ocurr for the entire flight envelope
Scramjet Propulsion Side Wall Cooling
With old technologies, side wall cooling is required for hypersonic flight and scramjet propulsion systems, otherwise the isolator and combustion regions of a scramjet would melt, even using advanced ablatives and ceramics, due to their inability to cope with very high temperatures. Using technology we have developed for very high thermodynamics and high stresses, side wall cooling is no longer required, thus removing that variable from the design process and focusing on improved ignition processes and increasing net thrust values.
Lower Threshold for Hypersonic Ignition
Active and adaptive flight dynamics, resulting in the ability for scramjet ignition at a much lower velocity, ie within ramjet envelope, between Mach 2-4, and seamless transition from supersonic to hypersonic flight, ie supersonic ramjet (scramjet). This active and dynamic aspect, has a wide variety of parameters for many flight dynamics, velocities, and altitudes; which means platforms no longer need to be engineered for specific altitude ranges or preset velocities, but those parameters can then be selected during launch configuration and are able to adapt actively in flight.
Dramatically Improved Maneuvering Capabilities at Hypersonic Velocities
Hypersonic vehicles, like their less technologically advanced brethren, use large actuator and the developers hope those controls surfaces do not disintegrate in flight. In reality, it is like rolling the dice, they may or may not survive, hence another reason why the attempt to keep velocities to Mach 6 or below. We have shrunken down control actuators while almost doubling torque and response capabilities specifically for hypersonic dynamics and extreme stresses involved, which makes it possible for maximum input authority for Mach 10 and beyond.
Paradigm Shift in Control Surface Methodologies, Increasing Control Authority (Internal Mechanical Applications)
To date, most control surfaces for hypersonic missile platforms still use fins, similar to lower speed conventional missiles, and some using ducted fins. This is mostly due to lack of comprehension of hypersonic velocities in their own favor. Instead, the body itself incorporates those control surfaces, greatly enhancing the airframe strength, opening up more space for hardware and fuel capacity; while simultaneously enhancing the platforms maneuvering capabilities.
A scramjet missile can then fly like conventional missile platforms, and not straight and level at high altitudes, losing velocity on it's decent trajectory to target. Another added benefit to this aspect, is the ability to extend range greatly, so if anyone elses hypersonic missile platform were developed for 400 mile range, falling out of the sky due to lack of glide capabilities; our platforms can easily reach 600+ miles, with minimal glide deceleration.
The Birken is a “table car” capable of seating 56 passengers at 14 tables. With warming ovens and refrigerators behind the bar and buffet area, the Birken is an excellent venue for a cocktail hour. Alternately, the Birken can be used with a dining car or another passenger car with a full kitchen to seat your guests for a full meal while rolling down the railroad. It is the perfect companion to any other private passenger car on the market, allowing you the extra space to expand your event. The tables are also removable, making the Birken into an excellent open space. The car features two restrooms, a generator for power, and heat & air conditioning throughout. The Birken is fully certified by Amtrak, the FRA, and NJ Transit to operate anywhere the rails lead it.
The Birken was the first in an order of 218 identical 72-seat coaches built by Canadian Car & Foundry in 1954 for the Canadian National Railway. Numbered #5437, the car served on CN until 1978, when CN split off its passenger service into VIA Rail (the Canadian equivalent of Amtrak). The #5437 continued to serve VIA until it was sold to the British Columbia Railway in 1990, where it was rebuilt into a 14-table, 56-seat “table car” for use as a bar car and extra dining space on their Royal Hudson trains. It was during this time that the Birken was named for a location along the railroad’s mainline in British Columbia. After a decade of further service, the Birken was sold into private ownership in 2002. The car was upgraded to full Amtrak and FRA standards and repainted into colors once worn by the New York Central’s famous 20th Century Limited train.
Photos, text and plan - Morristown & Erie Railway
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)
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)