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Designed by Luis Torres & Diego Rodriguez, and Exclusive to HypeForType.
To call Alquimia a ‘typeface’ isn’t nearly enough, it’s an intricately beautiful language in itself. Expressive, versatile - and somehow both contemporary and retro at the same time. Alquimia takes some of its inspiration from symbols, elements and formulas used within the ancient art of alchemy. A classily simple letterform structure is brought to life with symbols, lines and geometric embellishments. Taking inspiration from the influential philosophical tradition of alchemy, combining classically simple structures with symbols, lines and shapes to create a beautifully expressive and visually stunning typeface, Alquimia is a power to behold.
Exclusive only at HypeForType: Download Alquimia Font
Another version of the versatile Boktor-2. This one is equiped with a turret with a 50mm autocannon.
This time I present you the Boktor-2 APC, a 8X8 armored personnel carrier. It will be the platform for a range of waponsystems as well as some supporting roles like command vehicle, front line deliveries and the version we see here, an infantry fighting vehicle.
The standard version has a crew of 2, a commander and a driver. Additional crewmembers might be added where needed, like gunners in this case.
Cold morning on the 2nd lake we now have on our estate. Processed with affinity Photo . CC Most Versatile: Rule of Thirds
Versatile room divider, can be reversed, rotatated, and used either as a room divider or shelving unit.
Denim mini skirts are very versatile in that you feel you can wear them any time during the year. I particularly like the fit and length of this one.
Ex-one, displaced due to double deckers arriving on the route
Numberplate: KX13AUR
Fleet Number: 4249
Type: Optare Versa
Company: Arriva Essex
Route: 9
Destination: Shoeburyness, East Beach
Location: Shoeburyness, East Beach
Shown here is one of the many variant forms of the Panthret. The basic frame was extremely versatile, and in later years carried heavier weapons than other lightweight starfighters.
Gallery here.
DADA style
tunic
with asymmetric sleeve
kamikaze freeform
crochet
knitting
Navajo 3-ply technique
multi versatile
not only for orange lovers
"This green jelly blob is a eukaryotic single-celled ciliate, a member of the Protoctista kingdom (protos, very first; ktistos, to establish). It is not a plant, not a fungus, not an animal, but a single-celled organism that forms the green jelly blob you see here.
This particular protoctista is the Ophrydium versatile. The gelatinous colony formed by the ciliate is found floating freely or attached to aquatic plants in acidic bogs where light is available. We have yet to find a good answer as to why these colonies are formed. " naturenotes.outdoors.org/
Lovely Bob Hair Style Ideas ... Bob hairstyles are highly versatile and offer a timeless elegance combined with an incredible ...
+++ DISCLAIMER +++
Nothing you see here is real, even though the conversion or the presented background story might be based on historical facts. BEWARE!
Some background:
The BAC Jet Provost was a British jet trainer aircraft that was in use with the Royal Air Force (RAF) from 1955 to 1993. It was originally developed by Hunting Percival from the earlier piston engine-powered Percival Provost basic trainer, and later produced by the British Aircraft Corporation (BAC). In addition to the multiple RAF orders, the Jet Provost, sometimes with light armament, was exported to many air forces worldwide. The design was also further developed into a more heavily armed ground attack variant under the name BAC Strikemaster, which was not operated by the Royal Air Force but became a worldwide export success.
The Jet Provost was produced for the Royal Air Force in several variants with gradually stronger engines and other detail improvements, the first trainers entered RAF service in 1955. A major development step was the T.5 variant in 1967 with a pressurized cabin, a modified front section and the option for export customers to arm it with machine guns and underwing hardpoints. The T.5 was fitted with the Viper 201 or 202 turbojet engine and its versatility encouraged the RAF to utilize the Jet Provost in more roles besides basic training. With a top speed of 440 mph, excellent maneuverability, mechanical reliability and low operating costs, the Jet Provost was utilized as an aerobatic aircraft, for air warfare and tactical weapons training as well as for advanced training. T.5 deliveries from BAC's Warton factory commenced on 3 September 1969, and operators of the type included the RAFs Central Flying School and No. 1, No. 3, and No. 6 Flying Training Schools. During their career the T.5s were modified with improved avionics and a rough coating on the wing to break up the smooth airflow and give the trainee pilot an early indication of the onset of a stall (the T.5's original clean wing gave the pilot little warning); upgraded aircraft were re- designated T.5A. A sub-variant, unofficially designated T.5B, was a small number of T.5As fitted with wingtip-tanks (so far only used by export customers) and special equipment for long-range low-level navigator training.
During the Mid-Eighties the RAF started to look for a more economical successor for the aging Jet Provost fleet, and this eventually became the turbo-prop Shorts Tucano. The Tucano was selected in 1985 in preference to the Swiss Pilatus PC-9 and the British Hunting Firecracker. The first Tucano flew in Brazil on 14 February 1986, with the first Shorts built production aircraft flying on 30 December 1986. However, problems with the ejection seats delayed the introduction of the aircraft into service until 1989. During this period the Jet Provost remained the RAF’s mainstay trainer, but it was gradually withdrawn from RAF service, mostly due to many airframes’ age. However, late in their career a handful of these robust aircraft eventually saw frontline use and were deployed in a hot conflict during the first Gulf War, in an unexpected but important role that paved the way for new air strike tactics.
When the RAF took part in combat operations during Operation Granby/Desert Storm in 1991, it had been anticipated that complex and fast attack aircraft like the Tornado would autonomously perform air strikes, either with iron bombs against area targets or with precision weapons like laser-guided glide bombs against important or small objects. However, early experience from the front lines showed that deploying precision weapons was not easy: target acquisition and then both target designation and weapon deployment were not feasible with just a single aircraft – it would be exposed to potential enemy fire for too long or require two or more passes over the target, so that any surprise moment was ruined. During the early stages of the RAF’s air raids a strike group of six aircraft would require two of them to act as dedicated target designators, selecting and illuminating targets with laser projectors for other aircraft. Another problem was that these scouts had to fly ahead of the strike force, check out the battlefield and loiter at relatively slow speed in hostile environment until the fast strike aircraft would arrive and drop their weapons. “Wasting” Tornados and their strike capability for these FAC duties was regarded as inefficient, and an alternative aircraft that was better suited for this task was chosen: the vintage but small and nimble Jet Provost T.5A!
Early on, this had been thought to be "unlikely”, but following a short-notice decision to deploy, the first batch of six aircraft were readied to deploy in under 72 hours. These were dedicated long-range navigational trainers, operated by 79(R) Squadron as part of No. 229 Operational Conversion Unit, and the aircraft were hastily prepared for their unusual mission. This included the removal of the aerodynamic wing coating to improve the flight characteristics again, the adoption of desert camouflage, mounting of underwing hardpoints and additional equipment like an encrypted radio with better range and navigation systems (including a GPS sensor in a spinal fairing). As protective measures, Kevlar mats were added to the cockpit floor and lower side walls, as well as a passive radar warning system with sensors on nose and fin and chaff/flare dispensers under the rear fuselage. A fixed refueling probe was considered for the transfer flight and to extend loiter time during missions via air-to-air refueling, but this was not realized due to the lack of time.
To mark their special status the machines were (now officially) designated T(R).5B. They departed from RAF Brawdy in Wales for the Middle Eastern theatre early on 26 January 1991. Upon arrival the machines were immediately thrown into action. It now became common for each attack formation to comprise four Tornados or Jaguars and two Jet Provosts; each Jet Provost carried a 144-inch-long (3.66 m), 420-lb (209 kg) AN/AVQ-23E ‘Pave Spike’ laser designator pod on one of the outer underwing stations and acted as backup to the other in the event of an equipment malfunction. The machines would typically not carry offensive loads, except for occasional unguided SNEB missiles to visually mark potential targets, since they did not have a sufficient load-carrying capacity, but they were frequently equipped with drop tanks to extend their range and loiter time, and “Dash 10” (AN/ALQ-101) ECM pods to counter radar-guided weapons against them.
The first combat mission already took place on 2 February 1991, operating at a medium altitude of roughly 18,000 feet (5,500 m), and successfully attacked the As Suwaira Road Bridge. Operations continued, practically every available day, even though missions did not take place at night as the RAF’s ’Pave Spike’ pods (a simplified version of the American AN/ASQ-153) lacked night-time functionality. After the first missions the Jet Provosts received black anti-glare-panels in front of the windscreen – they had been re-painted in the UK without them, and the black panel markedly reduced the camouflage’s efficiency, but the strong and constant sunshine reflection from the Jet Provosts’ bulged nose frequently blinded the crews. Another retrofitted feature was the addition of a video camera to document the targeting missions, which was mounted in a shallow blister on top of the nose, just above the landing light cluster.
When the tactical separation of target designation and strike missions proved to be successful, more and more potent aircraft were sent into the theatre of operations, namely the RAF’s Blackburn Buccaneer, which replaced the Jet Provosts on long-range missions and also carried out strike and dive-bombing missions. Approximately 20 road bridges were destroyed with the help of the target spotter aircraft, restricting the Iraqi Army's mobility and communications. In conjunction with the advance of Coalition ground forces into Iraq, the Buccaneers switched to airfield bombing missions, targeting bunkers, runways, and any aircraft sighted on the ground, while the Jet Provosts were used over less dangerous terrain and closer to the air bases, primarily acting as artillery spotters. However, the designator pods were still carried to mark targets of opportunity and strike aircraft were then called in to eliminate them.
The Jet Provost T(R).5Bs took part in 186 missions during the Gulf War. Two from the total of eight deployed Jet Provosts were lost during their short active career: One was shot down at low level by a MANPADS (probably an IR-guided 9K38 Igla/SA-18 Grouse), both crew members were lost; the other crashed due a failure of the hydraulic system but could be brought down over friendly terrain and the crew ejected safely.
After their return to Great Britain the worn machines were quickly phased out and all T(R).5Bs were retired when 79(R) Squadron was disbanded in August 1992. The last Jet Provosts in RAF service were retired in 1993.
General characteristics:
Crew: 2
Length: 34 ft 0 in (10.36 m)
Wingspan: 35 ft 4 in (10.77 m) with wingtip tanks
Height: 10 ft 2 in (3.10 m)
Wing area: 213.7 sq ft (19.85 m²)
Airfoil: root: NACA 23015 mod; tip: NACA 4412 mod
Empty weight: 4,888 lb (2,217 kg)
Gross weight: 6,989 lb (3,170 kg)
Max takeoff weight: 9,200 lb (4,173 kg)
Powerplant:
1× Armstrong Siddeley Viper Mk.202 turbojet engine, 2,500 lbf (11,1 kN)
Performance:
Maximum speed: 382 kn (440 mph, 707 km/h) at 25,000 ft (7,620 m)
Range: 780 nmi (900 mi, 1,440 km) with tip tanks
Service ceiling: 36,750 ft (11,200 m)
Rate of climb: 4,000 ft/min (20 m/s)
Wing loading: 32.7 lb/sq ft (160 kg/m²)
Armament:
No internal guns;
4× underwing hardpoints, each capable of carrying 540 lb (245 kg), for a wide range of loads,
including bombs, pods and launch rails with unguided missiles, gun pods;
the inner pair of pylons were plumbed for auxiliary tanks.
The T( R).5B was outfitted with an AN/AVQ-23E Pave Spike laser designator pod and an AN/ALQ-101
ECM pod on the outer stations, plus a pair of 75 Imp gallon (341 liter) drop tanks or pods with 28
unguided SNEB missiles on the inner pylons
The kit and its assembly:
This fictional Gulf War participant was a spontaneous decision to build – actually as a group build submission, but it turned out to be ineligible. After fellow user SPINNERS posted one of his CG skins, a grey RAF low-viz Jet Provost at whatifmodellers.com, I suggested in the respective thread a machine in Desert Pink – and it was promptly realized, including equipment from the Gulf War Buccaneers and LGBs as ordnance. Inspiration enough to dig out an Airfix kit out of The Stash™ for which I had no concrete plan yet and turn the CG rendition into hardware.
The kit is a simple affair and shows its age through (light) flash and shaggy fit around the seams almost everywhere. Nothing dramatic, but you have to invest time and PSR effort. And it features the most complicated landing light arrangement I have ever come across: five(!) single parts if you include the front cover. Why the mold designer did not just provide a single clear piece with three lens-shaped dents at the back - and instead went for a bulkhead, three(!) separate and tiny clear lenses PLUS a clear cover that is supposed to fit in a rather dysmorphic nose opening is beyond me?
The kit was basically built OOB, using the Jet Provost T.5 air intakes and fuselage details but the Strikemaster wing tip tanks and wing pylons. The Pave Spike pod came from a Hasegawa 1:72 aircraft weapon set, the ECM pod from a Revell 1:72 F-16A (the vintage kit of the prototype with the extra engine) – it is shorter than a typical AN/ALQ-101, rather looks like an AN/ALQ-119, but these pods were all modular and could have different lengths/sizes. And I think that the shorter variant suits the Jet provost well, the Pave Spike pod is already quite long for the small aircraft.
Unlike SPINNERS I settled just for drop tanks on the inner wing stations to extend range and loiter time. I also doubt that the Jet Provost had enough carrying capacity and speed for LGBs, and on their target designation missions the RAF Buccaneers did AFAIK not carry much offensive ordnance, either. There’s also not much clearance under a Jet Provost on the ground – I doubt that anything with big fins could safely go under it? However, for a modernized look I replaced the Jet Provost’s OOB teardrop-shaped tanks with cigar-shaped alternatives.
Further mods were only of cosmetic nature: the seats received ejection handles made from thin wire, the characteristic chines under the nose were omitted (the kit’s parts are rather robust, and they were left away on some T.5s in real life, anyway), and I scratched small conformal chaff/flare dispensers from styrene profile and put them under the lower rear fuselage. Fairings for a radar-warning system were scratched from 1.5 mm styrene rods, too, some blade antennae were added around the hull, and sprue material was used to create the GPS antenna “bubble” behind the cockpit. The shallow camera bulge on the nose was created in a similar fashion.
Another problem: the model is seriously tail-heavy. I filled the chamber between the odd landing lights compartment and the cockpit with lead beads, but once the landing gear had been attached the model still sat on its tail. I was lucky that I had not glued the seats into place yet, so I was able to add more ballast in front of the main wheels, therewith creating a bulkhead (which is missing OOB) behind the seats, what was eventually enough to shift the model’s center of gravity forward.
Painting and markings:
Desert Pink was the driving theme for this build (to be correct, it’s FS 30279 “Desert Sand”). While real RAF aircraft from Operation Granby were painted all-over with this tone (and SPINNERS did the same with the CG rendition), I wanted a bit more variety and just painted the upper surfaces and the underside of the leading edges, the inside of the air intakes and the tip tanks in the sand tone, while the undersides were painted in RAF Barley Grey (Humbrol 167), as if an late all-grey low-viz trainer had been painted over just on the upper surfaces.
For the Desert Pink I was able to use the authentic tone, I had a virgin tin of Humbrol 250 in my enamels hoard that now found a good use. After basic painting the kit received an overall black in washing, dry-brushing with Revell 35 (Skin – it’s a perfect match for panel post-shading!) to retain the pinkish hue and, after the decals had been applied, a bit of grinded graphite to simulate wear and dirt and emphasize the raised surface details.
The cockpit interior was painted in Anthracite (Revell 06), the dashboard became medium grey with dark instruments (not painted, thanks to the raised details I simple rubbed some graphite over it, and the effect is nice!). The ejection seats became tar black with grey-green cushions. The landing gear was painted in Medium Sea Grey (Humbrol 165).
The drop tanks became Medium Sea Grey (Humbrol 165) and Barley Grey, as if they had been procured from a different aircraft, while the Pave Spike pod and the ECM pod were both in RAF Dark Green (Humbrol 163), for good contrast to the rest of the model.
Decals/markings come from Xtradecal sheets. The low-viz roundels were taken from a dedicated RAF roundel sheet because I wanted a uniform roundel size (in six positions) and slightly darker print colors. Unit markings and tactical codes came from a Jet Provost/Strikemaster sheet, also from Xtradecal; RAF 79 Squadron actually operated the Jet provost, but AFAIK only the T.4 version, but not the pressurized T.5 or even the T.5A navigator trainers. The nose art at bow side came from a USN EA-6B Prowler.
After some final details (position lights), the model was sealed with matt acrylic varnish.
A quick project, and the Operation Granby Jet Provost looks better than expected. However, I am not sold on the vintage Airfix kit. It clearly shows its age, nothing really went together smoothly, gaps and sinkholes, PSR on every seam. It also required tons of nose weight to keep it on its spindly legs. The alternative Matchbox kit is not much better, though, with even more simple surface and cockpit details, but at least the parts fit together. I might try to hunt down a Sword kit if I should want to build one again, AFAIK the only other IP option? The result looks interesting, though, quite purposeful with its low-viz markings, and the simple livery turns out to be very effective over the desert terrain where it would have been supposed to operate. Furthermore, the model fits well into the Jet Provost’s historic final years of duty with the RAF – even though in an unlikely role!
1991 Ford Versatile 9030 4WD bi-directional loader tractor.
An import from the USA registered in April 1992.
Cheffins vintage and classic auction, Sutton -
"1991 FORD VERSATILE 9030 Bi-Directional diesel TRACTOR Reg. No. J110 JHG Serial No. D470150 Reported by the vendor to be a one owner tractor with 6,011 hours showing."
Unsold.
A detailed, close-up shot of the Fender American Ultra II 5-String Jazz Bass resting in its plush hardshell case. This is Fender’s flagship model, designed for the professional bassist, blending classic J-Bass style with modern ergonomic features. The instrument features a beautiful three-color sunburst finish and an anodized gold pickguard. As a 5-string, it offers extended range for superior versatility. The American Ultra II series is known for its high-output, noiseless single-coil pickups and advanced preamp, delivering a powerful and articulate tone. The chrome high-mass bridge and high-gloss finish underscore the instrument's premium, American-made quality.
Compositionally Challenged
Most Versatile - 6. Shoot from Below
A foggy start to my day out to London.
If I remember, I was near 30 St. Mary Axe when I looked up and snapped this.
This 'Most Versatile' challenge is set by the Compositionally Challenged Group. Thank you Sharon for more superb themes.
In this month's challenge, 11 members, entered 100 photos, and 8 members completed all 10 themes. These members, in play order, were: Robin, Maria, Sharon, Sandi, Linda, Ms J, Keith and Andy.
This montage features at least one photo per person, and at least one photo per theme. View the complete challenge and entries, by clicking Here.
Just taking a pleasant stroll around the local Wigan Flashes Nature Reserve, snapping with the new Tamron 18-400mm Ultrazoom glass, checking out its versatility and putting it through the wringer...
More to follow... :-)
Nikon D7100 + Tamron 18-400mm F/3.5-6.3 Di II VC HLD
@ 27mm
f/8 @ 200 @ iso 1000
(tweaked in Smart Photo Editor)
One of a series of 23 shots experimenting with Unity on a wrapper’s theme and used in Week 4 - Unity - with the Compositionally Challenged Group and in the group's Most versatile challenge.
A copy of 0377 v0 with a border and matte from Ribbet.
Whether it was the Tomahawk, Warhawk, or Kittyhawk, the Curtiss P-40 was a successful and versatile fighter aircraft during the first half of World War II. The shark-mouthed Tomahawks that General Claire Chennault led against the Japanese remain among the most popular airplanes of the war. In the Phillipines, Lt. Boyd D. Wagner became the first American ace of World War II while flying a P-40E when he shot down six Japanese aircraft during mid-December 1941. P-40s were first-line Army Air Corps fighters at the start of the war but they soon gave way to more advanced designs such as the Republic P-47 Thunderbolt and the Lockheed P-38 Lightning (see NASM collection for both aircraft). The P-40 is not ranked among the best overall fighters of the war but it was a rugged, effective design available in large numbers early in the war when America and her allies urgently required them. The P-40 remained in production from 1939 to the end of 1944 and a total of 13, 737 were built.
Design engineer Dr. Donovan R. Berlin layed the foundation for the P-40 in 1935 when he designed the agile, but lightly-armed, P-36 fighter equipped with a radial, air-cooled engine. The Curtiss-Wright Corporation won a production contract for 210 P-36 airplanes in 1937-the largest Army airplane contract awarded since World War I. Worldwide, fighter aircraft designs matured rapidly during the late 1930s and it was soon obvious that the P-36 was no match for newer European designs. High altitude performance in particular became a priceless commodity. Berlin attempted to improve the P-36 by redesigning it in to accommodate a turbo-supercharged Allison V-1710-11 inline, liquid-cooled engine. The new aircraft was designated the XP-37 but proved unpopular with pilots. The turbo-supercharger was not reliable and Berlin had placed the cockpit too far back on the fuselage, restricting the view to the front of the fighter. Nonetheless, when the engine was not giving trouble, the more-streamlined XP-37 was much faster than the P-36.
Curtiss tried again in 1938. Berlin had modified another P-36 with a new Allison V-1710-19 engine. It was designated the XP-40 and first flew on October 14, 1938. The XP-40 looked promising and Curtiss offered it to Army Air Corps leaders who evaluated the airplane at Wright Field, Ohio, in 1939, along with several other fighter proposals. The P-40 won the competition, after some modifications, and Curtiss received an order for 540. At this time, the armament package consisted of two .50 caliber machine guns in the fuselage and four .30 caliber machine guns in the wings.
After production began in March 1940, France ordered 140 P-40s but the British took delivery of these airplanes when Paris surrendered. The British named the aircraft Tomahawks but found they performed poorly in high-altitude combat over northern Europe and relegated them to low-altitude operations in North Africa. The Russians bought more than 2,000 P-40s but details of their operational history remain obscure.
When the United States declared war, P-40s equipped many of the Army Air Corps's front line fighter units. The plucky fighter eventually saw combat in almost every theater of operations being the most effective in the China-Burma-India (CBI) Theater. Of all the CBI groups that gained the most notoriety of the entire war, and remains to this day synonymous with the P-40, is the American Volunteer Group (AVG) or the Flying Tigers. The unit was organized after the Chinese gave former U. S. Army Air Corps Captain Claire Lee Chennault almost 9 million dollars in 1940 to buy aircraft and recruit pilots to fly against the Japanese. Chennault's most important support within the Chinese government came from Madam Chiang Kai-shek, a Lt. Colonel in the Chinese Air Force and for a time, the service's overall commander.
The money from China diverted an order placed by the British Royal Air Force for 100 Curtiss-Wright P-40B Tomahawks but buying airplanes was only one important step in creating a fighting air unit. Trained pilots were needed, and quickly, as tensions across the Pacific escalated. On April 15, 1941, President Franklin D. Roosevelt quietly signed an Executive Order permitting Chennault to recruit directly from the ranks of American military reserve pilots. Within a few months, 350 flyers joined from pursuit (fighter), bomber, and patrol squadrons. In all, about half the pilots in the Flying Tigers came from the U. S. Navy and Marine Corps while the Army Air Corps supplied one-third. Factory test pilots at Bell, Consolidated, and other companies, and commercial airline pilots, filled the remaining slots.
The Flying Tigers flew their first mission on December 20. The unit's name was derived from the ferocious fangs and teeth painted on the nose of AVG P-40s at either side of the distinctive, large radiator air intake. The idea is said to originate from pictures in a magazine that showed Royal Air Force Tomahawks of No. 112 Squadron, operating in the western desert of North Africa, adorned with fangs and teeth painted around their air intakes. The Flying Tigers were the first real opposition the Japanese military encountered. In less than 7 months of action, AVG pilots destroyed about 115 Japanese aircraft and lost only 11 planes in air-to-air combat. The AVG disbanded on July 4, 1942, and its assets, including a few pilots, became a part of the U. S. Army Air Forces (AAF) 23rd Fighter Group in the newly activated 14th Air Force. Chennault, now a Brigadier General, assumed command of the 14th AF and by war's end, the 23rd was one of the highest-scoring Army fighter groups.
As wartime experience in the P-40 mounted, Curtiss made many modifications. Engineers added armor plate, better self-sealing fuel tanks, and more powerful engines. They modified the cockpit to improve visibility and changed the armament package to six, wing-mounted, .50 caliber machine guns. The P-40E Kittyhawk was the first model with this gun package and it entered service in time to serve in the AVG. The last model produced in quantity was the P-40N, the lightest P-40 built in quantity, and much faster than previous models. Curtiss built a single P-40Q. It was the fastest P-40 to fly (679 kph/422 mph) but it could not match the performance of the P-47 Thunderbolt and the P-51 Mustang so Curtiss ended development of the P-40 series with this model. In addition to the AAF, many Allied nations bought and flew P-40s including England, France, China, Russia, Australia, New Zealand, Canada, South Africa, and Turkey.
The Smithsonian P-40E did not serve in the U. S. military. Curtiss-Wright built it in Buffalo, New York, as Model 87-A3 and delivered it to Canada as a Kittyhawk IA on March 11, 1941. It served in No. 111 Squadron, Royal Canadian Air Force (RCAF). When the Japanese navy moved to attack Midway, they sent a diversionary battle group to menace the Aleutian Islands. Canada moved No. 111 Squadron to Alaska to help defend the region. After the Japanese threat diminished, the unit returned to Canada and eventually transferred to England without its P-40s. The RCAF declared the NASM Kittyhawk IA surplus on July 27, 1946, and the aircraft eventually returned to the United States. It had several owners before ending up with the Explorer Scouts youth group in Meridian, Mississippi. During the early 1960s, the Smithsonian began searching for a P-40 with a documented history of service in the AVG but found none. In 1964, the Exchange Club in Meridian donated the Kittyhawk IA to the National Aeronautical Collection, in memory of Mr. Kellis Forbes, a local man devoted to Boys Club activities. A U. S. Air Force Reserve crew airlifted the fighter to Andrews Air Force Base, Maryland, on March 13, 1964. Andrews personnel restored the airplane in 1975 and painted it to represent an aircraft of the 75th Fighter Squadron, 23rd Fighter Group, 14th Air Force.
Some background:
The VF-1 was developed by Stonewell/Bellcom/Shinnakasu for the U.N. Spacy by using alien Overtechnology obtained from the SDF-1 Macross alien spaceship. Its production was preceded by an aerodynamic proving version of its airframe, the VF-X. Unlike all later VF vehicles, the VF-X was strictly a jet aircraft, built to demonstrate that a jet fighter with the features necessary to convert to Battroid mode was aerodynamically feasible. After the VF-X's testing was finished, an advanced concept atmospheric-only prototype, the VF-0 Phoenix, was flight-tested from 2005 to 2007 and briefly served as an active-duty fighter from 2007 to the VF-1's rollout in late 2008, while the bugs were being worked out of the full-up VF-1 prototype (VF-X-1).
The space-capable VF-1's combat debut was on February 7, 2009, during the Battle of South Ataria Island - the first battle of Space War I - and remained the mainstay fighter of the U.N. Spacy for the entire conflict. Introduced in 2008, the VF-1 would be out of frontline service just five years later, though.
The VF-1 proved to be an extremely capable craft, successfully combating a variety of Zentraedi mecha even in most sorties which saw UN Spacy forces significantly outnumbered. The versatility of the Valkyrie design enabled the variable fighter to act as both large-scale infantry and as air/space superiority fighter. The signature skills of U.N. Spacy ace pilot Maximilian Jenius exemplified the effectiveness of the variable systems as he near-constantly transformed the Valkyrie in battle to seize advantages of each mode as combat conditions changed from moment to moment.
The basic VF-1 was built and deployed in four minor variants (designated A, J, and S single-seater and the D two-seater/trainer) and its success was increased by continued development of various enhancements including the GBP-1S "Armored" Valkyrie exoskeleton with enhanced protection and integrated missile launchers, the so-called FAST (“Fuel And Sensor Tray”) packs that created the fully space-capable "Super" Valkyries and the additional RÖ-X2 heavy cannon pack weapon system for the VF-1S “Super Valkyrie”.
After the end of Space War I, the VF-1 continued to be manufactured both in the Sol system and throughout the UNG space colonies. Although the VF-1 would be replaced in 2020 as the primary Variable Fighter of the U.N. Spacy by the more capable, but also much bigger, VF-4 Lightning III, a long service record and continued production after the war proved the lasting worth of the design.
In the course of its career the versatile VF-1 underwent constant upgrade programs. For instance, about a third of all VF-1 Valkyries were upgraded with Infrared Search and Track (IRST) systems from 2016 on, placed in a streamlined fairing in front of the cockpit. This system allowed for long-range search and track modes, freeing the pilot from the need to give away his position with active radar emissions, and it could be used for target illumination and guiding precision weapons. Many Valkyries also received improved radar warning systems, with receivers, depending on the systems, mounted on the wingtips, on the fins and/or on the LERXs. Improved ECR measures were also mounted on some machines, typically in conformal fairings on the flanks of the legs/engine pods. Specialized reconnaissance and ECM sub-versions were developed from existing airframes, too.
The VF-1 was without doubt the most recognizable variable fighter of Space War I and was seen as a vibrant symbol of the U.N. Spacy even into the first year of the New Era 0001 in 2013. At the end of 2015 the final rollout of the VF-1 was celebrated at a special ceremony, commemorating this most famous of variable fighters. The VF-1 Valkryie was built from 2006 to 2013 with a total production of 5,459 VF-1 variable fighters with several variants (VF-1A = 5,093, VF-1D = 85, VF-1J = 49, VF-1S = 30, VF-1G = 12, VE-1 = 122, VT-1 = 68). However, beyond this original production several “re-built” variants existed, too, and remained active in many second line units and continued to show its worthiness years later, e. g. through Milia Jenius who would use her old VF-1 fighter in defense of the colonization fleet, even after 35 years after the type's service introduction!
General characteristics:
All-environment variable fighter and tactical combat Battroid, used by U.N. Spacy, U.N. Navy, U.N. Space Air Force. 3-mode variable transformation; variable geometry wing; vertical take-off and landing; control-configurable vehicle; single-axis thrust vectoring; three "magic hand" manipulators for maintenance use; retractable canopy shield for Battroid mode and atmospheric reentry; option of GBP-1S system, atmospheric-escape booster, or FAST Pack system
Accommodation:
Single pilot in Marty & Beck Mk-7 zero/zero ejection seat
Dimensions:
Battroid Mode:
Height 12.68 meters
Width 7.3 meters
Length 4.0 meters
Fighter Mode:
Length 14.23 meters
Wingspan 14.78 meters (at 20° minimum sweep)
Height 3.84 meters
Empty weight: 13.25 metric tons
Standard take-off mass: 18.5 metric tons
MTOW: 37.0 metric tons
Power Plant:
2x Shinnakasu Heavy Industry/P&W/Roice FF-2001 thermonuclear reaction turbine engines, output 650 MW each, rated at 11,500 kg in standard or in overboost (225.63 kN x 2);
4x Shinnakasu Heavy Industry NBS-1 high-thrust vernier thrusters (1 x counter reverse vernier thruster nozzle mounted on the side of each leg nacelle/air intake, 1 x wing thruster roll control system on each wingtip);
18x P&W LHP04 low-thrust vernier thrusters beneath multipurpose hook/handles
Performance:
Battroid Mode: maximum walking speed 160 km/h
Fighter Mode: at 10,000 m Mach 2.71; at 30,000+ m Mach 3.87
g limit: in space +7
Thrust-to-weight ratio: empty 3.47; standard TOW 2.49; maximum TOW 1.24
Transformation:
Standard time from Fighter to Battroid (automated): under 5 sec.
Min. time from Fighter to Battroid (manual): 0.9 sec.
Armament:
1x Mauler RÖV-20 anti-aircraft laser cannon in the "head" unit, firing 6,000 pulses per minute
1x Howard GU-11 55 mm three-barrel Gatling gun pod with 200 RPG, fired at 1,200 rds/min
4x underwing hard points for a wide variety of ordnance, including
12x AMM-1 hybrid guided multipurpose missiles (3/point), or
12x MK-82 LDGB conventional bombs (3/point), or
6x RMS-1 large anti-spaceship reaction missiles (2/outboard point, 1/inboard point), or
4x UUM-7 micro-missile pods (1/point) each carrying 15 x Bifors HMM-01 micro-missiles,
or a combination of above load-outs and other guided and unguided ordnance
The kit and its assembly:
After a long time, I found enough mojo to tackle another ARII 1:100 VF-1, but this time in Battroid mode. Unlike the simple Fighter mode kits, ARII’s Battroid kit of the iconic Valkyrie is more demanding and calls for some structural modifications to create a decent and presentable “giant robot” model – OOB, the model remains quite two-dimensional and “stiff”. The much newer WAVE kit in 1:100 scale is certainly a better model of the VF-1, but I love the old ARII kits because of their simplicity.
The kit is a “Super Valykrie” model, but it donated its FAST pack extra parts to a space-capable VF-1 Fighter build a long time ago and has been collecting dust in The Stash™ (SF/mecha sub-department at the Western flank) since then. The complete Battroid model was still left, though, even with most of the decals, and when I recently searched for artwork/visual references for another Macross project I came across screenshots from the original TV series of a canonical VF-1 that I had been planning to build for some years, and so I eventually set things in motion.
The kit was basically built OOB, but it received some upgrades. More severe surgery would be necessary to create a “good” Battroid model – e. g. creating vertical recesses around the torso – but this is IMHO not worthwhile. These updates included additional joints in the upper arms and legs, created with styrene tubes, as well as a new hip construction made from coated steel wire and styrene tube material that allows a three-dimensional posture of the legs - for a more vivid appearance and more dynamic poses. Other small mods that enhance the overall impression are “opened” exhausts inside of the feet and a different, open left hand. The GU-11 pod/handgun was taken OOB, it just received a shoulder belt created with painted masking tape. The single laser cannon on the head received a fairing made from paper tissue drenched with white glue.
Even though the model kit itself is not complex, it is a very early mecha kit: the VF-1 Battroids already came with vinyl caps (some of the contemporary ARII Macross models did not feature these useful items yet), but the model was constructed in an “onion layer” fashion that makes building and painting a protracted affair, esp. on arms and legs. You are supposed to finish a certain section, and then you add the next section like a clamp, while areas of the initial section become inaccessible for sanding and painting inside of the new section. You can only finish the single sections up to basic painting, mask them, and then add the next stage. Adding some joints during the construction phase helped but building an ARII VF-1 Battroid simply takes time and patience…
Painting and markings:
As mentioned above, this Valkyrie’s livery is canonical and it depicts a so-called “Alaska Guard” VF-1, based at the U.N. Spacy’s headquarters at Eielson Air Force Base in the far North of the United States around 2008/9. Several Battroid mode VF-1s in this guise appear during episode #15 of the original Macross TV series and offer a good look at their front and back, even though close inspection reveals that the livery was – intentionally or incidentally – not uniform! There are subtle differences between the VF-1s from the same unit, so that there’s apparently some room for artistic freedom.
However, this rather decorative livery IMHO works best on a VF-1 Battroid model, because the green areas, esp. on head and arms, mostly disappears when the Valkyrie transforms into Fighter mode – in the original TV livery the VF-1 is completely white from above, just with green wing tips and rudders on the V-tail.
A full profile of an “Alaska Guard” VF-1 with more details concerning markings and stencils can furthermore be found in Softbank Publishing’s (discontinued) “Variable Fighter Master File VF-1 Valkyrie” source book, even though these drawings show further differences to the original TV appearance. In the book the unit is identified as SVF-15 “Blue Foxes”, evolved from the real USAF’s 18th Aggressor Squadron in 2008. Looking at the VF-1’s colors, this unit name appears a bit odd, because the livery is basically all-white with olive-green trim? This could be a simple translation issue, though, because “blue” and “green” are in written Japanese described with the same kanji (青, “ao”). On the other side, the 18th Aggressor Squadron was/is nicknamed “Blue Foxes”? Strange, strange…
To ease painting, the model was built in sub-assemblies (see comments above) and treated separately. To avoid brush painting mess with the basic white, the sub-sections received a coat of very light grey (RAL 7047 Telegrau) and a pure white tone, both applied from rattle cans with an attempt to create a light shading effect. The green trim and further details were added with brushes. I used Revell 360 (Fern Green, RAL 6025), because it is a strong but still somewhat dull/subdued tone that IMHO matches the look from the TV series well. Some detail areas like the air intake louvres, the hollow of the knees and the handgun were painted in medium grey (Humbrol 140), so that the contrast to the rest was not too strong. The “feet” received an initial coat of Humbrol 53 (Iron) as a dark primer.
In “reality”, parts of the VF-1’s torso in Battroid mode are actually open – the kit is very simplified. To create an optical illusion of this trench and to visually “stretch” the rather massive breast section, the respective areas were painted with dark grey (Humbrol 79). There are also many position lights all around the hull; these were initially laid out with silver, the bigger ones received felt tip pen details, and they were later overlaid with clear acrylic paints.
Once the basic painting had been done, a light black ink washing was applied to the parts to emphasize engraved panel lines and recesses. After that the jet exhaust ‘feet’ were painted with Humbrol’s Steel Metallizer and some post-shading through dry-brushing was done, concentrating on the green areas. This was rather done for visual plasticity than for a worn look: this Valkyrie was supposed to look quite bright and clean, after all it’s from a headquarter unit and not an active frontline vehicle.
The feet received a thorough graphite treatment, so that the Metallizer’s shine was further enhanced. Some surface details that were not molded into the parts (esp. around the shoulders and the covers of the main landing gear) were painted with a thin black felt tip pen.
Stencils and markings were taken from the kit’s OOB decal sheet. The thin bands around the arms and legs were created with generic 1mm decal strips and all the vernier thrusters (sixteen are visible on the Battroid) were created with home-printed decals – most of them are molded into the parts and apparently supposed to be painted, but the decals are a tidier and more uniform solution.
Before the final assembly, the parts received a coat with matt acrylic varnish. As final measures some black panel lines were emphasized with a felt tip pen and color was added to several lamps and small windows with clear paints.
I can hardly remember when I built my last VF-1 Battroid, but tackling this one after a long while was a nice distraction from my usual what-if builds. I am pleased that this model depicts a canonical Valkyrie from the original TV series beyond the well-known “hero” liveries. Furthermore, green is a rare color among VF-1 liveries, so that it is even more “collectible”.
While the vintage ARII kit is a rather limited affair, adding some joints considerably improved the model’s impression, even though there are definitively better kit options available today when you want to build a 1:100 Battroid — but these do certainly not provide this authentic “Eighties feeling”.
Page 2 of the 1959 March Fashion Digest and Fabric News. The particular issue came from Wyman's Fabric Store in South Bend, Indiana.
♡ A very versatile liner that can be used for just about anything!
♡ The heart can be turned black so you don't even see it!
Is this Hong Kong? Yes, it is! Hard to imagine that this is part of the busy, hectic, overly crowded city of Hong Kong.
We hiked here passing another beach and a waterfall where I jumped off the cliff! The entire day was really fun and adventurous because in the end we almost got lost and hiked in the dark. We ended up being picked up by a boat in the middle of nowhere. I love such adventures!
1981 FIAT 44-28 (Versatile 875) 4WD tractor.
Supplied by the Townsend Group.
Cheffins vintage and classic auction, Sutton -
"Serial No. 055779 Stated to be in good condition with new top link, operators and parts manual included."
Sold for £28,200.
THE VERSATILITY OF THIS ESCAPE ARTIST, MAGICIAN, ILLUSIONIST, FORMER U.S.M.C. DRILL INSTRUCTOR 2X, RECRUITER FOR U.S.M.C., UNICYCLIST, JUGGLER, GYMNAST, MARATHON RUNNER, COMBAT INSTRUCTOR FOR NAVY SEALS, MARTIAL ARTS EXPERT IN A NUMBER OF ARTS, SURFER, DAREDEVIL, HANDGLIDER, FATHER OF FIVE CHILDREN, 6X WORLD RECORD HOLDER IN ESCAPOLOGY AND 46 MPH HANDSTAND ON SKATEBOARD TIED TO A MOTORCYCLE, TEACHER IN GYMNASTICS, MARTIAL ARTS, CIRCUS PERFORMER HIGH WIRE, PARACHUTIST, SPECIAL FORCES IN MARINES, FASTEST JAIL BREAK IN 22 SECONDS, FASTEST STRAITJACKET ESCAPE LESS THAN 7 SECONDS...IS UNMEASURABLE TO ANY OTHER ESCAPE ARTIST IN THE WORLD AND PERHAPS IN HISTORY. I HAVE SUPPLIED BUT A FEW PHOTOS THAT ARE LEFT FROM HOUDENNY'S EX-WIFE TAKING THEM AND PREVIOUS REPORTERS MISPLACING THEM DURING INTERVIEWS, WHICH IS A SHAME HAVING SO MANY YEARS LOST OF THIS MAN' TALENT.
www.ibmring362.org/WEAR2007.html
www.motiono.com/HOUDENNY/albums/177/
www.motiono.com/HOUDENNY/albums/
www.flickr.com/photos/12421016@N03/?saved=1
URL: myspace.com/houdenny
A variant of the versatile "Serial Rapist", the "Serial Stalker" was designed as a recon/sniper model. In this redesign, the standard sensor array was replaced with a more powerful model that would extend the VT's sensor range to five miles. The communications pack was upgraded and can now recieve images via satellite allowing the pilot to see virtually everything around him.
All this equipment is made even more important by the fact that the Stalker, while powerful, is extremely susceptible to ground attacks. Stalkers are protected by a crew of foot soldiers and the sheer impossibility of sneek attack.
In the conversion, the Rapist's 20mm rifle was replaced with a 70mm sniper rifle. The rifle's rounds make the weapon even more effective when they are equipt with a delayed explosive charge. Most are. Coupled with the advanced sensor array, a Serial Stalker can hit a target 4-5 miles away with ease. Tactical teams in which several Stalkers are linked can extend that range by several miles.
Stalkers are most commonly deployed on simple patrol missions with two or three Serial Rapists. Their sensors are put to the most use as they march down streets gathering information on civilians that might be discussing something the government strictly forbids, like vacation or marriage. On rare occasions they might catch wind of a coup which they can end immediately before the plotters even know someone's listening.
But Big Brother is always listening.....
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ps. If anybody didn't see this post I need some help piece wise and am willing to trade. Details are in the post.
A set of 3 images taken to show the amazing versatility and picture quality of my new Canon SX40 HS P&S camera. The 3 images were taken at 3 focal lengths ranging from 24 mm to 840 mm (35 mm equivalents). This image was taken at the equivalent of about 54 mm. Only some minor post processing was done to straighten the images. The results are quite amazing, given how small and inexpensive the camera is. Compare the size of the house with the white garage doors in the left-of-center back of the image with the same house photographed at 24 mm and 840 mm from the same spot.
Please Click on the Image to View Large On Black.
FORT IRWIN, Calif. - U.S. Army Soldiers from 1st Battalion, 8th Infantry Regiment, 3rd Armored Brigade Combat Team, 4th Infantry Division, participate in training exercise during Decisive Action Rotation 15-02 at the National Training Center here, Nov. 06, 2014. Decisive Action Rotations at the NTC ensure brigade combat teams remain versatile, responsive and consistently available for the current fight and unforeseen future contingencies. (U.S. Army photo by Spc. Michelle U. Blesam, Operations Group, National Training Center)
Red velvet jacket, Cami. Lace overlay cami, George. Embellished hem skirt, Newport News. Brown boots, Nine West. Amber pendant, Ali’s Boutique. Beaded necklaces, Body Central.
This jacket has proven to be fairly versatile. I’ve paired it with brown, black, and red with good results. I think my favorite combo was with the leopard tank and peep-toes (middle picture). But my favorite photo is the one I took laying on the floor in the hallway.
In the meantime I'll shoot my anniversary flowers - almost at their best before date...
CC, March Most Versatile, Purple & Yellow Complimentary Colours, CC, RG, Yellow
+++ DISCLAIMER +++
Nothing you see here is real, even though the model, the conversion or the presented background story might be based historical facts. BEWARE!
Some background:
The Boeing 727 was an American midsized, narrow-body three-engine jet aircraft built by Boeing Commercial Airplanes from the early 1960s to 1984. Intended for short and medium-length flights, it could carry 149 to 189 passengers and later models could fly up to 2,700 nautical miles (5,000 km) nonstop. It was originally powered by three Pratt & Whitney JT8D engines below the T-tail, one on each side of the rear fuselage with a center engine that connected through an S-duct to an inlet at the base of the fin.
The 727 followed the 707 and the 720, both quad-jet airliners, with which it shared its upper fuselage cross-section and cockpit design. The 727 was designed as a more economical alternative to the 707/720s and was tailored to operations from smaller airports, so independence from ground facilities was an important requirement. This led to one of the 727's most distinctive features: the built-in airstair that opened from the rear underbelly of the fuselage, which initially could be opened in flight (a feature that was later blocked). Nose wheel brakes were available as an option to reduce braking distance on landing, which provided reduction in braking distances of up to 150 m. In order to protect the tail section in the event of an over-rotation on take-off, the 727 was equipped with a retractable tailskid. Another innovation was the auxiliary power unit (APU), which allowed electrical and air-conditioning systems to run independently of a ground-based power supply, and without having to start one of the main engines. An unusual design feature was that the APU was mounted in a hole in the keel beam web, in the main landing gear bay.
The 727's fuselage had an outer diameter of 148 inches (3.8 m). This allowed six-abreast seating (three per side) and a single aisle when 18-inch (46 cm) wide coach-class seats were installed. An unusual feature of the fuselage was the 10-inch (25 cm) difference between the lower lobe forward and aft of the wing, as the higher fuselage height of the center section was simply retained towards the rear.
The 727 proved to be such a reliable and versatile airliner that it came to form the core of many startup airlines' fleets. The 727 was successful with airlines worldwide partly because it could use smaller runways while still flying medium-range routes. This allowed airlines to carry passengers from cities with large populations, but smaller airports, to worldwide tourist destinations. One of the features that gave the 727 its ability to land on shorter runways was its clean wing design: With no wing-mounted engines, leading-edge devices (Krueger, or hinged, flaps on the inner wing and extendable leading edge slats out to the wingtip) and trailing-edge lift enhancement equipment (triple-slotted, fowler flaps) could be used on the entire wing. Together, these high-lift devices produced a maximum wing lift coefficient of 3.0 (based on the flap-retracted wing area).
The 727-100 first flew in February 1963 and entered service with Eastern Air Lines in February 1964; the stretched 727-200 flew in July 1967 and entered service with Northeast Airlines that December. After the global success of the -100 and especially the stretched -200 series, Boeing considered another version, the -300 series, a thoroughly modified variant, dedicated to the South American and Asian markets and optimized for “hot and high” climate operations.
The basis for the -300 was the extended -200 airframe, but in order to improve security as well as landing and starting characteristics, a fourth engine was added for extra thrust. This changed the tail layout completely, since the central JT8D and its S-duct were deleted. Instead, the 727-300’s four engines were re-arranged in two new twin-nacelles along the reinforced rear fuselage, similar to the Vickers VC-10 and Ilyushin Il-62 long-range airliners, which were both bigger/heavier aircraft, though. With the fourth engine’s extra power, the -300 became the Boeing 727 variant with the shortest take-off run: only 1.5 miles were necessary to get airborne (vs. 2 miles for late 727-200 variants and even less than 1,6 miles for the lighter, early 727-100). It also had the highest operational ceiling and an improved rate of climb, but top speed and range remained virtually unaffected.
In order to better cope with smaller airfields with less-than-perfect runways and higher landing speeds, the -300’s landing gear was reinforced and the twin wheels on the 727’s main legs replaced with four-wheel bogies. This necessitated bigger landing gear wells and the relocation of the APU into the rear fuselage, occupying the space of the former middle engine. The 727’s tail-mounted airstair was retained, and basically any interior feature and layout of the 727-200 cabin could be ordered for the -300, too, including side freight doors and equipment for mixed cargo/passenger operations.
Even though thrust-reversers were planned for all four engines, the inboard devices were omitted for serial production aircraft due to continued tail plane buffeting on the prototype, which flew in March 1970 for the first time. In order to compensate for this loss of braking power, Boeing’s engineers added a unique feature to the 727-300: a drogue parachute, which could be deployed to relieve the brakes and augment the outer JT8D’s thrust reversers, once the landing speed had been reduced to 80 knots or less. The parachute was mounted in a clamshell compartment in the now empty tail section.
However, the improved performance came at a price: through its additional engine, the 727-300 turned out to be costly to operate, being almost on par with the 707 and 720 models, which the 727 was originally intended to replace. In consequence, this specialized variant was only built in small numbers and found only a few operators. Launch customer was Aéromexico in 1972, ordering ten -301 machines primarily for domestic and South American routes. Other major civil operators became Air India with eight -302 machines, TAME (EP Linea Aerea del Ecuador) with six -303 aircraft, and Aerolíneas Argentinas with five -304 aircraft. A total of six machines were furthermore built under the designation C-22D for military operators; two of them flew as VIP transports for the USAF (also carrying out CIA missions, the integral airstair was a convenient detail of the type), and two each flew for the air forces of Mexico and Pakistan.
The highest production rate of the 727 was in the 1970s. Airport noise regulations have led to 727s being equipped with hush kits, the last 727 was completed in 1984. Successor models include variants of the 737 and the 757-200. The last commercial passenger flight of the 727 was in January 2019 in Iran, even though a few machines of the type still remain in government and private use or operate as freighters.
General characteristics:
Crew: 3 (+ 3 flight attendants)
Length: 153 ft 2 in (46.68m)
Wingspan: 108 ft (32.92m)
Height: 34 ft 11 in (10.65m)
Wing area: 1,650 sq ft (153 m²), 32° sweep
Empty weight: 100,700 lb (45,720 kg)
Max. takeoff weight: 209,500 lb (95,100 kg)
Fuel capacity: 8,090 US gal (30,620 l)
Cabin width: 140 in/3.56m
Two-class seats: 134 (20F@38" + 114Y@34")
Single-class seats: 155@34", absolute maximum of 189 passengers
Powerplant:
4× Pratt & Whitney JT8D-11 low-bypass (0.96 to 1) turbofan engines,
delivering 15,000 lbf (66.72 kN) each
Performance:
Maximum speed: Mach 0.9 (961 km/h; 519 kn)
Cruise speed: Mach 0.86 (917 km/h; 495 kn)
Landing speed: 151 ml/h (244 km/h; 135 kn)
Rate of climb: 1,920 ft/min (9.8 m/s)
Maximum service ceiling: 44,550 ft (13,600 m)
Range: 1,900 nmi (2,173 ml, 3,500 km)
Takeoff distance to 35 ft (11 m): 7,860 ft (2,400 m)
Landing distance from 50 ft (15 m): 2,160ft at maximum gross landing weight with thrust reverser,
1,800ft with additional drogue parachute deployment
The kit and its assembly:
This model became the third and relatively spontaneous entry for the “More or less engines” group build at whatifmodelers.com. It was actually an early idea for the GB, but I rejected it at first because I usually do not build small-scale airliners and did not have any ingredient for the build at hand. However, a fellow modeler had a similar idea, a four-engine Sud Aviation Caravelle, and upon discussing the project in the forum I became eventually convinced to build this conceptual sister ship, even though the procurement of its major ingredients took some time.
I considered and checked several Boeing 727 kits on the market, and settled for the Minicraft kit – in particular its USAF C-22C boxing. The Revell kit, a 727-100, was rejected as outdated rubbish and due to its short fuselage, and the Airfix kit, a long -200, also fell through because of its raised surface details and simply for being an Airfix kit.
The Minicraft kit was the only option left – and even though it has its weak points, too (like the wings’ massive leading edges and a so-so fit of the fuselage halves), it turned out to be a sound basis for this modification project. Its main selling points were engraved surface details, the lack of passenger cabin window openings and separate decals for the windows. Esp. the latter two factors were an important part of my construction and painting plan for this build (see below).
Another important ingredient for this build were the engines. For a quad-engine conversion I found a resin set for VC-10 engines from Bra.Z Models (and procured them from Hong Kong!), which are a good match in size and shape. Furthermore, due to the more massive rear end and potential operations from less-than-perfect runways, I decided to replace the original twin main wheels with four-wheel bogies, taken from the remains of a Hasegawa 1:200 Boeing 747 kit. Since the 727’s main landing gear well doors remain closed on the ground, this change was relatively simple to make.
The only major change beyond the engine nacelle swap concern the fin and the tail tip: the original 2nd engine and its air intake with the S-duct had to go. This stunt was more challenging than it sounds at first, because the intake duct widens the fin’s root considerably, and the respective bulge reaches very far back, almost reaching the rudder!
This meant that a considerable portion of the fin had to be cut away, what also left a gap in the fuselage spine. The latter was filled with a piece of 0.5mm styrene sheet from inside of the fuselage (before the halves were glued together), and then a “prosthesis” from 1.5mm styrene sheet was inserted into the gap in the fin, trying to sculpt a suitable profile with a mild curve at the fin’s base, inspired the early 737s’ fin shape.
Around this skeleton, I built the new fin with the help of 2C putty, because some serious sculpting was necessary to create a suitable fin profile and shape that would blend into the existing fin section. A proper intersection at the fin’s base had to be created, too, a real 3D puzzle, more complex than one might think at first!
The tail exhaust opening was trimmed down to a wedge shape, and then the tail tip was filled/sculpted with a 2C putty plug, creating a clamshell shape for the fictional brake parachute container without extending the tail tip too much.
A small APU outlet was added on the new tail tip’s starboard side, too, while the APU’s intake was placed in the fin’s lower leading edge. The original ventral APU intake between the wings was faired over.
One of the Minicraft kit’s weak points is the shape of the wings’ leading edges: they look very crude and solid, with an almost vertical front. In an attempt to mend this flaw, I tried to give the leading edges a more rounded shape with the help of putty.
The model’ nose section was filled with a lot of lead and, for the model’s in-flight pics, I added a ventral, vertical styrene tube in the model’s center of gravity as a display holder adapter.
Painting and markings:
The idea behind this four-engine 727 was a dedicated “hot & high” variant, so I searched for an obvious operator, and it was to be a commercial airline. Mexico became my first and favorite candidate, despite the fact that Aéromexico did not operate any Boeing aircraft during the Seventies, rather a fleet of mixed Douglas aircraft. I also found the airline’s livery of that era to be very attractive, with an NMF finish and orange and black trim - very elegant and colorful.
Finding suitable decals became a challenge, though. After some research I found a DC-8 Aéromexico sheet from 26decals – it not only matched the intended time slot, it also had the benefit of coming with separate decals for cheat lines and windows. This was a perfect match for the window-less Minicraft Boeing 727 kit, and, as a convenient complement, the kit’s C-22 boxing had the benefit that it depicts a uniform, white aircraft, so that its decal sheet comes with “clean” window and door decals, without any colored background. A perfect match for my plan!
Painting was straightforward. After having finished the building phase, I gave the model an initial coat of grey acrylic primer from the rattle can. Some small surface blemishes had to be corrected, and then I added light grey panels on top of the wings and the stabilizers (Humbrol 40, gloss FS 36440). The fin as well as the engine pods and the wing tips were painted in orange; Humbrol 18 (Gloss Orange) came very close to the decals’ tone. These areas were masked with Tamiya tape and then the model received an overall coat with a tone called “White Aluminum”, also from the rattle can.
Thereafter, the decals for the orange and black trim were applied. Since the DC-8 decals would not fit the 727 fuselage in every place, orange paint and generic black and silver decal stripes (TL Modellbau) were used for fine-tuning. Once the “style” decals were applied, the windows were added and the model received an overall coat of gloss acrylic varnish, also from the rattle can.
In a final step, the landing gear (painted all glossy white) was mounted.
This conversion appears simple at first sight, but the execution caused some headaches. The challenge was not so much building this model, but rather getting all the major input parts and pieces together. Creating a new fin shape was also more challenging than one would expect at first sight. However, the result is quite subtle, and I guess that this fictional 727-300 might make some people look twice, since it reminds a lot of the (bigger) Vickers VC10. Indeed, the outlines are very similar.