Steven F. Udvar-Hazy Center: SR-71 Blackbird best view panorama

Steven F. Udvar-Hazy Center: SR-71 Blackbird best view panorama

A handful of nice surface grinding aluminum pictures I discovered:

Steven F. Udvar-Hazy Center: SR-71 Blackbird best view panorama

Image by Chris Devers
See far more images of this, and the Wikipedia report.

Specifics, quoting from Smithsonian National Air and Space Museum | Lockheed SR-71 Blackbird:

No reconnaissance aircraft in history has operated globally in a lot more hostile airspace or with such complete impunity than the SR-71, the world’s quickest jet-propelled aircraft. The Blackbird’s functionality and operational achievements placed it at the pinnacle of aviation technologies developments during the Cold War.

This Blackbird accrued about two,800 hours of flight time for the duration of 24 years of active service with the U.S. Air Force. On its final flight, March 6, 1990, Lt. Col. Ed Yielding and Lt. Col. Joseph Vida set a speed record by flying from Los Angeles to Washington, D.C., in 1 hour, 4 minutes, and 20 seconds, averaging 3,418 kilometers (2,124 miles) per hour. At the flight’s conclusion, they landed at Washington-Dulles International Airport and turned the airplane over to the Smithsonian.

Transferred from the United States Air Force.

Manufacturer:
Lockheed Aircraft Corporation

Designer:
Clarence L. &quotKelly&quot Johnson

Date:
1964

Country of Origin:
United States of America

Dimensions:
General: 18ft five 15/16in. x 55ft 7in. x 107ft 5in., 169998.5lb. (5.638m x 16.942m x 32.741m, 77110.8kg)
Other: 18ft 5 15/16in. x 107ft 5in. x 55ft 7in. (five.638m x 32.741m x 16.942m)

Materials:
Titanium

Physical Description:
Twin-engine, two-seat, supersonic strategic reconnaissance aircraft airframe constructed largley of titanium and its alloys vertical tail fins are constructed of a composite (laminated plastic-kind material) to minimize radar cross-section Pratt and Whitney J58 (JT11D-20B) turbojet engines function big inlet shock cones.

Long Description:
No reconnaissance aircraft in history has operated in a lot more hostile airspace or with such full impunity than the SR-71 Blackbird. It is the quickest aircraft propelled by air-breathing engines. The Blackbird’s performance and operational achievements placed it at the pinnacle of aviation technologies developments in the course of the Cold War. The airplane was conceived when tensions with communist Eastern Europe reached levels approaching a complete-blown crisis in the mid-1950s. U.S. military commanders desperately needed accurate assessments of Soviet worldwide military deployments, specifically close to the Iron Curtain. Lockheed Aircraft Corporation’s subsonic U-two (see NASM collection) reconnaissance aircraft was an able platform but the U. S. Air Force recognized that this comparatively slow aircraft was currently vulnerable to Soviet interceptors. They also understood that the rapid development of surface-to-air missile systems could place U-2 pilots at grave risk. The danger proved reality when a U-two was shot down by a surface to air missile over the Soviet Union in 1960.

Lockheed’s 1st proposal for a new high speed, higher altitude, reconnaissance aircraft, to be capable of avoiding interceptors and missiles, centered on a design and style propelled by liquid hydrogen. This proved to be impracticable since of considerable fuel consumption. Lockheed then reconfigured the design and style for standard fuels. This was feasible and the Central Intelligence Agency (CIA), already flying the Lockheed U-2, issued a production contract for an aircraft designated the A-12. Lockheed’s clandestine ‘Skunk Works’ division (headed by the gifted design and style engineer Clarence L. &quotKelly&quot Johnson) developed the A-12 to cruise at Mach 3.2 and fly nicely above 18,288 m (60,000 feet). To meet these challenging specifications, Lockheed engineers overcame numerous daunting technical challenges. Flying far more than three instances the speed of sound generates 316° C (600° F) temperatures on external aircraft surfaces, which are sufficient to melt conventional aluminum airframes. The design team chose to make the jet’s external skin of titanium alloy to which shielded the internal aluminum airframe. Two standard, but really potent, afterburning turbine engines propelled this exceptional aircraft. These energy plants had to operate across a massive speed envelope in flight, from a takeoff speed of 334 kph (207 mph) to far more than three,540 kph (two,200 mph). To avert supersonic shock waves from moving inside the engine intake causing flameouts, Johnson’s team had to design and style a complex air intake and bypass method for the engines.

Skunk Operates engineers also optimized the A-12 cross-section style to exhibit a low radar profile. Lockheed hoped to achieve this by carefully shaping the airframe to reflect as small transmitted radar power (radio waves) as feasible, and by application of special paint created to absorb, rather than reflect, these waves. This therapy became one of the very first applications of stealth technology, but it by no means completely met the design ambitions.

Test pilot Lou Schalk flew the single-seat A-12 on April 24, 1962, right after he became airborne accidentally in the course of high-speed taxi trials. The airplane showed wonderful guarantee but it necessary considerable technical refinement ahead of the CIA could fly the very first operational sortie on May possibly 31, 1967 – a surveillance flight over North Vietnam. A-12s, flown by CIA pilots, operated as portion of the Air Force’s 1129th Special Activities Squadron below the &quotOxcart&quot program. Even though Lockheed continued to refine the A-12, the U. S. Air Force ordered an interceptor version of the aircraft designated the YF-12A. The Skunk Works, however, proposed a &quotspecific mission&quot version configured to conduct post-nuclear strike reconnaissance. This method evolved into the USAF’s familiar SR-71.

Lockheed constructed fifteen A-12s, including a particular two-seat trainer version. Two A-12s have been modified to carry a unique reconnaissance drone, designated D-21. The modified A-12s were redesignated M-21s. These had been developed to take off with the D-21 drone, powered by a Marquart ramjet engine mounted on a pylon between the rudders. The M-21 then hauled the drone aloft and launched it at speeds high enough to ignite the drone’s ramjet motor. Lockheed also constructed 3 YF-12As but this variety never ever went into production. Two of the YF-12As crashed throughout testing. Only one survives and is on show at the USAF Museum in Dayton, Ohio. The aft section of one particular of the &quotwritten off&quot YF-12As which was later utilized along with an SR-71A static test airframe to manufacture the sole SR-71C trainer. 1 SR-71 was lent to NASA and designated YF-12C. Including the SR-71C and two SR-71B pilot trainers, Lockheed constructed thirty-two Blackbirds. The first SR-71 flew on December 22, 1964. Since of intense operational expenses, military strategists decided that the a lot more capable USAF SR-71s should replace the CIA’s A-12s. These were retired in 1968 following only one particular year of operational missions, largely more than southeast Asia. The Air Force’s 1st Strategic Reconnaissance Squadron (part of the 9th Strategic Reconnaissance Wing) took over the missions, flying the SR-71 beginning in the spring of 1968.

Soon after the Air Force began to operate the SR-71, it acquired the official name Blackbird– for the unique black paint that covered the airplane. This paint was formulated to absorb radar signals, to radiate some of the tremendous airframe heat generated by air friction, and to camouflage the aircraft against the dark sky at high altitudes.

Encounter gained from the A-12 plan convinced the Air Force that flying the SR-71 safely necessary two crew members, a pilot and a Reconnaissance Systems Officer (RSO). The RSO operated with the wide array of monitoring and defensive systems installed on the airplane. This equipment included a sophisticated Electronic Counter Measures (ECM) system that could jam most acquisition and targeting radar. In addition to an array of advanced, high-resolution cameras, the aircraft could also carry equipment designed to record the strength, frequency, and wavelength of signals emitted by communications and sensor devices such as radar. The SR-71 was made to fly deep into hostile territory, avoiding interception with its tremendous speed and high altitude. It could operate safely at a maximum speed of Mach 3.3 at an altitude more than sixteen miles, or 25,908 m (85,000 ft), above the earth. The crew had to put on pressure suits similar to these worn by astronauts. These suits were required to protect the crew in the event of sudden cabin stress loss whilst at operating altitudes.

To climb and cruise at supersonic speeds, the Blackbird’s Pratt &amp Whitney J-58 engines were made to operate constantly in afterburner. Even though this would seem to dictate higher fuel flows, the Blackbird really achieved its greatest &quotgas mileage,&quot in terms of air nautical miles per pound of fuel burned, for the duration of the Mach 3+ cruise. A typical Blackbird reconnaissance flight might call for many aerial refueling operations from an airborne tanker. Each time the SR-71 refueled, the crew had to descend to the tanker’s altitude, normally about 6,000 m to 9,000 m (20,000 to 30,000 ft), and slow the airplane to subsonic speeds. As velocity decreased, so did frictional heat. This cooling effect triggered the aircraft’s skin panels to shrink significantly, and those covering the fuel tanks contracted so a lot that fuel leaked, forming a distinctive vapor trail as the tanker topped off the Blackbird. As quickly as the tanks had been filled, the jet’s crew disconnected from the tanker, relit the afterburners, and once again climbed to high altitude.

Air Force pilots flew the SR-71 from Kadena AB, Japan, all through its operational profession but other bases hosted Blackbird operations, as well. The 9th SRW sometimes deployed from Beale AFB, California, to other areas to carryout operational missions. Cuban missions have been flown straight from Beale. The SR-71 did not begin to operate in Europe until 1974, and then only temporarily. In 1982, when the U.S. Air Force primarily based two aircraft at Royal Air Force Base Mildenhall to fly monitoring mission in Eastern Europe.

When the SR-71 became operational, orbiting reconnaissance satellites had currently replaced manned aircraft to collect intelligence from sites deep inside Soviet territory. Satellites could not cover each geopolitical hotspot so the Blackbird remained a vital tool for international intelligence gathering. On numerous occasions, pilots and RSOs flying the SR-71 offered details that proved important in formulating effective U. S. foreign policy. Blackbird crews offered essential intelligence about the 1973 Yom Kippur War, the Israeli invasion of Lebanon and its aftermath, and pre- and post-strike imagery of the 1986 raid carried out by American air forces on Libya. In 1987, Kadena-based SR-71 crews flew a quantity of missions more than the Persian Gulf, revealing Iranian Silkworm missile batteries that threatened industrial shipping and American escort vessels.

As the efficiency of space-primarily based surveillance systems grew, along with the effectiveness of ground-primarily based air defense networks, the Air Force started to shed enthusiasm for the expensive plan and the 9th SRW ceased SR-71 operations in January 1990. Despite protests by military leaders, Congress revived the program in 1995. Continued wrangling over operating budgets, even so, soon led to final termination. The National Aeronautics and Space Administration retained two SR-71As and the one particular SR-71B for higher-speed investigation projects and flew these airplanes until 1999.

On March 6, 1990, the service profession of one Lockheed SR-71A Blackbird ended with a record-setting flight. This specific airplane bore Air Force serial quantity 64-17972. Lt. Col. Ed Yeilding and his RSO, Lieutenant Colonel Joseph Vida, flew this aircraft from Los Angeles to Washington D.C. in 1 hour, 4 minutes, and 20 seconds, averaging a speed of 3,418 kph (two,124 mph). At the conclusion of the flight, ‘972 landed at Dulles International Airport and taxied into the custody of the Smithsonian’s National Air and Space Museum. At that time, Lt. Col. Vida had logged 1,392.7 hours of flight time in Blackbirds, more than that of any other crewman.

This specific SR-71 was also flown by Tom Alison, a former National Air and Space Museum’s Chief of Collections Management. Flying with Detachment 1 at Kadena Air Force Base, Okinawa, Alison logged far more than a dozen ‘972 operational sorties. The aircraft spent twenty-4 years in active Air Force service and accrued a total of 2,801.1 hours of flight time.

Wingspan: 55’7&quot
Length: 107’5&quot
Height: 18’6&quot
Weight: 170,000 Lbs

Reference and Further Reading:

Crickmore, Paul F. Lockheed SR-71: The Secret Missions Exposed. Oxford: Osprey Publishing, 1996.

Francillon, Rene J. Lockheed Aircraft Given that 1913. Annapolis, Md.: Naval Institute Press, 1987.

Johnson, Clarence L. Kelly: A lot more Than My Share of It All. Washington D.C.: Smithsonian Institution Press, 1985.

Miller, Jay. Lockheed Martin’s Skunk Operates. Leicester, U.K.: Midland Counties Publishing Ltd., 1995.

Lockheed SR-71 Blackbird curatorial file, Aeronautics Division, National Air and Space Museum.

DAD, 11-11-01

Steven F. Udvar-Hazy Center: Space Shuttle Enterprise (crew working by a hatch by the back starboard wing)

Image by Chris Devers
See more photos of this, and the Wikipedia article.

Specifics, quoting from Smithsonian National Air and Space Museum | Space Shuttle Enterprise:

Manufacturer:
Rockwell International Corporation

Nation of Origin:
United States of America

Dimensions:
General: 57 ft. tall x 122 ft. extended x 78 ft. wing span, 150,000 lb.
(1737.36 x 3718.57 x 2377.44cm, 68039.6kg)

Components:
Aluminum airframe and physique with some fiberglass characteristics payload bay doors are graphite epoxy composite thermal tiles are simulated (polyurethane foam) except for test samples of actual tiles and thermal blankets.

The 1st Space Shuttle orbiter, &quotEnterprise,&quot is a complete-scale test car utilized for flights in the atmosphere and tests on the ground it is not equipped for spaceflight. Though the airframe and flight manage elements are like these of the Shuttles flown in space, this vehicle has no propulsion method and only simulated thermal tiles because these features were not necessary for atmospheric and ground tests. &quotEnterprise&quot was rolled out at Rockwell International’s assembly facility in Palmdale, California, in 1976. In 1977, it entered service for a nine-month-extended method-and-landing test flight plan. Thereafter it was utilized for vibration tests and fit checks at NASA centers, and it also appeared in the 1983 Paris Air Show and the 1984 World’s Fair in New Orleans. In 1985, NASA transferred &quotEnterprise&quot to the Smithsonian Institution’s National Air and Space Museum.

Transferred from National Aeronautics and Space Administration

• • •

Quoting from Wikipedia | Space Shuttle Enterprise:

The Space Shuttle Enterprise (NASA Orbiter Car Designation: OV-101) was the initial Space Shuttle orbiter. It was built for NASA as component of the Space Shuttle plan to carry out test flights in the atmosphere. It was constructed without having engines or a functional heat shield, and was as a result not capable of spaceflight.

Initially, Enterprise had been intended to be refitted for orbital flight, which would have produced it the second space shuttle to fly after Columbia. Even so, during the building of Columbia, details of the final style changed, especially with regard to the weight of the fuselage and wings. Refitting Enterprise for spaceflight would have involved dismantling the orbiter and returning the sections to subcontractors across the nation. As this was an high-priced proposition, it was determined to be much less costly to develop Challenger about a body frame (STA-099) that had been created as a test post. Similarly, Enterprise was considered for refit to replace Challenger following the latter was destroyed, but Endeavour was constructed from structural spares alternatively.

Service

Construction started on the initial orbiter on June four, 1974. Designated OV-101, it was originally planned to be named Constitution and unveiled on Constitution Day, September 17, 1976. A write-in campaign by Trekkies to President Gerald Ford asked that the orbiter be named after the Starship Enterprise, featured on the tv show Star Trek. Even though Ford did not mention the campaign, the president—who during Planet War II had served on the aircraft carrier USS&nbspMonterey&nbsp(CVL-26) that served with USS&nbspEnterprise&nbsp(CV-six)—said that he was &quotpartial to the name&quot and overrode NASA officials.

The style of OV-101 was not the identical as that planned for OV-102, the first flight model the tail was constructed differently, and it did not have the interfaces to mount OMS pods. A big quantity of subsystems—ranging from primary engines to radar equipment—were not installed on this car, but the capacity to add them in the future was retained. As an alternative of a thermal protection technique, its surface was mainly fiberglass.

In mid-1976, the orbiter was used for ground vibration tests, permitting engineers to examine information from an actual flight automobile with theoretical models.

On September 17, 1976, Enterprise was rolled out of Rockwell’s plant at Palmdale, California. In recognition of its fictional namesake, Star Trek creator Gene Roddenberry and most of the principal cast of the original series of Star Trek were on hand at the dedication ceremony.

Strategy and landing tests (ALT)

Main post: Approach and Landing Tests

On January 31, 1977, it was taken by road to Dryden Flight Research Center at Edwards Air Force Base, to start operational testing.

Whilst at NASA Dryden, Enterprise was utilized by NASA for a selection of ground and flight tests intended to validate elements of the shuttle system. The initial nine-month testing period was referred to by the acronym ALT, for &quotApproach and Landing Test&quot. These tests integrated a maiden &quotflight&quot on February 18, 1977 atop a Boeing 747 Shuttle Carrier Aircraft (SCA) to measure structural loads and ground handling and braking characteristics of the mated technique. Ground tests of all orbiter subsystems were carried out to confirm functionality prior to atmospheric flight.

The mated Enterprise/SCA mixture was then subjected to five test flights with Enterprise unmanned and unactivated. The objective of these test flights was to measure the flight traits of the mated combination. These tests had been followed with 3 test flights with Enterprise manned to test the shuttle flight handle systems.

Enterprise underwent five free flights exactly where the craft separated from the SCA and was landed below astronaut control. These tests verified the flight characteristics of the orbiter design and style and had been carried out below numerous aerodynamic and weight configurations. On the fifth and final glider flight, pilot-induced oscillation difficulties have been revealed, which had to be addressed ahead of the initial orbital launch occurred.

On August 12, 1977, the space shuttle Enterprise flew on its personal for the very first time.

Preparation for STS-1

Following the ALT system, Enterprise was ferried among several NASA facilities to configure the craft for vibration testing. In June 1979, it was mated with an external tank and solid rocket boosters (known as a boilerplate configuration) and tested in a launch configuration at Kennedy Space Center Launch Pad 39A.

Retirement

With the completion of critical testing, Enterprise was partially disassembled to permit particular components to be reused in other shuttles, then underwent an international tour going to France, Germany, Italy, the United Kingdom, Canada, and the U.S. states of California, Alabama, and Louisiana (during the 1984 Louisiana World Exposition). It was also used to fit-verify the never ever-utilised shuttle launch pad at Vandenberg AFB, California. Ultimately, on November 18, 1985, Enterprise was ferried to Washington, D.C., where it became house of the Smithsonian Institution.

Post-Challenger

Soon after the Challenger disaster, NASA regarded as utilizing Enterprise as a replacement. Even so refitting the shuttle with all of the essential equipment required for it to be employed in space was deemed, but as an alternative it was decided to use spares constructed at the very same time as Discovery and Atlantis to construct Endeavour.

Post-Columbia

In 2003, soon after the breakup of Columbia in the course of re-entry, the Columbia Accident Investigation Board carried out tests at Southwest Study Institute, which utilized an air gun to shoot foam blocks of related size, mass and speed to that which struck Columbia at a test structure which mechanically replicated the orbiter wing top edge. They removed a fiberglass panel from Enterprise’s wing to carry out evaluation of the material and attached it to the test structure, then shot a foam block at it. Although the panel was not broken as a result of the test, the effect was enough to permanently deform a seal. As the reinforced carbon-carbon (RCC) panel on Columbia was two.5 times weaker, this recommended that the RCC leading edge would have been shattered. Extra tests on the fiberglass had been canceled in order not to threat damaging the test apparatus, and a panel from Discovery was tested to determine the effects of the foam on a similarly-aged RCC leading edge. On July 7, 2003, a foam effect test produced a hole 41&nbspcm by 42.five&nbspcm (16.1&nbspinches by 16.7&nbspinches) in the protective RCC panel. The tests clearly demonstrated that a foam effect of the kind Columbia sustained could seriously breach the protective RCC panels on the wing top edge.

The board determined that the probable lead to of the accident was that the foam impact caused a breach of a reinforced carbon-carbon panel along the leading edge of Columbia’s left wing, permitting hot gases generated in the course of re-entry to enter the wing and lead to structural collapse. This brought on Columbia to spin out of control, breaking up with the loss of the entire crew.

Museum exhibit

Enterprise was stored at the Smithsonian’s hangar at Washington Dulles International Airport before it was restored and moved to the newly built Smithsonian’s National Air and Space Museum‘s Steven F. Udvar-Hazy Center at Dulles International Airport, exactly where it has been the centerpiece of the space collection. On April 12, 2011, NASA announced that Space Shuttle Discovery, the most traveled orbiter in the fleet, will be added to the collection as soon as the Shuttle fleet is retired. When that happens, Enterprise will be moved to the Intrepid Sea-Air-Space Museum in New York City, to a newly constructed hangar adjacent to the museum. In preparation for the anticipated relocation, engineers evaluated the vehicle in early 2010 and determined that it was protected to fly on the Shuttle Carrier Aircraft once once again.

1 Earth: Aerial View, Phoenix Driveway

1 Earth: Aerial View, Phoenix Driveway

A few good grinding surface photos I located:

One Earth: Aerial View, Phoenix Driveway

Image by cobalt123
For the 1 Earth group project, my picture selected for the group pool. This is taken in my driveway in late afternoon. The robust light approaching sunset casts magical dark shadows. The image appears to me like what I’ve observed from traveling on planes more than the vast unpopulated areas of the Southwest. Doesn’t it appear like there is a river branching beneath, with dark shadows reaching down from the nearest clouds to Earth’s surface and the highest altitude clouds moving along with a lot smoother blobs of shadow?

Truly, the dark shadows at the bottom of this image are from the guidelines of leaves on the nearby privet hedge. The extended &quotlog&quot or pipeline in the upper central focus is a rusty nail. If I had not taken this photo and looked at it in Photoshop, I would not have realized there was a NAIL in my driveway that necessary to be picked up!

Remarkable what you discover from searching straight down, at times. The preceeding photos are also from the driveway and out to the busy street in front of my house in central Phoenix. There is more pavement and asphalt here in this neighborhood than any other ground covering. This is also why it gets so exceptionally hot in metro Arizona and the heat stays, held like a warming plate does, in this pavement. Sometimes you can feel waves of heat increasing up through the ground as you stroll. I can’t wait for &quotwinter&quot to come!

SAM S-75 Dvina. ЗРК С-75 “Двина”

Image by Peer.Gynt
Saint-Petersburg. Artillery Museum.

The S-75 Dvina (Russian: С-75 NATO reporting name SA-2 Guideline) is a Soviet-developed, higher-altitude, command guided, surface-to-air missile (SAM). Because its 1st deployment in 1957 it has turn out to be the most broadly-deployed air defense missile in history. It scored the initial destruction of an enemy aircraft by a SAM, shooting down a Taiwanese Martin RB-57D Canberra over China, on October 7, 1959 by hitting it with 3 V-750 (1D) missiles at an altitude of 20 km (65,600 ft). The achievement was attributed to Chinese fighters at the time in order to keep the S-75 system secret.
This system initial gained international fame when an S-75 battery, employing the newer, longer-variety and larger-altitude V-750VN (13D) missile shot down the U-two of Francis Gary Powers overflying the Soviet Union on Might 1, 1960.[3] The program was also deployed in Cuba throughout the Cuban Missile Crisis, exactly where on October 27, 1962, it shot down the U-two flown by Rudolf Anderson, nearly precipitating nuclear war.[4] North Vietnamese forces utilized the S-75 extensively in the course of the Vietnam War to defend Hanoi and Haiphong. It has also been locally produced in the People’s Republic of China making use of the names HQ-1 and HQ-two. Other nations have produced so several local variants combining portions of the S-75 program with both indigenously-developed components or third-celebration systems that it has become practically impossible to discover a pure S-75 method nowadays,
Improvement
In the early 1950s, the United States Air Force rapidly accelerated its development of extended-variety jet bombers carrying nuclear weapons. The USAF plan led to the deployment of Boeing B-47 Stratojet supported by aerial refueling aircraft to extend its variety deep into the Soviet Union. The USAF quickly followed the B-47 with the improvement of the Boeing B-52 Stratofortress, which had greater range and payload than the B-47. The range, speed, and payload of these U.S. bombers posed a significant threat to the Soviet Union in the occasion of a war between the two nations.
onsequently, the Soviets initiated the development of improved air defense systems. Although the Soviet Air Defence Forces had massive numbers of anti-aircraft artillery (AAA), which includes radar-directed batteries, the limitations of guns versus higher-altitude jet bombers was obvious. Therefore, the Soviet Air Defense Forces began the improvement of missile systems to replace the World War II-vintage gun defenses.
In 1953, KB-2 began the development of what became the S-75 beneath the direction of Pyotr Grushin. This system focused on generating a missile which could bring down a big, non-maneuvering, higher-altitude aircraft. As such it did not require to be highly maneuverable, merely quick and able to resist aircraft counter-measures. For such a pioneering technique, improvement proceeded swiftly, and testing started a couple of years later. In 1957, the wider public very first became aware of the S-75 when the missile was shown at that year’s May Day parade in Moscow.
Initial deployment
Wide-scale deployment started in 1957, with various upgrades following over the next couple of years. The S-75 was by no means meant to replace the S-25 Berkut surface-to-air missile internet sites about Moscow, but it did replace high-altitude anti-aircraft guns, such as the 130 mm KS-30 and 100 mm KS-19. Amongst mid-1958 and 1964, U.S. intelligence assets located much more than 600 S-75 websites in the USSR. These internet sites tended to cluster around population centers, industrial complexes, and government control centers. A ring of internet sites was also positioned about likely bomber routes into the Soviet heartland. By the mid-1960s, the Soviet Union had ended the deployment of the S-75 with maybe 1,000 operational websites.
In addition to the Soviet Union, several S-75 batteries have been deployed throughout the 1960s in East Germany to defend Soviet forces stationed in that country. Later the system was sold to most Warsaw Pact countries and was supplied to China, North Korea, and ultimately, North Vietnam.
Employment
While the shooting down of Francis Gary Powers’ U-2 in 1960 is the 1st publicized success for the S-75, the first aircraft really shot down by the S-75 was a Taiwanese Martin RB-57D Canberra higher-altitude reconnaissance aircraft. In this case, the aircraft was hit by a Chinese-operated S-75 web site near Beijing on October 7, 1959. More than the next few years, the Taiwanese ROCAF would drop a quantity of aircraft to the S-75: both RB-57s and a variety of drones. On Might 1, 1960, Gary Powers’s U-two was shot down even though flying over the testing site close to Sverdlovsk, although it is thought to have taken 14 missiles to hit his higher-flying plane. That action led to the U-two Crisis of 1960. In addition, Chinese S-75s downed five ROCAF-piloted U-2s based in Taiwan.[five]
During the Cuban Missile Crisis, a U-two piloted by USAF Key Rudolf Anderson was shot down more than Cuba by an S-75 in October 1962.[six]
In 1965, North Vietnam asked for some help against American airpower, for their own air-defense system lacked the ability to shoot down aircraft flying at high altitude. Right after some discussion it was agreed to supply the PAVN with the S-75. The choice was not produced lightly, due to the fact it drastically elevated the chances that a single would fall into US hands for study. Web site preparation began early in the year, and the US detected the plan almost quickly on April 5, 1965. Even though military planners pressed for the websites to be attacked just before they could grow to be operational, their political leaders refused, fearing that Soviet technical staff may possibly be killed.
On July 24, 1965, a USAF F-4C aircraft was shot down by an SA-two.[7] 3 days later, the US responded with Operation Iron Hand to attack the other websites before they could grow to be operational. Most of the S-75 had been deployed about the Hanoi-Haiphong area and have been off-limits to attack (as have been local airfields) for political causes. President Lyndon Johnson announced on public Television that a single of the other internet sites would be attacked the next week. The Vietnamese removed the missiles and replaced them with decoys, whilst moving each and every obtainable anti-aircraft gun into the strategy routes. The tactic worked, causing heavy American casualties.
The missile technique was used extensively all through the globe, especially in the Middle East, where Egypt and Syria utilized them to defend against the Israeli Air Force, with the air defense net accounting for the majority of the downed Israeli aircraft. The final apparent accomplishment appears to have occurred during the War in Abkhazia (1992–1993), when Georgian missiles shot down a Russian Sukhoi Su-27 fighter close to Gudauta on March 19, 1993.
Countermeasures and counter-countermeasures
Among 1965 and 1966, the US delivered a quantity of options to the S-75 difficulty. The Navy soon had the Shrike missile in service and mounted their 1st offensive strike on a web site in October 1965. The Air Force responded by fitting B-66 bombers with potent jammers (that blinded the early warning radars) and by establishing smaller sized jamming pods for fighters (that denied range data to the radars). Later developments included the Wild Weasel aircraft, which have been fitted with anti-radiation air-to-surface missile systems produced to residence in on the radar from the threat. This freed them to shoot the websites with Shrikes of their personal.
The Soviets and Vietnamese, however, were able to adapt to some of these techniques. The USSR upgraded the radar many occasions to boost ECM (electronic counter measure) resistance. They also introduced a passive guidance mode, whereby the missile could lock on the jammer itself. This had an added benefit, simply because the radar had to be turned off, which prevented Shrikes from becoming fired. Additionally, some new tactics have been developed to combat the Shrike. A single of them was to point the radar to the side and then turn it off briefly. Given that the Shrike was a relatively primitive anti-radiation missile, it would follow the beam away from the radar and then basically crash when it lost the signal (right after the radar was turned off). One more was a &quotfalse launch&quot in which the tracking radar was turned on, but the missiles had been not truly fired. This permitted the missile crew to see if the target was equipped with a Shrike. If the aircraft fired one, the Shrike could be neutralized with the side-pointing technique without sacrificing any S-75s.
Despite these advances, the US was able to come up with efficient ECM packages for the B-52E models. These planes had been in a position to fly raids against Hanoi with comparatively few losses (though nonetheless considerable adequate to lead to some concern see Operation Linebacker II).
Replacement systems
Soviet Air Defence Forces started to replace the S-75 with the vastly superior SA-10 and SA-12 systems in the 1980s. Nowadays only a couple of hundred, if any, of the 4,600 missiles are nonetheless in Russian service, even although they underwent a modernization program as late as 1993.[citation necessary]
The S-75 remains in widespread service all through the world, with some level of operational capability in 35 nations. Vietnam and Egypt are tied for the biggest deployments at 280 missiles every, although North Korea has 270, and Poland has 240. The Chinese also deploy the HQ-two, an upgrade of the S-75, in fairly large numbers.
Soviet doctrinal organization
The Soviet Union utilised a relatively normal organizational structure for S-75 units. Other countries that have employed the S-75 might have modified this structure. Generally, the S-75 is organized into a regimental structure with 3 subordinate battalions. The regimental headquarters will manage the early-warning radars and coordinate battalion actions. The battalions will contain a number of batteries with their linked acquisition and targeting radars.
Site layout
Each and every battalion will usually have six, semi-fixed, single-rail launchers for their V-750 missiles positioned around 60 to 100 m (200 to 330 ft) apart from each and every other in a hexagonal &quotflower&quot pattern, with radars and guidance systems placed in the center. It was this special &quotflower&quot shape that led to the internet sites becoming simply recognizable in reconnaissance photographs. Usually an additional six missiles are stored on tractor-trailers close to the center of the site.
An instance of a web site can be observed right here just to the west of the junction to Bosra on the M5 motorway in Syria, south of Damascus. This place covers the borders with each Israel and Jordan, so it is of strategic value.
Missile
V-750

V-750V 1D missile on a launcher
TypeSurface-to-air missile
Place of origin Soviet Union
Production history
VariantsV-750, V-750V, V-750VK, V-750VN, V-750M, V-750SM, V-750AK
Specifications (V-750[9])
Weight2,300 kg (5,100 lb)
Length10,600 mm (420 in)
Diameter700 mm (28 in)
WarheadFrag-HE
Warhead weight200 kg (440 lb)
Detonation
mechanismCommand
PropellantSolid-fuel booster and a storable liquid-fuel upper stage
Operational
range45 km (28 mi)
Flight altitude20,000 m (66,000 ft)
Increase time5 s enhance, then 20 s sustain
SpeedMach 3.5
Guidance
systemRadio manage guidance
Accuracy65 m
Launch
platformSingle rail, ground mounted (not mobile)
The V-750 is a two-stage missile consisting of a strong-fuel booster and a storable liquid-fuel upper stage, which burns red fuming nitric acid as the oxidizer and kerosene as the fuel. The booster fires for about 4–5 seconds and the principal engine for about 22 seconds, by which time the missile is traveling at about Mach three. The booster mounts 4 huge, cropped-delta wing fins that have small handle surfaces in their trailing edges to manage roll. The upper stage has smaller cropped-deltas near the middle of the airframe, with a smaller set of manage surfaces at the intense rear and (in most models) a lot smaller sized fins on the nose.
The missiles are guided making use of radio control signals (sent on 1 of 3 channels) from the guidance computers at the web site. The earlier S-75 models received their commands through two sets of four small antennas in front of the forward fins, although the D model and later models used 4 considerably larger strip antennas operating in between the forward and middle fins. The guidance technique at an S-75 internet site can deal with only one target at a time, but it can direct 3 missiles against it. Added missiles could be fired against the identical target soon after one particular or far more missiles of the very first salvo had completed their run, freeing the radio channel.
The missile typically mounts a 195 kg (430 lb) fragmentation warhead, with proximity, speak to, and command fusing. The warhead has a lethal radius of about 65 m (213 ft) at decrease altitudes, but at higher altitudes the thinner atmosphere allows for a wider radius of up to 250 m (820 ft). The missile itself is correct to about 75 m (246 ft), which explains why two were typically fired in a salvo. One version, the SA-2E, mounted a 295 kg (650 lb) nuclear warhead of an estimated 15 Kiloton yield or a conventional warhead of comparable weight.
Standard variety for the missile is about 45 km (28 mi), with a maximum altitude about 20,000 m (66,000 ft). The radar and guidance technique imposed a relatively lengthy short-variety cutoff of about 500 to 1,000 m (1,600 to 3,300 ft), making them fairly safe for engagements at low level.

en.wikipedia.org/wiki/S-75_Dvina

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Steven F. Udvar-Hazy Center: View down onto SR-71 Blackbird & Boeing P-26A Peashooter

Steven F. Udvar-Hazy Center: View down onto SR-71 Blackbird & Boeing P-26A Peashooter

Check out these surface grinding aluminum photos:

Steven F. Udvar-Hazy Center: View down onto SR-71 Blackbird & Boeing P-26A Peashooter

Image by Chris Devers
See a lot more photos of this, and the Wikipedia write-up.

Specifics, quoting from Smithsonian National Air and Space Museum | Boeing P-26A Peashooter:

The Boeing P-26A of the mid-to-late 1930s introduced the notion of the high-overall performance, all-metal monoplane fighter design and style, which would grow to be regular throughout World War II. A radical departure from wood-and-fabric biplanes, the Peashooter nonetheless retained an open cockpit, fixed landing gear, and external wing bracing.

Most P-26As stationed overseas had been ultimately sold to the Philippines or assigned to the Panama Canal Division Air Force, a branch of the U.S. Army Air Corps. Numerous went to China and one to Spain. This a single was primarily based at Selfridge Field in Michigan and Fairfield Air Depot in Ohio among its acceptance by the U.S. Army Air Corps in 1934 and its transfer to the Canal Zone in 1938. It was provided to Guatemala in 1942 and flew in the Guatemalan air force until 1954. Guatemala donated it to the Smithsonian in 1957.

Present of the Guatemalan Air Force, Republic of Guatemala

Manufacturer:
Boeing Aircraft Co.

Date:
1934

Nation of Origin:
United States of America

Dimensions:
Wingspan: eight.5 m (27 ft 11 in)
Length:7.three m (23 ft 11 in)
Height:three.1 m (10 ft 2 in)
Weight, empty:996 kg (two,196 lb)
Weight, gross:1,334 kg (two,935 lb)
Top speed:377 km/h (234 mph)
Engine:Pratt &amp Whitney R-1340-27, 600 hp
Armament:two .30 cal. M2 Browning aircraft machine guns

• • •

Quoting from Boeing History | P-26 &quotPeashooter&quot Fighter:

The all-metal, single-wing P-26, popularly identified as the &quotPeashooter,&quot was an totally new design and style for Boeing, and its structure drew heavily on the Monomail. The Peashooter’s wings have been braced with wire, rather than with the rigid struts utilised on other airplanes, so the airplane was lighter and had much less drag. Its initial high landing speeds have been lowered by the addition of wing flaps in the production models.

Since the P-26 flew 27 mph faster and outclimbed biplane fighters, the Army ordered 136 production-model Peashooters. Acclaimed by pilots for its speed and maneuverability, the modest but feisty P-26 formed the core of pursuit squadrons all through the United States.

Twelve export versions, 11 for China and 1 for Spain, were built. One of a group of P-26s, turned more than to the Philippine Army late in 1941, was among the first Allied fighters to down a Japanese airplane in Globe War II.

Funds to purchase the export version of the Peashooter have been partly raised by Chinese Americans. Contribution boxes were placed on the counters of Chinese restaurants.

Specifications

• 1st flight: March 20, 1932
• Model quantity: 248/266
• Classification: Fighter
• Span: 28 feet
• Length: 23 feet 7 inches
• Gross weight: 2,995 pounds
• Leading speed: 234 mph
• Cruising speed: 200 mph
• Range: 635 miles
• Ceiling: 27,400 feet
• Power: 600-horsepower P&ampW Wasp engine
• Accommodation: 1 pilot
• Armament: two machine guns, 200-pound bomb load

• • • • •

See far more pictures of this, and the Wikipedia article.

Details, quoting from Smithsonian National Air and Space Museum | Lockheed SR-71 Blackbird:

No reconnaissance aircraft in history has operated globally in a lot more hostile airspace or with such full impunity than the SR-71, the world’s fastest jet-propelled aircraft. The Blackbird’s efficiency and operational achievements placed it at the pinnacle of aviation technologies developments during the Cold War.

This Blackbird accrued about 2,800 hours of flight time throughout 24 years of active service with the U.S. Air Force. On its last flight, March 6, 1990, Lt. Col. Ed Yielding and Lt. Col. Joseph Vida set a speed record by flying from Los Angeles to Washington, D.C., in 1 hour, four minutes, and 20 seconds, averaging 3,418 kilometers (two,124 miles) per hour. At the flight’s conclusion, they landed at Washington-Dulles International Airport and turned the airplane more than to the Smithsonian.

Transferred from the United States Air Force.

Manufacturer:
Lockheed Aircraft Corporation

Designer:
Clarence L. &quotKelly&quot Johnson

Date:
1964

Country of Origin:
United States of America

Dimensions:
General: 18ft 5 15/16in. x 55ft 7in. x 107ft 5in., 169998.5lb. (5.638m x 16.942m x 32.741m, 77110.8kg)
Other: 18ft 5 15/16in. x 107ft 5in. x 55ft 7in. (5.638m x 32.741m x 16.942m)

Materials:
Titanium

Physical Description:
Twin-engine, two-seat, supersonic strategic reconnaissance aircraft airframe constructed largley of titanium and its alloys vertical tail fins are constructed of a composite (laminated plastic-type material) to lessen radar cross-section Pratt and Whitney J58 (JT11D-20B) turbojet engines feature huge inlet shock cones.

Extended Description:
No reconnaissance aircraft in history has operated in more hostile airspace or with such total impunity than the SR-71 Blackbird. It is the fastest aircraft propelled by air-breathing engines. The Blackbird’s efficiency and operational achievements placed it at the pinnacle of aviation technologies developments throughout the Cold War. The airplane was conceived when tensions with communist Eastern Europe reached levels approaching a full-blown crisis in the mid-1950s. U.S. military commanders desperately necessary accurate assessments of Soviet worldwide military deployments, especially close to the Iron Curtain. Lockheed Aircraft Corporation’s subsonic U-two (see NASM collection) reconnaissance aircraft was an able platform but the U. S. Air Force recognized that this comparatively slow aircraft was already vulnerable to Soviet interceptors. They also understood that the fast improvement of surface-to-air missile systems could place U-2 pilots at grave risk. The danger proved reality when a U-2 was shot down by a surface to air missile more than the Soviet Union in 1960.

Lockheed’s first proposal for a new higher speed, higher altitude, reconnaissance aircraft, to be capable of avoiding interceptors and missiles, centered on a design and style propelled by liquid hydrogen. This proved to be impracticable since of considerable fuel consumption. Lockheed then reconfigured the style for conventional fuels. This was feasible and the Central Intelligence Agency (CIA), already flying the Lockheed U-2, issued a production contract for an aircraft designated the A-12. Lockheed’s clandestine ‘Skunk Works’ division (headed by the gifted style engineer Clarence L. &quotKelly&quot Johnson) developed the A-12 to cruise at Mach 3.2 and fly properly above 18,288 m (60,000 feet). To meet these challenging specifications, Lockheed engineers overcame a lot of daunting technical challenges. Flying much more than three instances the speed of sound generates 316° C (600° F) temperatures on external aircraft surfaces, which are adequate to melt traditional aluminum airframes. The design and style team chose to make the jet’s external skin of titanium alloy to which shielded the internal aluminum airframe. Two standard, but really potent, afterburning turbine engines propelled this exceptional aircraft. These power plants had to operate across a enormous speed envelope in flight, from a takeoff speed of 334 kph (207 mph) to more than three,540 kph (two,200 mph). To avert supersonic shock waves from moving inside the engine intake causing flameouts, Johnson’s group had to design a complicated air intake and bypass technique for the engines.

Skunk Operates engineers also optimized the A-12 cross-section design and style to exhibit a low radar profile. Lockheed hoped to achieve this by cautiously shaping the airframe to reflect as small transmitted radar power (radio waves) as achievable, and by application of special paint made to absorb, rather than reflect, these waves. This treatment became a single of the 1st applications of stealth technology, but it by no means fully met the design objectives.

Test pilot Lou Schalk flew the single-seat A-12 on April 24, 1962, after he became airborne accidentally in the course of high-speed taxi trials. The airplane showed great promise but it necessary considerable technical refinement just before the CIA could fly the initial operational sortie on Might 31, 1967 – a surveillance flight over North Vietnam. A-12s, flown by CIA pilots, operated as portion of the Air Force’s 1129th Particular Activities Squadron below the &quotOxcart&quot program. Although Lockheed continued to refine the A-12, the U. S. Air Force ordered an interceptor version of the aircraft designated the YF-12A. The Skunk Performs, nonetheless, proposed a &quotspecific mission&quot version configured to conduct post-nuclear strike reconnaissance. This system evolved into the USAF’s familiar SR-71.

Lockheed constructed fifteen A-12s, including a special two-seat trainer version. Two A-12s were modified to carry a particular reconnaissance drone, designated D-21. The modified A-12s were redesignated M-21s. These had been developed to take off with the D-21 drone, powered by a Marquart ramjet engine mounted on a pylon amongst the rudders. The M-21 then hauled the drone aloft and launched it at speeds higher enough to ignite the drone’s ramjet motor. Lockheed also constructed 3 YF-12As but this sort never ever went into production. Two of the YF-12As crashed throughout testing. Only a single survives and is on show at the USAF Museum in Dayton, Ohio. The aft section of 1 of the &quotwritten off&quot YF-12As which was later utilised along with an SR-71A static test airframe to manufacture the sole SR-71C trainer. A single SR-71 was lent to NASA and designated YF-12C. Including the SR-71C and two SR-71B pilot trainers, Lockheed constructed thirty-two Blackbirds. The first SR-71 flew on December 22, 1964. Because of extreme operational costs, military strategists decided that the more capable USAF SR-71s should replace the CIA’s A-12s. These had been retired in 1968 following only one particular year of operational missions, mostly over southeast Asia. The Air Force’s 1st Strategic Reconnaissance Squadron (portion of the 9th Strategic Reconnaissance Wing) took over the missions, flying the SR-71 starting in the spring of 1968.

Soon after the Air Force began to operate the SR-71, it acquired the official name Blackbird– for the unique black paint that covered the airplane. This paint was formulated to absorb radar signals, to radiate some of the tremendous airframe heat generated by air friction, and to camouflage the aircraft against the dark sky at higher altitudes.

Experience gained from the A-12 program convinced the Air Force that flying the SR-71 safely necessary two crew members, a pilot and a Reconnaissance Systems Officer (RSO). The RSO operated with the wide array of monitoring and defensive systems installed on the airplane. This equipment included a sophisticated Electronic Counter Measures (ECM) technique that could jam most acquisition and targeting radar. In addition to an array of sophisticated, higher-resolution cameras, the aircraft could also carry gear created to record the strength, frequency, and wavelength of signals emitted by communications and sensor devices such as radar. The SR-71 was designed to fly deep into hostile territory, avoiding interception with its tremendous speed and higher altitude. It could operate safely at a maximum speed of Mach three.three at an altitude far more than sixteen miles, or 25,908 m (85,000 ft), above the earth. The crew had to wear pressure suits comparable to these worn by astronauts. These suits have been needed to shield the crew in the occasion of sudden cabin pressure loss even though at operating altitudes.

To climb and cruise at supersonic speeds, the Blackbird’s Pratt &amp Whitney J-58 engines were developed to operate constantly in afterburner. Whilst this would seem to dictate higher fuel flows, the Blackbird actually achieved its greatest &quotgas mileage,&quot in terms of air nautical miles per pound of fuel burned, for the duration of the Mach three+ cruise. A typical Blackbird reconnaissance flight might call for numerous aerial refueling operations from an airborne tanker. Each time the SR-71 refueled, the crew had to descend to the tanker’s altitude, normally about six,000 m to 9,000 m (20,000 to 30,000 ft), and slow the airplane to subsonic speeds. As velocity decreased, so did frictional heat. This cooling impact triggered the aircraft’s skin panels to shrink considerably, and these covering the fuel tanks contracted so significantly that fuel leaked, forming a distinctive vapor trail as the tanker topped off the Blackbird. As quickly as the tanks have been filled, the jet’s crew disconnected from the tanker, relit the afterburners, and once more climbed to higher altitude.

Air Force pilots flew the SR-71 from Kadena AB, Japan, throughout its operational career but other bases hosted Blackbird operations, as well. The 9th SRW occasionally deployed from Beale AFB, California, to other places to carryout operational missions. Cuban missions were flown straight from Beale. The SR-71 did not begin to operate in Europe until 1974, and then only temporarily. In 1982, when the U.S. Air Force based two aircraft at Royal Air Force Base Mildenhall to fly monitoring mission in Eastern Europe.

When the SR-71 became operational, orbiting reconnaissance satellites had already replaced manned aircraft to collect intelligence from internet sites deep within Soviet territory. Satellites could not cover each geopolitical hotspot so the Blackbird remained a vital tool for worldwide intelligence gathering. On many occasions, pilots and RSOs flying the SR-71 offered details that proved important in formulating successful U. S. foreign policy. Blackbird crews supplied important intelligence about the 1973 Yom Kippur War, the Israeli invasion of Lebanon and its aftermath, and pre- and post-strike imagery of the 1986 raid performed by American air forces on Libya. In 1987, Kadena-primarily based SR-71 crews flew a number of missions more than the Persian Gulf, revealing Iranian Silkworm missile batteries that threatened industrial shipping and American escort vessels.

As the performance of space-primarily based surveillance systems grew, along with the effectiveness of ground-primarily based air defense networks, the Air Force began to drop enthusiasm for the costly program and the 9th SRW ceased SR-71 operations in January 1990. Despite protests by military leaders, Congress revived the plan in 1995. Continued wrangling over operating budgets, however, soon led to final termination. The National Aeronautics and Space Administration retained two SR-71As and the a single SR-71B for higher-speed analysis projects and flew these airplanes till 1999.

On March 6, 1990, the service profession of a single Lockheed SR-71A Blackbird ended with a record-setting flight. This unique airplane bore Air Force serial number 64-17972. Lt. Col. Ed Yeilding and his RSO, Lieutenant Colonel Joseph Vida, flew this aircraft from Los Angeles to Washington D.C. in 1 hour, 4 minutes, and 20 seconds, averaging a speed of 3,418 kph (2,124 mph). At the conclusion of the flight, ‘972 landed at Dulles International Airport and taxied into the custody of the Smithsonian’s National Air and Space Museum. At that time, Lt. Col. Vida had logged 1,392.7 hours of flight time in Blackbirds, much more than that of any other crewman.

This specific SR-71 was also flown by Tom Alison, a former National Air and Space Museum’s Chief of Collections Management. Flying with Detachment 1 at Kadena Air Force Base, Okinawa, Alison logged more than a dozen ‘972 operational sorties. The aircraft spent twenty-four years in active Air Force service and accrued a total of 2,801.1 hours of flight time.

Wingspan: 55’7&quot
Length: 107’5&quot
Height: 18’6&quot
Weight: 170,000 Lbs

Reference and Additional Reading:

Crickmore, Paul F. Lockheed SR-71: The Secret Missions Exposed. Oxford: Osprey Publishing, 1996.

Francillon, Rene J. Lockheed Aircraft Because 1913. Annapolis, Md.: Naval Institute Press, 1987.

Johnson, Clarence L. Kelly: More Than My Share of It All. Washington D.C.: Smithsonian Institution Press, 1985.

Miller, Jay. Lockheed Martin’s Skunk Performs. Leicester, U.K.: Midland Counties Publishing Ltd., 1995.

Lockheed SR-71 Blackbird curatorial file, Aeronautics Division, National Air and Space Museum.

DAD, 11-11-01

Steven F. Udvar-Hazy Center: SR-71 Blackbird (starboard tail view)

Steven F. Udvar-Hazy Center: SR-71 Blackbird (starboard tail view)

A few nice plastic machining business pictures I discovered:

Steven F. Udvar-Hazy Center: SR-71 Blackbird (starboard tail view)

Image by Chris Devers
See much more pictures of this, and the Wikipedia post.

Specifics, quoting from Smithsonian National Air and Space Museum | Lockheed SR-71 Blackbird:

No reconnaissance aircraft in history has operated globally in a lot more hostile airspace or with such complete impunity than the SR-71, the world’s fastest jet-propelled aircraft. The Blackbird’s efficiency and operational achievements placed it at the pinnacle of aviation technologies developments throughout the Cold War.

This Blackbird accrued about 2,800 hours of flight time for the duration of 24 years of active service with the U.S. Air Force. On its last flight, March six, 1990, Lt. Col. Ed Yielding and Lt. Col. Joseph Vida set a speed record by flying from Los Angeles to Washington, D.C., in 1 hour, four minutes, and 20 seconds, averaging three,418 kilometers (two,124 miles) per hour. At the flight’s conclusion, they landed at Washington-Dulles International Airport and turned the airplane over to the Smithsonian.

Transferred from the United States Air Force.

Manufacturer:
Lockheed Aircraft Corporation

Designer:
Clarence L. &quotKelly&quot Johnson

Date:
1964

Nation of Origin:
United States of America

Dimensions:
General: 18ft 5 15/16in. x 55ft 7in. x 107ft 5in., 169998.5lb. (5.638m x 16.942m x 32.741m, 77110.8kg)
Other: 18ft 5 15/16in. x 107ft 5in. x 55ft 7in. (five.638m x 32.741m x 16.942m)

Supplies:
Titanium

Physical Description:
Twin-engine, two-seat, supersonic strategic reconnaissance aircraft airframe constructed largley of titanium and its alloys vertical tail fins are constructed of a composite (laminated plastic-variety material) to decrease radar cross-section Pratt and Whitney J58 (JT11D-20B) turbojet engines function big inlet shock cones.

Steven F. Udvar-Hazy Center: Profile view of the SR-71 Blackbird, F-4 Corsair, Peashooter, among others

Image by Chris Devers
Quoting Smithsonian National Air and Space Museum | Lockheed SR-71 Blackbird:

No reconnaissance aircraft in history has operated globally in more hostile airspace or with such comprehensive impunity than the SR-71, the world’s quickest jet-propelled aircraft. The Blackbird’s overall performance and operational achievements placed it at the pinnacle of aviation technology developments during the Cold War.

This Blackbird accrued about 2,800 hours of flight time in the course of 24 years of active service with the U.S. Air Force. On its last flight, March six, 1990, Lt. Col. Ed Yielding and Lt. Col. Joseph Vida set a speed record by flying from Los Angeles to Washington, D.C., in 1 hour, four minutes, and 20 seconds, averaging three,418 kilometers (two,124 miles) per hour. At the flight’s conclusion, they landed at Washington-Dulles International Airport and turned the airplane over to the Smithsonian.

Transferred from the United States Air Force.

Manufacturer:
Lockheed Aircraft Corporation

Designer:
Clarence L. &quotKelly&quot Johnson

Date:
1964

Nation of Origin:
United States of America

Dimensions:
All round: 18ft 5 15/16in. x 55ft 7in. x 107ft 5in., 169998.5lb. (five.638m x 16.942m x 32.741m, 77110.8kg)
Other: 18ft five 15/16in. x 107ft 5in. x 55ft 7in. (5.638m x 32.741m x 16.942m)

Materials:
Titanium

Physical Description:
Twin-engine, two-seat, supersonic strategic reconnaissance aircraft airframe constructed largley of titanium and its alloys vertical tail fins are constructed of a composite (laminated plastic-sort material) to minimize radar cross-section Pratt and Whitney J58 (JT11D-20B) turbojet engines function huge inlet shock cones.

• • • • •

Quoting Smithsonian National Air and Space Museum | Boeing P-26A Peashooter :

The Boeing P-26A of the mid-to-late 1930s introduced the notion of the high-functionality, all-metal monoplane fighter style, which would grow to be regular during World War II. A radical departure from wood-and-fabric biplanes, the Peashooter nonetheless retained an open cockpit, fixed landing gear, and external wing bracing.

Most P-26As stationed overseas were sooner or later sold to the Philippines or assigned to the Panama Canal Division Air Force, a branch of the U.S. Army Air Corps. Numerous went to China and 1 to Spain. This one was primarily based at Selfridge Field in Michigan and Fairfield Air Depot in Ohio amongst its acceptance by the U.S. Army Air Corps in 1934 and its transfer to the Canal Zone in 1938. It was offered to Guatemala in 1942 and flew in the Guatemalan air force until 1954. Guatemala donated it to the Smithsonian in 1957.

Present of the Guatemalan Air Force, Republic of Guatemala

Manufacturer:
Boeing Aircraft Co.

Date:
1934

Country of Origin:
United States of America

Dimensions:
Wingspan: 8.five m (27 ft 11 in)
Length:7.three m (23 ft 11 in)
Height:three.1 m (10 ft two in)
Weight, empty:996 kg (2,196 lb)
Weight, gross:1,334 kg (two,935 lb)
Top speed:377 km/h (234 mph)
Engine:Pratt &amp Whitney R-1340-27, 600 hp
Armament:two .30 cal. M2 Browning aircraft machine guns

• • • • •

Quoting Smithsonian National Air and Space Museum | Vought F4U-1D Corsair :

By V-J Day, September two, 1945, Corsair pilots had amassed an 11:1 kill ratio against enemy aircraft. The aircraft’s distinctive inverted gull-wing design permitted ground clearance for the massive, 3-bladed Hamilton Standard Hydromatic propeller, which spanned more than four meters (13 feet). The Pratt and Whitney R-2800 radial engine and Hydromatic propeller was the largest and one of the most potent engine-propeller combinations ever flown on a fighter aircraft.

Charles Lindbergh flew bombing missions in a Corsair with Marine Air Group 31 against Japanese strongholds in the Pacific in 1944. This airplane is painted in the colors and markings of the Corsair Sun Setter, a Marine close-help fighter assigned to the USS Essex in July 1944.

Transferred from the United States Navy.

Manufacturer:
Vought Aircraft Business

Date:
1940

Country of Origin:
United States of America

Dimensions:
General: 460 x 1020cm, 4037kg, 1250cm (15ft 1 1/8in. x 33ft five 9/16in., 8900lb., 41ft 1/8in.)

Components:
All metal with fabric-covered wings behind the primary spar.

Physical Description:
R-2800 radial air-cooled engine with 1,850 horsepower, turned a 3-blade Hamilton Standard Hydromatic propeller with solid aluminum blades spanning 13 feet 1 inch wing bent gull-shaped on each sides of the fuselage.

Image from web page 1178 of “Baltimore and Ohio workers magazine” (1912)

Image by World wide web Archive Book Images
Identifier: baltimoreohioemp07balt
Title: Baltimore and Ohio employees magazine
Year: 1912 (1910s)
Authors: Baltimore and Ohio workers magazine Baltimore and Ohio Railroad Business
Subjects: Baltimore and Ohio Railroad Business
Publisher: [Baltimore, Baltimore and Ohio Railroad]
Contributing Library: University of Maryland, College Park
Digitizing Sponsor: LYRASIS Members and Sloan Foundation

View Book Page: Book Viewer
About This Book: Catalog Entry
View All Photos: All Images From Book

Click here to view book online to see this illustration in context in a browseable on the internet version of this book.

Text Appearing Before Image:
ne, New York, N. Y, On Baltimore and Ohio Railroad, 12 miles fromBaltimore, 3 minutes from station, For Sale, eight roomhouse, very good situation, lot 110×150, Price ,150.Also common retailer, dwelling, 7 rooms, attached,about half acre, outbuildings, excellent opportunity.Cost ,200. Apply to H. T. YARD 307 Phoenix Buildg, 5 Redwood St., Baltimore, Md. Please /Nerilion our m(ij&ltizinc irlwn vrKl.ncj adicrli.scrs TEXACO THE MARK OF Good quality FORALL PETROLEUM Goods Texaco Illuminating Oils Texaco Auto GasolineTexaco Motor Oils and GreasesTexaco Lubricating Oils for all PurposesTexaco Machine Oils Texaco Engine Oils Texaco Greases Texaco Fuel Oil Texaco Asphalts Texaco Railroad Lubricants For Roofing, Waterproofing, Paving, Saturating,Insulating, Mastic, and for all other purposes THE TEXAS Organization NEW YORK HOUSTON BRANCH OFFICES Boston Philadelphit Chicago St. LouisNorfolkAtlanta New Orleans Dallas El Paso PuebloTulsa Baltimore and Ohio6mploye8 )Nlao[azine Baltimore, Hpril, 1920 Number 12

Text Appearing Soon after Image:
Contents Cover Style H. D. Stitt Contents Page Desgn John Newman three Assist Place Your Division on Prime in Auto Miles Per Day.. S. Ennes five New Common Security Committees. C. W. Galloway Letters of a Self-Created Failure Maurice Switzer 9 Relocation of Toledo Division Roy G. Clark 13 Watch Vicious Freight W. R. Moore 18 Beauty Spots cn the Picturesque Baltimore and Ohio Margaret Talbott Stevens 21 Rich Man—Poor Man, A Poem O. D. Boyle 24 Illustrated by Stanley M. Bell To Wives of Railroad Men—And the Males, As well. .George Bradshaw 33 Editorial 38 The Observer 40 Pages from a Working Timetable Published in 1851 42 Plastic Arc Program of Welding J. O. Smith -.^ The Oxy-Acetylene Method in the Railroad Shop W. L. Bean 49 Social 59 Womans Department 64 Security Roll of Honor 67 Among Ourselves 71 THE AMERICANS CREED 1 ^ Think in the United States ofAmerica as the government of thepeople, by the folks, for the peoplewhose just powers are derived from theconsent of the governed a democracy ina repub

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Steven F. Udvar-Hazy Center: Boeing B-29 Superfortress “Enola Gay” (view into nose cockpit)

Steven F. Udvar-Hazy Center: Boeing B-29 Superfortress “Enola Gay” (view into nose cockpit)

Some cool precision machining business pictures:

Steven F. Udvar-Hazy Center: Boeing B-29 Superfortress “Enola Gay” (view into nose cockpit)

Image by Chris Devers
See far more pictures of this, and the Wikipedia report.

Information, quoting from Smithsonian National Air and Space Museum | Boeing B-29 Superfortress &quotEnola Gay&quot:

Boeing’s B-29 Superfortress was the most sophisticated propeller-driven bomber of Globe War II and the initial bomber to property its crew in pressurized compartments. Even though developed to fight in the European theater, the B-29 located its niche on the other side of the globe. In the Pacific, B-29s delivered a variety of aerial weapons: standard bombs, incendiary bombs, mines, and two nuclear weapons.

On August six, 1945, this Martin-built B-29-45-MO dropped the first atomic weapon utilized in combat on Hiroshima, Japan. 3 days later, Bockscar (on display at the U.S. Air Force Museum near Dayton, Ohio) dropped a second atomic bomb on Nagasaki, Japan. Enola Gay flew as the advance climate reconnaissance aircraft that day. A third B-29, The Fantastic Artiste, flew as an observation aircraft on both missions.

Transferred from the United States Air Force.

Manufacturer:
Boeing Aircraft Co.
Martin Co., Omaha, Nebr.

Date:
1945

Nation of Origin:
United States of America

Dimensions:
Overall: 900 x 3020cm, 32580kg, 4300cm (29ft 6 5/16in. x 99ft 1in., 71825.9lb., 141ft 15/16in.)

Components:
Polished overall aluminum finish

Physical Description:
4-engine heavy bomber with semi-monoqoque fuselage and higher-aspect ratio wings. Polished aluminum finish general, normal late-Globe War II Army Air Forces insignia on wings and aft fuselage and serial quantity on vertical fin 509th Composite Group markings painted in black &quotEnola Gay&quot in black, block letters on lower left nose.

Long Description:
Boeing’s B-29 Superfortress was the most sophisticated, propeller-driven, bomber to fly in the course of Globe War II, and the first bomber to home its crew in pressurized compartments. Boeing installed really sophisticated armament, propulsion, and avionics systems into the Superfortress. For the duration of the war in the Pacific Theater, the B-29 delivered the 1st nuclear weapons employed in combat. On August six, 1945, Colonel Paul W. Tibbets, Jr., in command of the Superfortress Enola Gay, dropped a extremely enriched uranium, explosion-sort, &quotgun-fired,&quot atomic bomb on Hiroshima, Japan. Three days later, Significant Charles W. Sweeney piloted the B-29 Bockscar and dropped a hugely enriched plutonium, implosion-variety atomic bomb on Nagasaki, Japan. Enola Gay flew as the advance weather reconnaissance aircraft that day. On August 14, 1945, the Japanese accepted Allied terms for unconditional surrender.

In the late 1930s, U. S. Army Air Corps leaders recognized the want for really extended-range bombers that exceeded the overall performance of the B-17 Flying Fortress. Several years of preliminary research paralleled a continuous fight against these who saw restricted utility in developing such an high-priced and unproven aircraft but the Air Corps issued a requirement for the new bomber in February 1940. It described an airplane that could carry a maximum bomb load of 909 kg (two,000 lb) at a speed of 644 kph (400 mph) a distance of at least eight,050 km (5,000 miles). Boeing, Consolidated, Douglas, and Lockheed responded with design and style proposals. The Army was impressed with the Boeing design and issued a contract for two flyable prototypes in September 1940. In April 1941, the Army issued another contract for 250 aircraft plus spare parts equivalent to an additional 25 bombers, eight months just before Pearl Harbor and nearly a year-and-a-half ahead of the 1st Superfortress would fly.

Amongst the design’s innovations was a lengthy, narrow, higher-aspect ratio wing equipped with large Fowler-sort flaps. This wing style permitted the B-29 to fly very quickly at higher altitudes but maintained comfortable handling traits throughout takeoff and landing. Far more revolutionary was the size and sophistication of the pressurized sections of the fuselage: the flight deck forward of the wing, the gunner’s compartment aft of the wing, and the tail gunner’s station. For the crew, flying at intense altitudes became a lot more comfortable as pressure and temperature could be regulated. To shield the Superfortress, Boeing created a remote-controlled, defensive weapons technique. Engineers placed 5 gun turrets on the fuselage: a turret above and behind the cockpit that housed two .50 caliber machine guns (4 guns in later versions), and an additional turret aft close to the vertical tail equipped with two machine guns plus two much more turrets beneath the fuselage, each equipped with two .50 caliber guns. One particular of these turrets fired from behind the nose gear and the other hung additional back near the tail. Yet another two .50 caliber machine guns and a 20-mm cannon (in early versions of the B-29) have been fitted in the tail beneath the rudder. Gunners operated these turrets by remote handle–a correct innovation. They aimed the guns making use of computerized sights, and every single gunner could take manage of two or more turrets to concentrate firepower on a single target.

Boeing also equipped the B-29 with advanced radar equipment and avionics. Depending on the variety of mission, a B-29 carried the AN/APQ-13 or AN/APQ-7 Eagle radar program to aid bombing and navigation. These systems have been precise adequate to permit bombing via cloud layers that totally obscured the target. The B-29B was equipped with the AN/APG-15B airborne radar gun sighting system mounted in the tail, insuring accurate defense against enemy fighters attacking at night. B-29s also routinely carried as several as twenty different varieties of radios and navigation devices.

The 1st XB-29 took off at Boeing Field in Seattle on September 21, 1942. By the end of the year the second aircraft was prepared for flight. Fourteen service-test YB-29s followed as production began to accelerate. Constructing this sophisticated bomber essential huge logistics. Boeing built new B-29 plants at Renton, Washington, and Wichita, Kansas, whilst Bell built a new plant at Marietta, Georgia, and Martin constructed 1 in Omaha, Nebraska. Both Curtiss-Wright and the Dodge automobile firm vastly expanded their manufacturing capacity to develop the bomber’s powerful and complicated Curtiss-Wright R-3350 turbo supercharged engines. The system required thousands of sub-contractors but with extraordinary work, it all came collectively, in spite of main teething troubles. By April 1944, the initial operational B-29s of the newly formed 20th Air Force started to touch down on dusty airfields in India. By May possibly, 130 B-29s were operational. In June, 1944, less than two years soon after the initial flight of the XB-29, the U. S. Army Air Forces (AAF) flew its 1st B-29 combat mission against targets in Bangkok, Thailand. This mission (longest of the war to date) known as for 100 B-29s but only 80 reached the target area. The AAF lost no aircraft to enemy action but bombing final results had been mediocre. The very first bombing mission against the Japanese main islands considering that Lt. Col. &quotJimmy&quot Doolittle’s raid against Tokyo in April 1942, occurred on June 15, again with poor outcomes. This was also the initial mission launched from airbases in China.

With the fall of Saipan, Tinian, and Guam in the Mariana Islands chain in August 1944, the AAF acquired airbases that lay a number of hundred miles closer to mainland Japan. Late in 1944, the AAF moved the XXI Bomber Command, flying B-29s, to the Marianas and the unit started bombing Japan in December. Even so, they employed higher-altitude, precision, bombing tactics that yielded poor results. The high altitude winds had been so powerful that bombing computer systems could not compensate and the weather was so poor that rarely was visual target acquisition feasible at high altitudes. In March 1945, Significant General Curtis E. LeMay ordered the group to abandon these tactics and strike instead at night, from low altitude, using incendiary bombs. These firebombing raids, carried out by hundreds of B-29s, devastated much of Japan’s industrial and economic infrastructure. But Japan fought on. Late in 1944, AAF leaders chosen the Martin assembly line to create a squadron of B-29s codenamed SILVERPLATE. Martin modified these Superfortresses by removing all gun turrets except for the tail position, removing armor plate, installing Curtiss electric propellers, and modifying the bomb bay to accommodate either the &quotFat Man&quot or &quotLittle Boy&quot versions of the atomic bomb. The AAF assigned 15 Silverplate ships to the 509th Composite Group commanded by Colonel Paul Tibbets. As the Group Commander, Tibbets had no specific aircraft assigned to him as did the mission pilots. He was entitled to fly any aircraft at any time. He named the B-29 that he flew on 6 August Enola Gay after his mother. In the early morning hours, just prior to the August 6th mission, Tibbets had a young Army Air Forces maintenance man, Private Nelson Miller, paint the name just under the pilot’s window.

Enola Gay is a model B-29-45-MO, serial quantity 44-86292. The AAF accepted this aircraft on June 14, 1945, from the Martin plant at Omaha (Situated at what is these days Offut AFB close to Bellevue), Nebraska. Right after the war, Army Air Forces crews flew the airplane for the duration of the Operation Crossroads atomic test system in the Pacific, even though it dropped no nuclear devices during these tests, and then delivered it to Davis-Monthan Army Airfield, Arizona, for storage. Later, the U. S. Air Force flew the bomber to Park Ridge, Illinois, then transferred it to the Smithsonian Institution on July 4, 1949. Though in Smithsonian custody, the aircraft remained stored at Pyote Air Force Base, Texas, in between January 1952 and December 1953. The airplane’s final flight ended on December 2 when the Enola Gay touched down at Andrews Air Force Base, Maryland. The bomber remained at Andrews in outdoor storage till August 1960. By then, concerned about the bomber deteriorating outdoors, the Smithsonian sent collections employees to disassemble the Superfortress and move it indoors to the Paul E. Garber Facility in Suitland, Maryland.

The staff at Garber began working to preserve and restore Enola Gay in December 1984. This was the largest restoration project ever undertaken at the National Air and Space Museum and the specialists anticipated the operate would require from seven to nine years to total. The project truly lasted nearly two decades and, when completed, had taken about 300,000 perform-hours to full. The B-29 is now displayed at the National Air and Space Museum, Steven F. Udvar-Hazy Center.

Steven F. Udvar-Hazy Center: B-29 Superfortress “Enola Gay” panorama

Image by Chris Devers
Quoting Smithsonian National Air and Space Museum | Lockheed P-38J-ten-LO Lightning :

In the P-38 Lockheed engineer Clarence &quotKelly&quot Johnson and his group of designers created one of the most effective twin-engine fighters ever flown by any nation. From 1942 to 1945, U. S. Army Air Forces pilots flew P-38s more than Europe, the Mediterranean, and the Pacific, and from the frozen Aleutian Islands to the sun-baked deserts of North Africa. Lightning pilots in the Pacific theater downed far more Japanese aircraft than pilots flying any other Allied warplane.

Maj. Richard I. Bong, America’s major fighter ace, flew this P-38J-10-LO on April 16, 1945, at Wright Field, Ohio, to evaluate an experimental technique of interconnecting the movement of the throttle and propeller handle levers. However, his proper engine exploded in flight before he could conduct the experiment.

Transferred from the United States Air Force.

Manufacturer:
Lockheed Aircraft Business

Date:
1943

Country of Origin:
United States of America

Dimensions:
Overall: 390 x 1170cm, 6345kg, 1580cm (12ft 9 9/16in. x 38ft 4 five/8in., 13988.2lb., 51ft ten 1/16in.)

Materials:
All-metal

Physical Description:
Twin-tail boom and twin-engine fighter tricycle landing gear.

• • • • •

Quoting Smithsonian National Air and Space Museum | Boeing B-29 Superfortress &quotEnola Gay&quot:

Boeing’s B-29 Superfortress was the most sophisticated propeller-driven bomber of World War II and the initial bomber to residence its crew in pressurized compartments. Even though created to fight in the European theater, the B-29 identified its niche on the other side of the globe. In the Pacific, B-29s delivered a selection of aerial weapons: conventional bombs, incendiary bombs, mines, and two nuclear weapons.

On August 6, 1945, this Martin-constructed B-29-45-MO dropped the first atomic weapon used in combat on Hiroshima, Japan. 3 days later, Bockscar (on display at the U.S. Air Force Museum close to Dayton, Ohio) dropped a second atomic bomb on Nagasaki, Japan. Enola Gay flew as the advance climate reconnaissance aircraft that day. A third B-29, The Wonderful Artiste, flew as an observation aircraft on each missions.

Transferred from the United States Air Force.

Manufacturer:
Boeing Aircraft Co.
Martin Co., Omaha, Nebr.

Date:
1945

Country of Origin:
United States of America

Dimensions:
Overall: 900 x 3020cm, 32580kg, 4300cm (29ft 6 5/16in. x 99ft 1in., 71825.9lb., 141ft 15/16in.)

Supplies:
Polished all round aluminum finish

Physical Description:
4-engine heavy bomber with semi-monoqoque fuselage and higher-aspect ratio wings. Polished aluminum finish general, normal late-Globe War II Army Air Forces insignia on wings and aft fuselage and serial quantity on vertical fin 509th Composite Group markings painted in black &quotEnola Gay&quot in black, block letters on reduce left nose.

Steven F. Udvar-Hazy Center: View of south hangar, including B-29 Superfortress “Enola Gay”, a glimpse of the Air France Concorde, and many others

Steven F. Udvar-Hazy Center: View of south hangar, including B-29 Superfortress “Enola Gay”, a glimpse of the Air France Concorde, and many others

Some cool manufacturer of precision machined components China images:

Steven F. Udvar-Hazy Center: View of south hangar, including B-29 Superfortress “Enola Gay”, a glimpse of the Air France Concorde, and many others

Image by Chris Devers
Quoting Smithsonian National Air and Space Museum | Boeing B-29 Superfortress "Enola Gay":

Boeing’s B-29 Superfortress was the most sophisticated propeller-driven bomber of World War II and the first bomber to house its crew in pressurized compartments. Although designed to fight in the European theater, the B-29 found its niche on the other side of the globe. In the Pacific, B-29s delivered a variety of aerial weapons: conventional bombs, incendiary bombs, mines, and two nuclear weapons.

On August 6, 1945, this Martin-built B-29-45-MO dropped the first atomic weapon used in combat on Hiroshima, Japan. Three days later, Bockscar (on display at the U.S. Air Force Museum near Dayton, Ohio) dropped a second atomic bomb on Nagasaki, Japan. Enola Gay flew as the advance weather reconnaissance aircraft that day. A third B-29, The Great Artiste, flew as an observation aircraft on both missions.

Transferred from the United States Air Force.

Manufacturer:
Boeing Aircraft Co.
Martin Co., Omaha, Nebr.

Date:
1945

Country of Origin:
United States of America

Dimensions:
Overall: 900 x 3020cm, 32580kg, 4300cm (29ft 6 5/16in. x 99ft 1in., 71825.9lb., 141ft 15/16in.)

Materials:
Polished overall aluminum finish

Physical Description:
Four-engine heavy bomber with semi-monoqoque fuselage and high-aspect ratio wings. Polished aluminum finish overall, standard late-World War II Army Air Forces insignia on wings and aft fuselage and serial number on vertical fin; 509th Composite Group markings painted in black; "Enola Gay" in black, block letters on lower left nose.

Steven F. Udvar-Hazy Center: British Hawker Hurricane, with P-38 Lightning and B-29 Enola Gay behind it

Image by Chris Devers
Quoting Smithsonian National Air and Space Museum | Hawker Hurricane Mk. IIC:

Hawker Chief Designer Sydney Camm’s Hurricane ranks with the most important aircraft designs in military aviation history. Designed in the late 1930s, when monoplanes were considered unstable and too radical to be successful, the Hurricane was the first British monoplane fighter and the first British fighter to exceed 483 kilometers (300 miles) per hour in level flight. Hurricane pilots fought the Luftwaffe and helped win the Battle of Britain in the summer of 1940.

This Mark IIC was built at the Langley factory, near what is now Heathrow Airport, early in 1944. It served as a training aircraft during the World War II in the Royal Air Force’s 41 OTU.

Donated by the Royal Air Force Museum

Manufacturer:
Hawker Aircraft Ltd.

Date:
1944

Country of Origin:
United Kingdom

Dimensions:
Wingspan: 12.2 m (40 ft)
Length: 9.8 m (32 ft 3 in)
Height: 4 m (13 ft)
Weight, empty: 2,624 kg (5,785 lb)
Weight, gross: 3,951 kg (8,710 lb)
Top speed:538 km/h (334 mph)
Engine:Rolls-Royce Merlin XX, liquid-cooled in-line V, 1,300 hp
Armament:four 20 mm Hispano cannons
Ordnance:two 250-lb or two 500-lb bombs or eight 3-in rockets

Materials:
Fuselage: Steel tube with aircraft spruce forms and fabric, aluminum cowling
Wings: Stressed Skin Aluminum
Horizontal Stablizer: Stress Skin aluminum
Rudder: fabric covered aluminum
Control Surfaces: fabric covered aluminum

Physical Description:
Hawker Hurricane Mk. IIC single seat, low wing monoplane ground attack fighter; enclosed cockpit; steel tube fuselage with aircraft spruce forms and fabric, aluminum cowling, stressed skin aluminum wings and horizontal stablizer, fabric covered aluminum rudder and control surfaces; grey green camoflage top surface paint scheme with dove grey underside; red and blue national roundel on upper wing surface and red, white, and blue roundel lower wing surface; red, white, blue, and yellow roundel fuselage sides; red, white and blue tail flash; Rolls-Royce Merlin XX, liquid cooled V-12, 1,280 horsepower engine; Armament, 4: 20mm Hispano cannons.

• • • • •

Quoting Smithsonian National Air and Space Museum | Boeing B-29 Superfortress "Enola Gay":

Boeing’s B-29 Superfortress was the most sophisticated propeller-driven bomber of World War II and the first bomber to house its crew in pressurized compartments. Although designed to fight in the European theater, the B-29 found its niche on the other side of the globe. In the Pacific, B-29s delivered a variety of aerial weapons: conventional bombs, incendiary bombs, mines, and two nuclear weapons.

On August 6, 1945, this Martin-built B-29-45-MO dropped the first atomic weapon used in combat on Hiroshima, Japan. Three days later, Bockscar (on display at the U.S. Air Force Museum near Dayton, Ohio) dropped a second atomic bomb on Nagasaki, Japan. Enola Gay flew as the advance weather reconnaissance aircraft that day. A third B-29, The Great Artiste, flew as an observation aircraft on both missions.

Transferred from the United States Air Force.

Manufacturer:
Boeing Aircraft Co.
Martin Co., Omaha, Nebr.

Date:
1945

Country of Origin:
United States of America

Dimensions:
Overall: 900 x 3020cm, 32580kg, 4300cm (29ft 6 5/16in. x 99ft 1in., 71825.9lb., 141ft 15/16in.)

Materials:
Polished overall aluminum finish

Physical Description:
Four-engine heavy bomber with semi-monoqoque fuselage and high-aspect ratio wings. Polished aluminum finish overall, standard late-World War II Army Air Forces insignia on wings and aft fuselage and serial number on vertical fin; 509th Composite Group markings painted in black; "Enola Gay" in black, block letters on lower left nose.

• • • • •

Quoting Smithsonian National Air and Space Museum | Lockheed P-38J-10-LO Lightning:

In the P-38 Lockheed engineer Clarence "Kelly" Johnson and his team of designers created one of the most successful twin-engine fighters ever flown by any nation. From 1942 to 1945, U. S. Army Air Forces pilots flew P-38s over Europe, the Mediterranean, and the Pacific, and from the frozen Aleutian Islands to the sun-baked deserts of North Africa. Lightning pilots in the Pacific theater downed more Japanese aircraft than pilots flying any other Allied warplane.

Maj. Richard I. Bong, America’s leading fighter ace, flew this P-38J-10-LO on April 16, 1945, at Wright Field, Ohio, to evaluate an experimental method of interconnecting the movement of the throttle and propeller control levers. However, his right engine exploded in flight before he could conduct the experiment.

Transferred from the United States Air Force.

Manufacturer:
Lockheed Aircraft Company

Date:
1943

Country of Origin:
United States of America

Dimensions:
Overall: 390 x 1170cm, 6345kg, 1580cm (12ft 9 9/16in. x 38ft 4 5/8in., 13988.2lb., 51ft 10 1/16in.)

Materials:
All-metal

Physical Description:
Twin-tail boom and twin-engine fighter; tricycle landing gear.