Douglas A-3 Skywarrior

Last updated
A-3 (A3D) Skywarrior
EA-3B VQ-1 in flight South China Sea 1974.jpeg
An EA-3B Skywarrior from VQ-1 over the South China Sea in 1974.
General information
Type Strategic bomber
National originUnited States
Manufacturer Douglas Aircraft Company
StatusRetired
Primary user United States Navy
Number built282
History
Manufactured1956–1961
Introduction date1956
First flight28 October 1952
Retired27 September 1991
Developed into Douglas B-66 Destroyer

The Douglas A-3 Skywarrior is a jet-powered strategic bomber that was developed and produced by the Douglas Aircraft Company. It was designed by Douglas on behalf of the United States Navy, which sought a carrier-capable strategic bomber. In July 1949, Douglas was awarded the contract to produce its design, having bested eight other aircraft companies' submissions. Unlike rival designs, which had aimed for a 100,000 lb (45,000 kg) maximum take-off weight, the Skywarrior was developed for a 68,000 lb (31,000 kg) take-off weight, facilitating its use from the navy's existing Midway-class aircraft carriers. Large portions of the aircraft were produced by the Westinghouse Electric Corporation, including its early Westinghouse J40 turbojet engines, which failed to meet promises and were replaced by the rival Pratt & Whitney J57 engine by mid-1953. On 28 October 1952, the prototype XA3D-1 performed the type's maiden flight.

Contents

On 31 March 1956, the Skywarrior entered squadron service with the Navy. Initially used in the nuclear-armed strategic bomber role, the emergence of effective ballistic missiles led to this mission being deprioritized by the early 1960s. Throughout the majority of its later service life, the Skywarrior was tasked with various secondary missions which included use as an electronic warfare platform, tactical reconnaissance aircraft, and high-capacity aerial refueling tanker. [1] It was among the longest serving carrier-based aircraft in history, having entered service during the mid-1950s and withdrawn from use in 1991. Throughout its service, the Skywarrior was the heaviest operational aircraft to operate from an aircraft carrier, [2] which contributed to its nickname of "Whale".

The Skywarrior is one of only three U.S. Navy attack aircraft to enter service in the strategic bomber role. The first was its predecessor, the North American AJ Savage. Its successor, the supersonic North American A-5 Vigilante initially supplanted the A-3 in the strategic bomber role (1961-1963) but was then converted to the tactical strike reconnaissance role.

A modified derivative of the Skywarrior, the B-66 Destroyer, served in the United States Air Force, where it was operated as a tactical bomber, electronic warfare aircraft, and aerial reconnaissance platform up until its withdrawal during the 1970s.

Development

Background

A3D-1 at Naval Air Station Jacksonville, Florida in the 1950s A3D Skywarrior-1950s.jpg
A3D-1 at Naval Air Station Jacksonville, Florida in the 1950s

During World War II, the United States Navy (USN) began to explore the concept of operating jet-powered aircraft from its aircraft carriers. Success encouraged further development of the concept; early in the post-war years, officials within the USN began to investigate the use of jet power as a potential means of operating larger carrier-based aircraft that would be capable of performing the strategic bombing mission. The USN had a growing awareness that it could operate in a broader role than had been previously possible, and that the strategic bomber fleet operated by the United States Air Force (USAF) was unable to reach large parts of the world, a lesser limitation to forward deployed USN aircraft carrier groups and their air wings. [3]

In January 1948, the Chief of Naval Operations issued a requirement to develop a long-range, carrier-based attack plane that could deliver either a 10,000 lb (4,500 kg) bomb load or a nuclear weapon. [4] The envisioned aircraft was intended to be operated from the planned United States-class "supercarriers," which were significantly larger than the USN's existing carriers, thus the specification set a target loaded weight of 100,000 lb (45,000 kg). Additionally, the USN sought for this bomber to possess greater speed and range than its existing North American AJ Savage fleet. [3] A total of eight aircraft manufacturers produced responses to the specification, but all except Douglas Aircraft Company and Curtiss-Wright would drop out, declaring that there was no means that the requirements could be met within the 100,000 lb weight limitation. [5] Uncertainty over the performance and requirements of both engines and bombs were major contributing factors towards this climate of negativity. [5]

Ed Heinemann, Douglas' chief designer, later to win fame for the A-4 Skyhawk, fearing that the United States class was vulnerable to cancellation, proposed a significantly smaller aircraft of 68,000 lb (31,000 kg) loaded weight, capable of operating from the USN's existing carriers. [6] [7] Heinemann had reasoned (correctly) that as technology developed, the size and weight of nuclear weapons would substantially decrease, which increased the rationale for designing a more compact bomber. [8] However, figures such as USAF general Hoyt Vandenberg ridiculed Heinemann's proposal as "making irresponsible claims". [5] During this period, the USN and USAF were vigorous rivals, each seeking to maintain funding for its projects at the expense of the other in a time marked by drastically declining defense budgets; specifically, USAF officials frequently voiced their open opposition to the construction of the United States-class carriers. [3]

Selection

In late 1948, both Douglas and Curtiss-Wright were awarded preliminary design contracts to further develop and refine their proposals. [5] While Douglas managed to maintain the take-off weight at 68,000 lb, Curtiss were unable to meet the more generous 100,000 lb target during this phase, and thus were eliminated from consideration. During April 1949, the USN's critics succeeded in getting the United States-class carriers cancelled; this outcome validated Heinemann's decision to focus on a design that could operate from the navy's smaller Midway-class aircraft carriers. [5] During July 1949, the USN, recognizing the suitability of Douglas' design, awarded a contract for the production of two flight-capable prototypes and a single static airframe to the company. [5]

Douglas sourced significant portions of the aircraft, including responsibility for the turbojet engines, radar, tail-mounted turret, electrical generators and various other secondary systems, from the Westinghouse Electric Corporation; this heavy reliance on Westinghouse allegedly caused some discomfort to Douglas. [5] In particular, development of the Westinghouse J40 engine proved to be incapable of meeting development schedules or performance promises; Heinemann later commented that "the first thing we learned was that the J40 was not powerful enough". [9] Even prior to the first flight being conducted, Douglas was considering switching to rival manufacturer Pratt & Whitney's J57 engine, which was heavier, but allowed the overall aircraft to be lighter as it used less fuel. [10]

On 28 October 1952, the prototype XA3D-1 performed the type's maiden flight; flown by George Jansen, this initial test flight was carried out with a high degree of secrecy. Early on, the aircraft was found to handle particularly well in flight, in part due to the attention Heinemann and the design team had paid to the hydraulically-boosted control surfaces. [9] On 16 October 1953, the first YA3D-1, powered by the rival J57 engine, made its first flight. [11]

Considerable development problems, largely associated with the original J40 engines, had delayed the introduction of the Skywarrior until 31 March 1956. [11] The A-3 was, by far, the largest and heaviest aircraft ever designed for routine use on an aircraft carrier, though ironically it was the smallest proposal among other proposals that could only be deployed on even larger carriers not yet in service. [4] As had been predicted by Heinemann early on, the Skywarrior had been designed to carry larger and bulkier bombs than it ever would in service due to the rapid improvements made in weapons technology. [11] Despite this, at the Navy's insistence, the aircraft was qualified for an 'overload' payload capacity of 84,000 lb (38,000 kg), the testing of which would establish a weight-related record for carrier operations. [11] Because of its cumbersome size, and less-than-slender profile, it was nicknamed "The Whale". [12]

By the end of the 1950s, it was becoming clear that the nuclear mission of the Skywarrior would be passed onto ballistic missiles; however, its high weight clearance and size meant that the aircraft would be useful in various other capacities. [13] Accordingly, large numbers of Skywarriors were retrofitted as aerial refuelling tankers or as electronic warfare platforms; notably, the EKA-3B model could readily swing between performing strike, refuelling, and electronic warfare duties as required. Numerous other models of the type were developed, leading to the type being used for aerial reconnaissance and as a trainer aircraft as well. [14] Production of the type ceased in 1961.

Design

The Skywarrior had a 36° degree swept wing and two Pratt & Whitney J57 turbojet engines. Early prototypes had used the intended Westinghouse J40, a powerplant that proved to be disastrous and was subsequently canceled. The turbojets could be supplemented by a provision for twelve 4,500  lbf (20  kN ) thrust JATO bottles. The aircraft had a largely conventional semi-monocoque fuselage, with the engines in underwing nacelles. Flight controls were hydraulic, and for storage below deck, the A-3's wings folded outboard of the engines, lying almost flat, and its vertical stabilizer was hinged to starboard. [4] Capacious internal fuel tanks provided long range.

Camera arrangement of a camouflaged RA-3B of Heavy Photographic Squadron 61 RA-3B VAP-61 camouflaged.jpg
Camera arrangement of a camouflaged RA-3B of Heavy Photographic Squadron 61

The early A-3 variants had a crew of three: pilot, bombardier/navigator (BN) and crewman/navigator (aka: third crewman). An unusual cockpit configuration was incorporated with the three crew sitting under a framed canopy. In the raised compartment, the pilot and bombardier/navigator sat in a side-by-side arrangement with the pilot's station on the port side having full flight controls. On initial variants, a third crew member, who also acted as a gunner for the twin tail-mounted 20mm cannon that briefly equipped the original bomber version of the A3D/A-3A (removed and replaced by ECM equipment), sat behind the pilot in an aft-facing seat. The third crewman station had the sextant for celestial navigation and the defensive electronic counter measures equipment. Later electronic reconnaissance variants could accommodate a crew of seven with the flight crew consisting of a pilot, co-pilot and navigator plus four electronic systems operators occupying stations in the former bomb bay in the spacious fuselage. [4]

Efforts to reduce weight to make the aircraft suitable for carrier operations had led to the deletion of ejection seats during the design process for the Skywarrior, based on the assumption that most flights would be at high altitude. A similar arrangement with an escape tunnel had been used on the F3D Skyknight. [15] Aircrews began joking morbidly that "A3D" stood for "All Three Dead". [16] (In 1973, the widow of a Skywarrior crewman killed over Vietnam sued the McDonnell Douglas Aircraft Company for not providing ejection seats in the A-3. [15] ) In contrast, the US Air Force's B-66 Destroyer, not subject to the weight requirements for carrier operations, was equipped with ejection seats throughout its service life.

The documented history of mechanical failures in the A3D/A-3 showed a rate well above average. Originally, the Skywarrior bombers were assigned to all attack carriers, which included the World War II-era Essex class and the immediate-postwar Midway class. [17]

The Skywarrior could carry up to 12,000 lb (5,400 kg) of weaponry in the fuselage bomb bay, which in later versions was used for sensor and camera equipment or additional fuel tanks. An AN/ASB-1A bomb-director system was initially installed, later replaced by a revised AN/ASB-7 with a slightly reshaped nose. Defensive armament was two 20mm cannons in a radar-operated tail turret designed by Westinghouse, soon removed in favor of electronic countermeasure equipment. Although some bombing missions would be carried out early in the Vietnam War, most bombing would be carried out by more manoeuvrable aircraft, and the Skywarrior would serve mostly as a tanker and electronic warfare support aircraft.

Operational history

Nuclear bomber

An A3D-2 from VAH-9 suffers a nose wheel collapse while landing on USS Saratoga, c. 1959 A3D-2 nose wheel collapse USS Saratoga.jpg
An A3D-2 from VAH-9 suffers a nose wheel collapse while landing on USS Saratoga, c. 1959

Prior to the initial operational capability of the U.S. Navy's Polaris-armed Fleet Ballistic Missile submarines, the A-3 was the Navy's critical element in the U.S. nuclear deterrent. Squadrons were established in two Heavy Attack Wings (HATWINGs), with one wing initially established at Naval Air Station North Island, California before relocating to Naval Air Station Whidbey Island, Washington in December 1957 while the other wing was initially established at Naval Air Station Jacksonville, Florida before relocating to Naval Air Station Sanford, Florida. The wing at NAS Whidbey Island would disestablish in 1959 but the squadrons which had made up the wing would later transition to the EKA-3B variant, eventually forming the nucleus for the Navy's Grumman EA-6B Prowler community, while the wing at NAS Sanford would convert to the A3J Vigilante (later A-5A) in the nuclear heavy attack mission, followed by conversion to the RA-5C and transition to the reconnaissance attack mission. The Vigilante wing would also continue to retain a small number of TA-3B aircraft for training Naval Flight Officers in the Vigilante's radar and navigation systems. The Skywarrior's strategic bombing role faded after 1964, briefly being complemented by the A3J Vigilante. Soon afterward, the Navy abandoned the concept of carrier-based strategic nuclear weaponry for the successful Polaris missile-equipped Fleet Ballistic Missile submarine program and all A-5As were converted to the RA-5C Vigilante reconnaissance variant. Many A-3Bs were converted to a combination tanker-electronic warfare aircraft.

Vietnam War era

A VAH-4 A-3B from USS Oriskany dropping a Mk 83 bomb, 1965. A-3B VAH-4 dropping Mk 83 bomb Vietnam 1965.jpeg
A VAH-4 A-3B from USS Oriskany dropping a Mk 83 bomb, 1965.
A black RA-3B from VAP-61 aboard USS Constellation, 1967. USS Constellation (CVA-64) flight deck 1967.jpeg
A black RA-3B from VAP-61 aboard USS Constellation, 1967.

Skywarriors saw some use in the conventional bombing and mine-laying role (A-3B) during the Vietnam War from 1964 through 1967, often to deliver Mk84 2,000 pounds (910 kg) bombs. The A-3 found subsequent service in the tanker (KA-3B), photographic reconnaissance (RA-3B), electronic reconnaissance (EA-3B), and electronic warfare (ERA-3B, EKA-3B) roles.

For most of the Vietnam War, EA-3Bs of Fleet Air Reconnaissance Squadron 1 (VQ-1) flew from Da Nang Air Base in South Vietnam, providing continuous electronic reconnaissance capability over the area, including the Ho Chi Minh Trail and all the way north to Haiphong harbor. This was known as VQ-1 Det.B. The aircrew and ground support personnel were temporarily assigned from their home base at Naval Air Station Atsugi, Japan and after 1970, Naval Air Station Agana, Guam. After Det B was disestablished, VQ-1 provided detachments of two EA-3B aircraft that deployed with Western Pacific and Indian Ocean (WESTPAC/IO) bound aircraft carrier battle groups up until the late 1980s when it was replaced by the Lockheed ES-3A Shadow.

In addition, a version of the A-3B was modified into the RA-3B and used in Vietnam as a photo reconnaissance aircraft. [18] Heavy Photographic Squadron 61 (VAP-61) at Naval Air Station Agana, Guam and sister squadron VAP-62 at Naval Air Station Jacksonville, Florida furnished crews and flew out of Da Nang AB performing mapping and intelligence gathering flight over the Southeast Asia area. With 12 camera stations the RA-3B was well equipped to perform cartographic mapping of areas where no detail maps existed. With IR gear installed, the RA-3B was used at night to monitor the movement of troops down roads and trails in Laos. Other locations included Det Tango at Don Muang Royal Thai Air Force Base in Bangkok, Thailand, Det Southpaw at RAAF Base Townsville, Australia, as well as work out of Osan Air Base, South Korea.

Tanker

An EKA-3B from VAQ-135 refueling an VF-211 F-8J off Vietnam, 1972. EKA-3B refueling VF-211 F-8J 1972.jpeg
An EKA-3B from VAQ-135 refueling an VF-211 F-8J off Vietnam, 1972.

During the Vietnam War, the A-3 attack aircraft were modified to KA-3B tankers while some were modified into a multi-mission tanker variant, the EKA-3B, which was a real workhorse for the carrier air wing. Electronic jamming equipment was added without removing tanker capability so the EKA-3B could jam enemy radar while waiting to refuel tactical aircraft. [19] Eventually, the EKA-3B was replaced by the smaller dedicated Grumman KA-6D Intruder tanker, which although it had less capacity and endurance, was deployed in greater numbers within the carrier's air wing. Two additional Naval Reserve units were established in the early 1970s as air refueling squadrons, VAQ-208 and VAQ-308, at Naval Air Station Alameda, California. Both units operated aircraft with electronic warfare equipment removed and were redesignated as KA-3Bs. VAK-208 and VAK-308 were decommissioned in the early 1990s.

Cold War

An EA-3B of Fleet Air Reconnaissance Squadron Two (VQ-2) lands on USS Kitty Hawk in 1987 EA-3B VQ-2 CV-63 1987.JPEG
An EA-3B of Fleet Air Reconnaissance Squadron Two (VQ-2) lands on USS Kitty Hawk in 1987

The EA-3 variant was used in critical electronic intelligence (ELINT) roles operating from aircraft carrier decks and ashore supplementing the larger Lockheed EP-3. Its last service was as an ELINT platform during Desert Storm.

Reconnaissance

The EA-3B variant was modified for electronic intelligence against the Warsaw Pact. Missions were flown around the globe beginning in 1956, with the U.S. Air Force EB-47 Stratojet flying a similar mission. The EA-3B carried a crew of seven, with flight crew of three in the cockpit and an Electronic Warfare Officer and three electronic systems operators/evaluators in the converted weapons bay. It offered unique electronic reconnaissance capabilities in numerous Cold War-era conflicts and the Vietnam War. [20]

Retirement

Douglas EA-3B on display with wings folded aboard museum ship USS Yorktown at Patriots Point Park in Charleston, South Carolina Douglas A3 Yorktown.jpg
Douglas EA-3B on display with wings folded aboard museum ship USS Yorktown at Patriots Point Park in Charleston, South Carolina

A handful of EA-3Bs remained in service long enough to participate in the first Gulf War in 1991. [21] The Skywarrior was withdrawn from USN service during September 1991, the last examples of the type being retired on 27 September 1991. U.S. Navy RDT&E units, notably Naval Air Systems Command (NAVAIR) activities at Naval Air Station Point Mugu and NAWS China Lake, attempted to retain their A-3 testbeds. These ambitions were ultimately unsuccessful when Vice Admiral Richard Dunleavy, as Deputy Chief of Naval Operations for Air Warfare and a former A-3 bombardier/navigator himself, made the final decision to retire the type.

Losses

Being the heaviest aircraft to take off from a carrier, the Skywarrior was prone to accidents. [27] "Ultimately, of 283 Skywarriors of various models built, around 120 (42%) were destroyed or crippled in accidents and combat. In 67% of accidents, at least one crew member died." [28] Of these losses, 7 were in Vietnam, of which 2 were the result of combat. [26]

Post-retirement career

The A-3 had been used as a civilian operated testbed for many years before the type's retirement from US Navy, with Hughes Aircraft Company using the type as a testbed for developing the weapons system for the General Dynamics–Grumman F-111B and Grumman F-14 Tomcat, with Westinghouse and Raytheon also using the A-3 as a testbed. [29] On the retirement of the type from US Navy service in 1991, the US Navy decided to end logistic support for the civilian operated testbeds. Rather than abandon the A-3, Hughes, Westinghouse and Raytheon agreed to acquire the remaining A-3s and spares from the Navy, allowing their test fleets to continue to operate and saving the US Navy the cost of storage and disposal. As the plan matured, two other contractors, Thunderbird Aviation and CTAS also elected to participate in similar agreements, with eleven A-3s spread between the five operators. [30] The fleet spares from ASO (Aviation Supply Office) were distributed between the contractors evenly, and warehouses were emptied all over the US. Due to misunderstandings and reorganizations within the US Navy, the worldwide ASO assets were scrapped, not getting to the contractors. In early 1993, CTAS decided that they no longer had use for their aircraft, and Hughes had several programs needing additional assets.

NRA-3B of the Pacific Missile Test Center in 1982 DN-SC-83-05204 NRA-3B Snoopy at Pacific Missile Test Center, Point Mugu in 1982.jpg
NRA-3B of the Pacific Missile Test Center in 1982

In early 1994, a US Air Force program decided to modify an A-3 for F-15 radar tests, and the only available airframe was stored at Naval Air Station Alameda since the fleet shutdown. Hughes added that aircraft to the bailment, and ferried the aircraft to Van Nuys for modifications. An entire nose section was removed from a stricken F-15B at AMARC at Davis-Monthan AFB, Arizona and grafted onto the front of the aircraft. Racks and equipment were installed in the cabin, and the aircraft was used by Hughes and the USAF for F-15 software development.

In 1994, Westinghouse decided to terminate their agreement with the Navy, and Thunderbird added their aircraft to the Thunderbird bailment. In 1996, Thunderbird Aviation went into receivership, and Hughes, through mutual cost savings to the government, added the Thunderbird assets to the contract, prepping them for ferry at Deer Valley airport, and relocating them to Mojave, California and Tucson, Arizona for long-term storage.

In December 1996, Raytheon bought the aerospace units of Hughes Aircraft Company. Hughes Aeronautical Operations, now a part of Raytheon Systems, continued to operate the A-3s from their base at Van Nuys Airport, California. [31] These aircraft have participated in several military air shows, telling visitors that the plane continued to be valuable for its load capacity compared to corporate jets, and its performance compared to small airliners.

On 30 June 2011, the last flyable EA-3B, BuNo 144865 / FAA registration N875RS, [32] a Raytheon aircraft, arrived at Naval Air Station Pensacola, Florida for retirement and display at the National Naval Aviation Museum.

Variants

An A3D-1 of Heavy Attack Squadron 3 (VAH-3) on USS Franklin D. Roosevelt in 1957. VAH-3 became the A3D/A-3 Replacement Air Group (RAG) squadron for the Atlantic Fleet in 1958. Douglas A3D-1 Skywarrior of VAH-3 landing aboard USS Franklin D. Roosevelt (CVA-42), circa in 1957.jpg
An A3D-1 of Heavy Attack Squadron 3 (VAH-3) on USS Franklin D. Roosevelt in 1957. VAH-3 became the A3D/A-3 Replacement Air Group (RAG) squadron for the Atlantic Fleet in 1958.

Note: under the original Navy designation scheme, the Skywarrior was designated A3D (third Attack aircraft from Douglas Aircraft). In September 1962, the new Tri-Services designation system was implemented and the aircraft was redesignated A-3. Where applicable, pre-1962 designations are listed first, post-1962 designations in parentheses.

A VA-3B used by the Chief of Naval Operations at Nellis AFB. Douglas VA-3B at Nellis AFB.jpeg
A VA-3B used by the Chief of Naval Operations at Nellis AFB.

B-66 Destroyer

The U.S. Air Force ordered 294 examples of the derivative B-66 Destroyer, most of which were used in the reconnaissance and electronic warfare roles. The Destroyer was fitted with ejection seats.

Operators

An A3D-2 of Heavy Attack Squadron 6 (VAH-6) lands on USS Ranger in 1958 A3D-2-Skywarrior-VAH-6-April1958.jpg
An A3D-2 of Heavy Attack Squadron 6 (VAH-6) lands on USS Ranger in 1958
Flag of the United States (23px).png  United States

Surviving aircraft

On display
XA3D-1
A-3A
NA-3A
YEA-3A
A-3B
EA-3B
KA-3B
NA-3B
EKA-3B
EA-3B Skywarrior aboard museum ship USS Yorktown at Patriots Point Park in Charleston, South Carolina A-3 Midway Museum San Diego.jpg
EA-3B Skywarrior aboard museum ship USS Yorktown at Patriots Point Park in Charleston, South Carolina
NEA-3B
NRA-3B
Under Restoration
EA-3B
A3D-2Q (EA-3B Bu#146453) on display at the Vintage Flying Museum, Meacham Field, Fort Worth, Texas. EA-3B at Meachum.jpg
A3D-2Q (EA-3B Bu#146453) on display at the Vintage Flying Museum, Meacham Field, Fort Worth, Texas.
KA-3B
ERA-3B
NTA-3B

Specifications (A3D-2/A-3B Skywarrior)

Douglas A-3B Skywarrior 3-view drawing.png

Data fromMcDonnell Douglas aircraft since 1920 : Volume I [53]

General characteristics

12,400 lbf (55 kN) with water injection [55]

Performance

Armament

Avionics

See also

Aircraft of comparable role, configuration, and era

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RVAH-1 was a Reconnaissance Attack (Heavy) Squadron of the U.S. Navy. Originally established as Heavy Attack Squadron One (VAH-1) on 1 November 1955, it was redesignated as Reconnaissance Attack (Heavy) Squadron One (RVAH-1) on 1 September 1964. The squadron was disestablished on 29 January 1979.

<span class="mw-page-title-main">RVAH-6</span> Military unit

RVAH-6 was a Reconnaissance Attack (Heavy) Squadron of the U.S. Navy. Originally established as Composite Squadron Six (VC-6) on 6 January 1950, it was redesignated as Heavy Attack Squadron Six (VAH-6) on 1 July 1956 and was redesignated as Reconnaissance Attack (Heavy) Squadron Six (RVAH-6) on 23 September 1965. The squadron was disestablished on 20 October 1978.

<span class="mw-page-title-main">RVAH-9</span> Military unit

RVAH-9 was a Reconnaissance Attack (Heavy) Squadron of the U.S. Navy. Originally established as Composite Squadron Nine (VC-9) on 15 January 1953, it was redesignated as Heavy Attack Squadron Nine (VAH-9) on 1 November 1955 and was redesignated as Reconnaissance Attack (Heavy) Squadron Nine (RVAH-9) on 3 June 1964. The squadron was disestablished on 30 September 1977.

<span class="mw-page-title-main">RVAH-5</span> Military unit

RVAH-5 was a Reconnaissance Attack (Heavy) Squadron of the U.S. Navy. Originally established as Composite Squadron Five (VC-5) at Naval Air Station Moffett Field, California on 9 September 1948, it was redesignated as Heavy Attack Squadron Five (VAH-5) on 1 November 1955 and was later redesignated as Reconnaissance Attack (Heavy) Squadron Five (RVAH-5) in May 1964. The squadron was disestablished on 30 September 1977.

<span class="mw-page-title-main">RVAH-11</span> Military unit

RVAH-11 was a Reconnaissance Attack (Heavy) Squadron of the U.S. Navy. Originally established as Composite Squadron Eight (VC-8) on 3 December 1951, it was redesignated Heavy Attack Squadron Eleven (VAH-11) on 1 November 1955 and was redesignated as Reconnaissance Attack (Heavy) Squadron Eleven (RVAH-11) on 1 July 1966. The squadron was disestablished on 1 June 1975.

<span class="mw-page-title-main">RVAH-3</span> Military unit

RVAH-3 was a Reconnaissance Attack (Heavy) Squadron of the U.S. Navy that served as the Fleet Replacement Squadron (FRS) for the RVAH community. Originally established as Heavy Attack Squadron Three (VAH-3) on 15 June 1956, it was redesignated as Reconnaissance Attack (Heavy) Squadron Three (RVAH-3) on 1 July 1964. The squadron was disestablished on 17 August 1979.

References

Citations

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  2. the heaviest aircraft operated from a carrier was a USMC KC-130F used in a test from USS Forrestal unarrested and unassisted in takeoff in 1963
  3. 1 2 3 Gunston and Gilchrist 1993, p. 128.
  4. 1 2 3 4 Winchester 2006, p. 75.
  5. 1 2 3 4 5 6 7 Gunston and Gilchrist 1993, p. 129.
  6. Polmar 1988, pp 50–51.
  7. Francillon 1979, pp. 493–494.
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  9. 1 2 Gunston and Gilchrist 1993, p. 130.
  10. Gunston and Gilchrist 1993, pp. 130-131.
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