V-2 rocket

Aggregat-4 / Vergeltungswaffe-2
Aggregat-4 / Vergeltungswaffe-2
	Peenemünde Museum replica of V-2.
Type	single stage ballistic missile
Place of origin	Nazi Germany
Service history
In service	1944–1952
Used by	Nazi Germany; United Kingdom (post-war); United States (post-war); Soviet Union (post-war)
Production history
Designer	Peenemünde Army Research Center
Manufacturer	Mittelwerk GmbH
Unit cost	100,000 RM January 1944, 50,000 RM March 1945
Produced	16 March 1942- 1945 (Germany); some assembled post war.
Specifications
Weight	12,500 kg (27,600 lb)
Length	14 m (45 ft 11 in)
Diameter	1.65 m (5 ft 5 in)
Warhead	1,000 kg (2,200 lb) Amatol
Detonation; mechanism	impact
Wingspan	3.56 m (11 ft 8 in)
Propellant	3,810 kg (8,400 lb) 75% ethanol/25% water; 4,910 kg (10,820 lb) liquid oxygen
Operational; range	320 km (200 mi)
Flight altitude	88 km (55 mi) maximum altitude on long range trajectory,; 206 km (128 mi) maximum altitude if launched vertically.
Speed	maximum:5,760 km/h (3,580 mph); at impact: 2,880 km/h (1,790 mph)
Guidance; system	Gyroscopes to determine direction; Müller-type pendulous gyroscopic accelerometer for engine cutoff on most production rockets
Launch; platform	Mobile (Meillerwagen)

The V-2 (German: Vergeltungswaffe 2, "Retribution Weapon 2"), technical name Aggregat-4 (A-4), was the world's first long-range^[4] guided ballistic missile. The missile with a liquid-propellant rocket engine was developed during the Second World War in Germany as a "vengeance weapon", designed to attack Allied cities as retaliation for the Allied bombings against German cities. The V-2 rocket also became the first artificial object to cross the boundary of space with the vertical launch of V-177 on 20 June 1944.^[5]

Beginning in September 1944, over 3,000 V-2s were launched by the German Wehrmacht against Allied targets during the war, first London and later Antwerp and Liège. According to a 2011 BBC documentary, the attacks resulted in the deaths of an estimated 9,000 civilians and military personnel, while 12,000 forced laborers and concentration camp prisoners were killed producing the weapons.^[6]

As Germany collapsed, teams from the Allied forces—the U.S., Great Britain and the Soviet Union—raced to capture key German manufacturing sites, guided missiles, rockets and jet powered aircraft. Wernher von Braun and over 100 key V-2 personnel surrendered to the Americans. Through a lengthy sequence of events, a significant portion of the original V-2 team ended up working for the US Army at the Redstone Arsenal. The US also captured enough V-2 hardware to build approximately 80 of the missiles. The Soviets gained possession of the V-2 manufacturing facilities after the war and proceeded to re-establish V-2 production and move it to the Soviet Union.

The Redstone team, led by von Braun, was transferred to NASA on its formation in October 1958. For NASA, this new Marshall Spaceflight Center (MSFC) helped design a series of rockets in the Saturn family.

Developmental history

In the late 1920s, a young Wernher von Braun bought a copy of Hermann Oberth's book, Die Rakete zu den Planetenräumen (The Rocket into Interplanetary Spaces).^[7] Starting in 1930, he attended the Technical University of Berlin, where he assisted Oberth in liquid-fueled rocket motor tests.^[7] Von Braun was working on his doctorate when the Nazi Party gained power in Germany.^[8] An artillery captain, Walter Dornberger, arranged an Ordnance Department research grant for von Braun, who from then on worked next to Dornberger's existing solid-fuel rocket test site at Kummersdorf.^[8] Von Braun's thesis, Construction, Theoretical, and Experimental Solution to the Problem of the Liquid Propellant Rocket (dated 16 April 1934), was kept classified by the German Army and was not published until 1960.^[9] By the end of 1934, his group had successfully launched two rockets that reached heights of 2.2 and 3.5 km (1.4 and 2.2 mi).^[8]

At the time, Germany was highly interested in American physicist Robert H. Goddard's research. Before 1939, German engineers and scientists occasionally contacted Goddard directly with technical questions.^[8] Von Braun used Goddard's plans from various journals and incorporated them into the building of the Aggregat (A) series of rockets,^[8] named for the German for mechanism or mechanical system.^[10]

Following successes at Kummersdorf with the first two Aggregate series rockets, Wernher von Braun and Walter Riedel began thinking of a much larger rocket in the summer of 1936,^[11] based on a projected 25-metric-ton-thrust engine.

Wind tunnel model of an A4 in the German Museum of Technology in Berlin

After the A-4 project was postponed due to unfavourable aerodynamic stability testing of the A-3 in July 1936,^[12]^[13] von Braun specified the A-4 performance in 1937,^[14] and, after an "extensive series of test firings of the A-5" scale test model,^[15] using a motor redesigned from the troublesome A-3's by Walter Thiel,^[15] A-4 design and construction was ordered c1938/1939.^[16] During 28–30 September 1939, Der Tag der Weisheit (English: The Day of Wisdom) conference met at Peenemünde to initiate the funding of university research to solve rocket problems.^[11]^:40

By late 1941, the Army Research Center at Peenemünde possessed the technologies essential to the success of the A-4. The four key technologies for the A-4 were large liquid-fuel rocket engines, supersonic aerodynamics, gyroscopic guidance and rudders in jet control.^[3] At the time, Adolf Hitler was not particularly impressed by the V-2; he pointed out that it was merely an artillery shell with a longer range and much higher cost.^[17]

In early September 1943, von Braun promised the Long-Range Bombardment Commission^[3]^:224 that the A-4 development was "practically complete/concluded",^[13]^:135 but even by the middle of 1944, a complete A-4 parts list was still unavailable.^[3]^:224 Hitler was sufficiently impressed by the enthusiasm of its developers, and needed a "wonder weapon" to maintain German morale,^[17] so authorized its deployment in large numbers.^[18]

The V-2s were constructed at the Mittelwerk site by prisoners from Mittelbau-Dora, a concentration camp where an estimated 20,000 prisoners died during the war.^[19]^[20]^[21]

Technical details

Layout of a V-2 rocket.

The A-4 used a 74% ethanol/water mixture (B-Stoff) for fuel and liquid oxygen (LOX) (A-Stoff) for oxidizer.^[22]

At launch the A-4 propelled itself for up to 65 seconds on its own power, and a program motor controlled the pitch to the specified angle at engine shutdown, after which the rocket continued on a ballistic free-fall trajectory. The rocket reached a height of 80 km (50 mi) after shutting off the engine.^[23]

The fuel and oxidizer pumps were driven by a steam turbine, and the steam was produced by concentrated hydrogen peroxide with sodium permanganate catalyst. Both the alcohol and oxygen tanks were an aluminium-magnesium alloy.^[1]

The combustion burner reached a temperature of 2,500 to 2,700 °C (4,530 to 4,890 °F). The alcohol-water fuel was pumped along the double wall of the main combustion burner. This regenerative cooling heated the fuel and cooled the combustion chamber. The fuel was then pumped into the main burner chamber through 1,224 nozzles, which assured the correct mixture of alcohol and oxygen at all times. Small holes also permitted some alcohol to escape directly into the combustion chamber, forming a cooled boundary layer that further protected the wall of the chamber, especially at the throat where the chamber was narrowest. The boundary layer alcohol ignited in contact with the atmosphere, accounting for the long, diffuse exhaust plume. By contrast, later, post-V-2 engine designs not employing this alcohol boundary layer cooling show a translucent plume with shock diamonds.

The warhead was another source of troubles. The explosive employed was amatol 60/40 detonated by an electric contact fuse. Amatol had the advantage of stability and the warhead was protected by a thick layer of fiberglass, but even so it could still explode in the re-entry phase. The warhead weighed 975 kilograms (2,150 lb) and contained 910 kilograms (2,010 lb) of explosive. The warhead's percentage by weight that was explosive was 93%, a very high percentage when compared with other types of munition.

The protective layer was used for the fuel tanks as well and the A-4 did not have the tendency to form ice, which was common to other early missiles (like the SM-65 Atlas). The tanks held 4,173 kilograms (9,200 lb) of ethyl alcohol and 5,553 kilograms (12,242 lb) of oxygen.^[24]

Captured V2 on public display in Antwerp, 1945. Exhaust vanes and external rudders in tail section shown.

The V-2 was guided by four external rudders on the tail fins, and four internal graphite vanes at the exit of the motor. The LEV-3 guidance system consisted of two free gyroscopes (a horizontal and a vertical) for lateral stabilization, and a PIGA accelerometer to control engine cutoff at a specified velocity. The V-2 was launched from a pre-surveyed location, so the distance and azimuth to the target were known. Fin 1 of the missile was aligned to the target azimuth.^[25]

Some later V-2s used "guide beams", radio signals transmitted from the ground, to keep the missile on course, but the first models used a simple analog computer that adjusted the azimuth for the rocket, and the flying distance was controlled by the timing of the engine cut-off, "Brennschluss", ground controlled by a Doppler system or by different types of on-board integrating accelerometers. The rocket stopped accelerating and soon reached the top of the approximately parabolic flight curve.

Dr. Friedrich Kirchstein of Siemens of Berlin developed the V-2 radio control for motor-cut-off (German: Brennschluss).^[13]^:28,124 For velocity measurement, Professor Wolman of Dresden created an alternative of his Doppler^[26]^:18 tracking system in 1940–41, which used a ground signal transponded by the A-4 to measure the velocity of the missile.^[3]^:103 By 9 February 1942, Peenemünde engineer de Beek had documented the radio interference area of a V-2 as 10,000 meters around the "Firing Point",^[27] and the first successful A-4 flight on 3 October 1943, used radio control for Brennschluss.^[12]^:12 Although Hitler commented on 22 September 1943 that "It is a great load off our minds that we have dispensed with the radio guiding-beam; now no opening remains for the British to interfere technically with the missile in flight",^[13]^:138 about 20% of the operational V-2 launches were beam-guided.^[12]^:12 The Operation Pinguin V-2 offensive began on 8 September 1944, when Lehr- und Versuchsbatterie No. 444^[26]^:51–2 (English: Training and Testing Battery 444) launched a single rocket guided by a radio beam directed at Paris.^[27]^:47 Wreckage of combat V-2s occasionally contained the transponder for velocity and fuel cutoff.^[11]^:259–60

The painting of the operational V-2s was mostly a camouflage ragged pattern with several variations, but at the end of the war a plain olive green rocket also appeared. During tests, the rocket was painted in a characteristic black-and-white chessboard pattern, which aided in determining if the rocket was spinning around its longitudinal axis.

A U.S. Army cut-away of the V-2.

The original German designation of the rocket was "V2", unhyphenated — exactly as used for any Third Reich-era "second prototype" example of an RLM-registered German aircraft design — but U.S. publications such as LIFE magazine were using the hyphenated form "V-2" as early as December 1944.^[28] This hyphenated form has now become common usage.

Testing

The first successful test flight was on 3 October 1942, reaching an altitude of 84.5 kilometres (52.5 miles):^[3]<templatestyles src="Template:Blockquote/styles.css" />

This third day of October, 1942, is the first of a new era in transportation, that of space travel...

— Speech at Peenemünde, Walter Dornberger, 3 October 1942^[12]¹⁷

A sectioned V2 engine on display at the Deutsches Museum, Munich (2006)

Two test launches were recovered by the Allies: the Bäckebo rocket, the remnants of which landed in Sweden on 13 June 1944 and one recovered by the Polish resistance on 30 May 1944^[29] from Blizna and transported to the UK during Operation Most III. The highest altitude reached during the war was 174.6 kilometres (108.5 miles) (20 June 1944).^[3] Test launches of V-2 rockets (Aggregate-4) were made at Peenemünde, Blizna and Tuchola Forest, and after the war, at Cuxhaven by the British, White Sands Proving Grounds and Cape Canaveral by the U.S., and Kapustin Yar by the USSR.

Various design issues were identified and solved during V-2 development and testing:

To reduce tank pressure and weight, high flow turbopumps were used to boost pressure.^[3]^:35
A short and lighter combustion chamber without burn-through was developed by using centrifugal injection nozzles, a mixing compartment, and a converging nozzle to the throat for homogeneous combustion.^[12]^:51
Film cooling was used to prevent burn-through at the nozzle throat.^[12]^:52
Relay contacts were made more durable to withstand vibration and prevent thrust cut-off just after lift-off.^[12]^:52
Ensuring that the fuel pipes had tension-free curves reduced the likelihood of explosions at 1,200–1,800 m (4,000–6,000 ft).^[12]^:215,217
Fins were shaped with clearance to prevent damage as the exhaust jet expanded with altitude.^[12]^:56,118
To control trajectory at liftoff and supersonic speeds, heat-resistant graphite vanes were used as rudders in the exhaust jet.^[12]^:35,58

Air burst problem

Through mid-March 1944, only 4 of the 26 successful Blizna launches had satisfactorily reached the Sarnaki target area^[27]^{:112, 221–222, 282} due to in-flight breakup (Luftzerleger) on re-entry into the atmosphere.^[30]^:100 Initially, excessive alcohol tank pressure was suspected, but by April 1944 after 5 months of test firings, the cause was still not determined. Major-General Rossmann, the Army Weapons Office department chief, recommended stationing observers in the target area – c. May/June, Dornberger and von Braun set up a camp at the centre of the Poland target zone.^[3]^: After moving to the Heidekraut,^[11]^:172,173 SS Mortar Battery 500 of the 836th Artillery Battalion (Motorized) was ordered^[27]^:47 on 30 August^[26] to begin test launches of eighty 'sleeved' rockets.^[13]^:281 Testing confirmed that the so-called 'tin trousers' – a tube designed to strengthen the forward end of the rocket cladding—reduced the likelihood of air bursts.^[30]^:100

Production

23 June 1943 RAF reconnaissance photo of V-2s at Test Stand VII

A production line was nearly ready at Peenemünde when the Operation Hydra attack caused the Germans to move production to the underground Mittelwerk in the Kohnstein where 5,200 V-2 rockets were built with the use of forced labour.^[31]

Period of production	Production ^{[citation needed]}
Up to 15 September 1944	1900
15 September to 29 October 1944	900
29 October to 24 November 1944	600
24 November to 15 January 1945	1100
15 January to 15 February 1945	700
Total	5200

Launch sites

A V-2 launched from a fixed site in summer 1943

Following Operation Crossbow bombing, initial plans for launching from the massive underground Watten and Wizernes bunkers or from fixed pads such as near the Chateau du Molay^[32] were dropped in favour of mobile launching. Eight main storage dumps were planned and four had been completed by July 1944 (the one at Mery-sur-Oise was begun in August 1943 and completed by February 1944).^[33] The missile could be launched practically anywhere, roads running through forests being a particular favourite. The system was so mobile and small that only one Meillerwagen was ever caught in action by Allied aircraft, during the Operation Bodenplatte attack on 1 January 1945^[34] near Lochem by a USAAF 4th Fighter Group aircraft, although Raymond Baxter described flying over a site during a launch and his wingman firing at the missile without hitting it.

It was estimated that a sustained rate of 350 V-2s could be launched per week, with 100 per day at maximum effort, given sufficient supply of the rockets.^[35]

Operational history

One of the victims of a V2 that struck Teniers Square, Antwerp, Belgium on 27 November 1944. A British military convoy was passing through the square at the time; 126 (including 26 Allied soldiers) were killed.^[36]

After Hitler's 29 August 1944 declaration to begin V-2 attacks as soon as possible, the offensive began on 8 September 1944 with a single launch at Paris, which caused modest damage near Porte d'Italie,.^[11]^:218,220,467 Two more launches by the 485th followed, including one from The Hague against London on the same day at 6:43 p.m.^[13]^:285 – the first landed at Chiswick, killing 63-year-old Mrs. Ada Harrison, 3-year-old Rosemary Clarke, and Sapper Bernard Browning on leave from the Royal Engineers,^[14]^:11 and one that hit Epping with no casualties. Upon hearing the double-crack of the supersonic rocket (London's first ever), Duncan Sandys and Reginald Victor Jones looked up from different parts of the city and exclaimed "That was a rocket!", and a short while after the double-crack, the sky was filled with the sound of a heavy body rushing through the air.^[13]^:286

The British government initially attempted to conceal the cause of the explosions by blaming them on defective gas mains.^{[citation needed]} The public therefore began referring to the V-2's as "flying gas pipes".^[37] The Germans themselves finally announced the V-2 on 8 November 1944 and only then, on 10 November 1944, did Winston Churchill inform Parliament, and the world, that England had been under rocket attack "for the last few weeks".^[38]

Positions of the German launch units changed a number of times. For example, Artillerie Init 444 arrived in the southwest Netherlands (in Zeeland) in September 1944. From a field near the village of Serooskerke, five V-2s were launched on 15 and 16 September, with one more successful and one failed launch on the 18th. That same date, a transport carrying a missile took a wrong turn and ended up in Serooskerke itself, giving a villager the opportunity to surreptitiously take some photographs of the weapon; these were smuggled to London by the Dutch Resistance.^[39] After that the unit moved to the woods near Rijs, Gaasterland in the northwest Netherlands, to ensure that the technology did not fall into Allied hands. From Gaasterland V-2s were launched against Ipswich and Norwich from 25 September (London being out of range). Because of their inaccuracy, these V-2s did not hit their target cities. Shortly after that only London and Antwerp remained as designated targets as ordered by Adolf Hitler himself, Antwerp being targeted in the period of 12 to 20 October, after which time the unit moved to The Hague.

Ruined buildings at Whitechapel, London, left by the last-but-one V2 to strike the city on 27 March 1945; the rocket killed 134 people. The very last V2 to fall on London killed one person at Orpington later the same day.^[40]

Over the next few months about 3,172 V-2 rockets were fired at the following targets:^[41]

Belgium, 1664: Antwerp (1610), Liège (27), Hasselt (13), Tournai (9), Mons (3), Diest (2)

United Kingdom, 1402: London (1358), Norwich (43),^[13]^:289 Ipswich (1)

France, 76: Lille (25), Paris (22), Tourcoing (19), Arras (6), Cambrai (4)

Netherlands, 19: Maastricht (19)

Germany, 11: Remagen (11)

An estimated 2,754 civilians were killed in London by V-2 attacks with another 6,523 injured,^[42] which is two people killed per V-2 rocket. However, this understates the potential of the V-2, since many rockets were misdirected and exploded harmlessly. Accuracy increased over the course of the war, particularly on batteries where Leitstrahl-Guide Beam apparatus was installed.^[43] Missile strikes that found targets could cause large numbers of deaths — 160 were killed and 108 seriously injured in one explosion at 12:26 pm on 25 November 1944, at a Woolworth's department store in New Cross, south-east London.^[44]

After these deadly results, British intelligence leaked falsified information implying that the rockets were over-shooting their London target by 10 to 20 miles (16 to 32 km). This tactic worked, and for the remainder of the war most landed on less-heavily populated areas in Kent due to erroneous recalibration.^[45]

Antwerp, Belgium was also the target for a large number of V-weapon attacks from October 1944 through March 1945, leaving 1,736 dead and 4,500 injured in greater Antwerp. Thousands of buildings were damaged or destroyed as the city was struck by 590 direct hits. The largest loss of life in a single attack came on 16 December 1944, when the roof of the crowded cinema REX was struck, leaving 567 dead and 291 injured.^[46]

Possible use during Operation Bodenplatte

At least one V-2 missile on a mobile Meillerwagen launch trailer was observed being elevated to launch position by a USAAF 4th Fighter Group pilot defending against the massive New Year's Day 1945 Operation Bodenplatte strike by the Luftwaffe over the northern German attack route near the town of Lochem on 1 January 1945. Possibly, from the potential sighting of the American fighter by the missile's launch crew, the rocket was quickly lowered from a near launch-ready 85° elevation to 30°.^[47]

Tactical use

After the US Army captured the Ludendorff Bridge during the Battle of Remagen, the Germans were desperate to destroy it. On 17 March 1945, they fired eleven V2 missiles at the bridge, their first use against a tactical target. They could not employ the more accurate Leitstrahl device because it was oriented towards Antwerp and could not be easily adjusted for another target. Fired from near Hellendoorn, the Netherlands, one of the missiles landed as far away as Cologne, 40 miles (64 km) to the north, while one missed the bridge by only 500 to 800 yards (460 to 730 m). They also struck the town of Remagen, destroying a number of buildings and killing at least six American soldiers.^[48]

Final use

The final two rockets exploded on 27 March 1945. One of these was the last V-2 to kill a British civilian: Mrs. Ivy Millichamp, aged 34, killed in her home in Kynaston Road, Orpington in Kent.^[49]

A scientific reconstruction carried out in 2010 demonstrated that the V-2 creates a crater 20 m wide and 8 m deep, ejecting approximately 3,000 tons of material into the air.^[45]

Post-War

After the Nazi defeat, German engineers were moved to the United States and the USSR, where they further developed the V-2 rocket for Military and civilian purposes.^[50] The V-2 rocket also laid the foundation for the Saturn V rocket used by the United States in the Apollo missions.^[51]

Countermeasures

Rocket engine used by V-2

Big Ben and Crossbow

Unlike the V-1, the V-2's speed and trajectory made it practically invulnerable to anti-aircraft guns and fighters, as it dropped from an altitude of 100–110 km (62–68 mi) at up to three times the speed of sound at sea level (approximately 3550 km/h). Nevertheless, the threat of what was then code-named "Big Ben" was great enough that efforts were made to seek countermeasures. The situation was similar to the pre-war concerns about manned bombers and led to a similar solution, the formation of the Crossbow Committee to collect, examine and develop countermeasures.

Early on, it was believed that the V-2 employed some form of radio guidance, a belief that persisted in spite of several rockets being examined without discovering anything like a radio receiver. This led to efforts to jam this non-existent guidance system as early as September 1944, using both ground and air-based jammers flying over the UK. In October a group had been sent to jam the missiles during launch. By December it was clear these systems were having no obvious effect, and jamming efforts ended.^[52]

Anti-aircraft gun system

Frederick Alfred Pile, commander of Anti-Aircraft Command, studied the problem and proposed that enough anti-aircraft guns were available to produce a barrage of fire in the rocket's path, but only if provided with a reasonable prediction of the trajectory. The first estimates suggested that 320,000 shells would have to be fired for each rocket. About 2% of these were expected to fall back to the ground, almost 90 tons of rounds, which would cause far more damage than the missile. At a 25 August 1944 meeting of the Crossbow Committee, the concept was rejected.^[52]

Pile continued studying the problem, and returned with a proposal to fire only 150 shells at a single rocket, with those shells using a new fuse that would greatly reduce the number that fell back to Earth unexploded. Some low-level analysis suggested that this would be successful against 1 in 50 rockets, provided that accurate trajectories were forwarded to the gunners in time. Work on this basic concept continued and developed into a plan to deploy a large number of guns in Hyde Park that were provided with pre-configured firing data for 2.5 mile-wide grids of the London area. After the trajectory was determined, the guns would aim and fire between 60 and 500 rounds.^[52]

At a Crossbow meeting on 15 January Pile's updated plan was presented with some strong advocacy from Roderic Hill and Charles Drummond Ellis. However, the Committee suggested that a test not be carried out as no technique for tracking the missiles with sufficient accuracy had yet been developed. By March this had changed significantly, with 81% of incoming missiles correctly allotted to the grid square each fell into, or the one beside it. At a 26 March meeting the plan moved ahead, and Pile was directed to a subcommittee with RV Jones and Ellis to further develop the statistics. Three days later the team returned a report stating that if the guns fired 2,000 rounds at a missile there was a 1 in 60 chance of shooting it down. Plans for an operational test began, but as Pile later put it, "Monty beat us to it", as the attacks ended with the Allied liberation of their launching areas.^[52]

With the loss of the launching sites, the Germans turned their attention on Antwerp. Plans were made to move the Pile system to protect that city, but the war ended before anything could be done.^[52]

Direct attack

Another defence against the V-2 campaign was to destroy the launch infrastructure—expensive in terms of bomber resources and casualties—or to cause the Germans to aim at the wrong place through disinformation. The British were able to convince the Germans to direct V-1s and V-2s aimed at London to less populated areas east of the city. This was done by sending deceptive reports on the damage caused and sites hit via the German espionage network in Britain, which was controlled by the British (the Double-Cross System).

On 3 March 1945 the Allies attempted to destroy V-2s and launching equipment in the "Haagse Bos" in The Hague by a large-scale bombardment, but due to navigational errors the Bezuidenhout quarter was destroyed, killing 511 Dutch civilians. Churchill sent a scathing minute to General Ismay requesting a thorough explanation for "this extraordinarily bad aiming".^[53]

Assessment

The German V-weapons (V-1 and V-2) cost the equivalent of around USD $40 billion (2015 dollars), which was 50 per cent more than the Manhattan Project that produced the atomic bomb.^[11]^:178 6,048 V-2s were built, at a cost of approximately 100,000 Reichsmarks (GB£2,370,000 (2011)) each; 3,225 were launched. SS General Hans Kammler, who as an engineer had constructed several concentration camps including Auschwitz, had a reputation for brutality and had originated the idea of using concentration camp prisoners as slave laborers in the rocket program. More people died manufacturing the V-2 than were killed by its deployment.^[54]

The V-2 consumed a third of Germany's fuel alcohol production and major portions of other critical technologies:^[56] to distil the fuel alcohol for one V-2 launch required 30 tonnes of potatoes at a time when food was becoming scarce.^[57] Due to a lack of explosives, concrete was used^{[clarification needed]} and sometimes the warhead contained photographic propaganda of German citizens who had died in Allied bombing.^[17]

The V-2 lacked a proximity fuse, so it could not be set for air burst; it buried itself in the target area before or just as the warhead detonated. This reduced its effectiveness. Furthermore, its early guidance systems were too primitive to hit specific targets and its costs were approximately equivalent to four-engined bombers, which were more accurate (though only in a relative sense), had longer ranges, carried many more warheads, and were reusable. In comparison, in one 24-hour period during Operation Hurricane, the RAF dropped over 10,000 long tons of bombs on Brunswick and Duisburg, roughly equivalent to the amount of explosives that could be delivered by 10,000 V-2 rockets. Moreover, it diverted resources from other, more effective programs. That said, the limiting factor for German aviation after 1941 was always the availability of high test aviation gas^{[citation needed]} (not planes or pilots), so criticisms of the V-1 and V-2 programs that compare their cost to hypothetical increases in fighter or bomber production are misguided. Nevertheless, the weapon had a considerable psychological effect because, unlike bombing planes or the V-1 Flying Bomb (which made a characteristic buzzing sound), the V-2 travelled faster than the speed of sound and gave no warning before impact. There was no effective defence and no risk of pilot and crew casualties.

With the war all but lost, regardless of the factory output of conventional weapons, the Nazis resorted to V-weapons as a tenuous last hope to influence the war militarily (hence Antwerp as V-2 target), as an extension of their desire to "punish" their foes and most importantly to give hope to their supporters with their miracle weapon.^[17] The V-2 had no effect on the outcome of the war, but it led to the ICBMs of the Cold War and modern space exploration.

Unfulfilled plans

A submarine-towed launch platform was tested successfully, making it the prototype for submarine-launched ballistic missiles. The project codename was Prüfstand XII ("Test stand XII"), sometimes called the rocket U-boat. If deployed, it would have allowed a U-boat to launch V-2 missiles against United States cities, though only with considerable effort (and limited effect).^[58] Hitler, in July 1944 and Speer, in January 1945, made speeches alluding to the scheme,^[59] though Germany did not possess the capability to fulfill these threats. These schemes were met by the Americans with Operation Teardrop.

While interned after the war by the British at CSDIC camp 11, Dornberger was recorded saying that he had begged the Führer to stop the V-weapon propaganda, because nothing more could be expected from one ton of explosive. To this Hitler had replied that Dornberger might not expect more, but he (Hitler) certainly did.

According to decrypted messages from the Japanese embassy in Germany, twelve dismantled V-2 rockets were shipped to Japan.^[60] These left Bordeaux in August 1944 on the transport U-boats U-219 and U-195, which reached Djakarta in December 1944. A civilian V-2 expert was a passenger on U-234, bound for Japan in May 1945 when the war ended in Europe. The fate of these V-2 rockets is unknown.

Postwar use

At the end of the war, a race began between the United States and the USSR to retrieve as many V-2 rockets and staff as possible.^[61] Three hundred rail-car loads of V-2s and parts were captured and shipped to the United States and 126 of the principal designers, including Wernher von Braun and Walter Dornberger, were in American hands. Von Braun, his brother Magnus von Braun, and seven others decided to surrender to the United States military (Operation Paperclip) to ensure they were not captured by the advancing Soviets or shot dead by the Nazis to prevent their capture.^[62]

Britain

Operation Backfire (WWII) V-2 rocket on Meillerwagen (S.I. Negative #76-2755)

In October 1945, British Operation Backfire assembled a small number of V-2 missiles and launched three of them from a site in northern Germany. The engineers involved had already agreed to move to the US when the test firings were complete. The Backfire report remains the most extensive technical documentation of the rocket, including all support procedures, tailored vehicles and fuel composition.^{[citation needed]}

Post-war V-2s launched in secret from Peenemünde may have been responsible for a curious phenomenon known as ghost rockets, unexplained objects crossing the skies over Sweden and Finland.^{[citation needed]}

Canada

In his book My Father's Son, Canadian author Farley Mowat, then a member of the Canadian Army, claims to have obtained a V-2 rocket in 1945 and shipped it back to Canada, where it is alleged to have ended up in the Canadian National Exhibition grounds in Toronto. There was a V-2 stored outside at RCAF Station Picton, Ontario in June 1961.^{[citation needed]}

The Canadian Arrow, a competitor for the Ansari X Prize, was based on the aerodynamic design of the V-2.

United States

US test launch of a Bumper V-2.

Operation Paperclip recruited German engineers and Special Mission V-2 transported the captured V-2 parts to the United States. At the close of the Second World War, over 300 rail cars filled with V-2 engines, fuselages, propellant tanks, gyroscopes, and associated equipment were brought to the railyards in Las Cruces, New Mexico, so they could be placed on trucks and driven to the White Sands Proving Grounds, also in New Mexico.

In addition to V-2 hardware, the U.S. Government delivered German mechanization equations for the V-2 guidance, navigation, and control systems, as well as for advanced development concept vehicles, to U.S. defence contractors for analysis. In the 1950s some of these documents were useful to U.S. contractors in developing direction cosine matrix transformations and other inertial navigation architecture concepts that were applied to early U.S. programs such as the Atlas and Minuteman guidance systems as well as the Navy's Subs Inertial Navigation System.^[63]

A committee was formed with military and civilian scientists to review payload proposals for the reassembled V-2 rockets.^[64] This led to an eclectic array of experiments that flew on V-2s and paved the way for American manned space exploration. Devices were sent aloft to sample the air at all levels to determine atmospheric pressures and to see what gases were present. Other instruments measured the level of cosmic radiation.

The first photo from space was taken from a V-2 launched by US scientists on 24 October 1946.

Only 68 percent of the V-2 trials were considered successful.^[65] A supposed V-2 launched on 29 May 1947 landed near Juarez, Mexico and was actually a Hermes B-1 vehicle.^[66]

The U.S. Navy attempted to launch a German V-2 rocket at sea—one test launch from the aircraft carrier USS Midway was performed on 6 September 1947 as part of the Navy's Operation Sandy. The test launch was a partial success; the V-2 went off the pad but splashed down in the ocean only some 10 km (6 mi) from the carrier. The launch setup on the Midway's deck is notable in that it used foldaway arms to prevent the missile from falling over. The arms pulled away just after the engine ignited, releasing the missile. The setup may look similar to the R-7 launch procedure but in the case of the R-7 the trusses hold the full weight of the rocket, rather than just reacting to side forces.

The PGM-11 Redstone rocket is a direct descendant of the V-2.^[67]

USSR

The USSR also captured a number of V-2s and staff, letting them set up in Germany for a time. The first work contracts were signed in the middle of 1945. In 1946 (as part of Operation Osoaviakhim) they were obliged to move to Kapustin Yar in the USSR, where Gröttrup headed up a group of just under 250 engineers. The first Soviet missile was the R-1, a duplicate of the V-2. Most of the German team was sent home after that project but some remained to do research until as late as 1951. Unknown to the Germans, work immediately began on larger missiles, the R-2 and R-5, based on extension of the V-2 technology.^{[citation needed]}

In popular culture

Thomas Pynchon makes the V-2 rocket the central point of his postmodern novel Gravity's Rainbow.
The MGM movie Operation Crossbow dramatises Allied efforts to impede the V-1 and V-2 programmes.

Surviving V-2 examples and components

V-2 rocket located at the Australian War Memorial Treloar Centre Annex

A rusty V-2 engine in the original underground production facilities at the Dora-Mittelbau concentration camp memorial site.

At least 20 V-2s still existed in 2014.

Australia

One at the Australian War Memorial, Canberra, including complete Meillerwagen transporter. The rocket has the most complete set of guidance components of all surviving A4s.^{[citation needed]} The Meillerwagen is the most complete of the three examples known to exist. Another A4 was on display at the RAAF Museum at Point Cook outside Melbourne. Both rockets now reside in Canberra.

Netherlands

One example, partly skeletonized, is in the collection of the Royal Netherlands Army Museum. In this collection are also a launching table and some loose parts, as well as the remains of a V-2 that crashed in The Hague immediately after launch.

Poland

Several large components, like hydrogen peroxide tank and reaction chamber, the propellant turbopump and the HWK rocket engine chamber (partly cut-out) are displayed at the Polish Aviation Museum in Kraków

France

One engine at Cité de l'espace in Toulouse.
V-2 display including engine, parts, rocket body and many documents and photographs relating to the development and use at La Coupole museum, Wizernes, Pas de Calais.
One rocket body no engine, one complete engine, one lower engine section and one wrecked engine on display at La Coupole museum
One engine complete with steering pallets, feed lines and tank bottoms, plus one cut-out thrust chamber and one cut-out turbopump at the Snecma (Space Engines Div.) museum in Vernon
One complete rocket in WWII wing of the Musée de l'Armée (Army Museum) in Paris.

Germany

One complete missile and an additional engine at the Deutsches Museum in Munich.
One engine at the German Museum of Technology in Berlin.
One rusty engine in the original V-2 underground production facilities at the Dora-Mittelbau concentration camp memorial site.

One replica was constructed for the Peenemünde Historical and Technical Information Centre^[68] where it is displayed near what remains of the factory where it was built.

United Kingdom

Propulsion unit from a V-2 that broke up in air is displayed with exhaust exit pointed up—Norfolk and Suffolk Aviation Museum

One at the Science Museum, London.
One, on loan from Cranfield University, at the Imperial War Museum, London.
The RAF Museum has two rockets, one displayed at the museum's London site and one at the Cosford site. The museum also owns a Meillerwagen, a Vidalwagen, a Strabo crane, and a firing table with towing dolly.
One at the Royal Engineers Museum in Chatham, Kent.
A propulsion unit (minus injectors) is in Norfolk and Suffolk Aviation Museum near Bungay
A complete turbo-pump is at Solway Aviation Museum, Carlisle Airport as part of the Blue Streak Rocket exhibition.
The venturi segment of one discovered in April 2012 was donated to the Harwich Sailing Club after they found it buried in a mudflat.^[69]
Fuel combustion chamber recovered from the sea near Clacton at the East Essex Aviation Museum, St Oysth

United States

Complete missiles

One at the Flying Heritage Collection, Everett, Washington
One at the National Museum of the United States Air Force, including complete Meillerwagen, Dayton, Ohio.
One (chessboard-painted) at the Kansas Cosmosphere and Space Center in Hutchinson, Kansas.
One at the National Air and Space Museum, Washington, D.C.
One at the Fort Bliss Air Defense Museum, El Paso, Texas.
One (yellow and black) at Missile Park, White Sands Missile Range in White Sands, New Mexico.^[70]
One at Marshall Space Flight Center in Huntsville, Alabama.
One at the U.S. Space & Rocket Center in Huntsville, Alabama.

Components

One engine at the Stafford Air & Space Museum in Weatherford, Oklahoma.
One engine at the U.S. Space & Rocket Center in Huntsville, Alabama.
One engine at the National Museum of the United States Air Force
One engine at the Museum of Science and Industry in Chicago.
One rocket body and one engine at the United States Army Ordnance Museum in Aberdeen, Maryland. (moved to Wright-Patterson AFB in Dayton Ohio in approx 2005.)
One rocket body at Picatinny Arsenal in Dover, NJ.
One engine in the Auburn University Engineering Lab
One engine in the Exhibit Hall adjacent to the Blockhouse building on the Historic Cape Canaveral Tour in Cape Canaveral, Florida.
One engine at Parks College of Engineering, Aviation and Technology in St. Louis, Missouri
One engine and tail section at New Mexico Museum of Space History in Alamogordo, New Mexico

Notes

↑ ^1.0 ^1.1 Lua error in package.lua at line 80: module 'strict' not found.
↑ 10% of the Mittelwerk rockets used a guide beam for cutoff.
↑ ^3.0 ^3.1 ^3.2 ^3.3 ^3.4 ^3.5 ^3.6 ^3.7 ^3.8 Lua error in package.lua at line 80: module 'strict' not found.
↑ 'Long-range' in the context of the time. See NASA history article.
↑ Lua error in package.lua at line 80: module 'strict' not found.
↑ Am Anfang war die V2. Vom Beginn der Weltraumschifffahrt in Deutschland. In: Utz Thimm (Hrsg.): Warum ist es nachts dunkel? Was wir vom Weltall wirklich wissen. Kosmos, 2006, S. 158, ISBN 3-440-10719-1
↑ ^7.0 ^7.1 Wernher von Braun#Early life.
↑ ^8.0 ^8.1 ^8.2 ^8.3 ^8.4 Wernher von Braun#The Prussian rocketeer and working under the Nazis.
↑ Konstruktive, theoretische und experimentelle Beiträge zu dem Problem der Flüssigkeitsrakete. Raketentechnik und Raumfahrtforschung, Sonderheft 1 (1960), Stuttgart, Germany
↑ Christopher, John. The Race for Hitler's X-Planes (The Mill, Gloucestershire: History Press, 2013), p.110.
↑ ^11.0 ^11.1 ^11.2 ^11.3 ^11.4 ^11.5 Lua error in package.lua at line 80: module 'strict' not found.
↑ ^12.0 ^12.1 ^12.2 ^12.3 ^12.4 ^12.5 ^12.6 ^12.7 ^12.8 ^12.9 Lua error in package.lua at line 80: module 'strict' not found. English translation 1954.
↑ ^13.0 ^13.1 ^13.2 ^13.3 ^13.4 ^13.5 ^13.6 ^13.7 Lua error in package.lua at line 80: module 'strict' not found.
↑ ^14.0 ^14.1 Lua error in package.lua at line 80: module 'strict' not found.
↑ ^15.0 ^15.1 Christopher, p.111.
↑ Lua error in package.lua at line 80: module 'strict' not found.
↑ ^17.0 ^17.1 ^17.2 ^17.3 Lua error in package.lua at line 80: module 'strict' not found. Cite error: Invalid <ref> tag; name "Irons" defined multiple times with different content
↑ Lua error in package.lua at line 80: module 'strict' not found.
↑ Lua error in package.lua at line 80: module 'strict' not found.
↑ Lua error in package.lua at line 80: module 'strict' not found.
↑ Lua error in package.lua at line 80: module 'strict' not found.
↑ Lua error in package.lua at line 80: module 'strict' not found.
↑ The History Channel V2 Factory: Nordhausen 070723
↑ War machine encyclopedia, Limited publishing, London 1983 p 1690-92
↑ Stakem, Patrick H. The History of Spacecraft Computers from the V-2 to the Space Station, 2010, PRB Publishing, ASIN B004L626U6
↑ ^26.0 ^26.1 ^26.2 Lua error in package.lua at line 80: module 'strict' not found.
↑ ^27.0 ^27.1 ^27.2 ^27.3 Lua error in package.lua at line 80: module 'strict' not found.
↑ Lua error in package.lua at line 80: module 'strict' not found.
↑ # (Polish) Michał Wojewódzki, Akcja V-1, V-2, Warsaw 1984, ISBN 83-211-0521-1
↑ ^30.0 ^30.1 Lua error in package.lua at line 80: module 'strict' not found.
↑ Lua error in package.lua at line 80: module 'strict' not found.
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↑ Lua error in package.lua at line 80: module 'strict' not found.
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↑ King, Kutta (1998), p.244
↑ Lua error in package.lua at line 80: module 'strict' not found.
↑ Lua error in package.lua at line 80: module 'strict' not found.
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↑ Lua error in package.lua at line 80: module 'strict' not found.
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↑ ^45.0 ^45.1 Blitz Street; Channel 4, 10 May 2010
↑ Lua error in package.lua at line 80: module 'strict' not found.
↑ Ordway & Sharpe 1979, p. 256.
↑ Lua error in package.lua at line 80: module 'strict' not found.
↑ Foster, Vicki. "65th anniversary of the V2 rocket landing in Orpington", News Shopper, Orpington, Kent, 2 April 2010.
↑ Lua error in package.lua at line 80: module 'strict' not found.
↑ Lua error in package.lua at line 80: module 'strict' not found.
↑ ^52.0 ^52.1 ^52.2 ^52.3 ^52.4 Jeremy Stocker, "Britain and Ballistic Missile Defence, 1942-2002", pp. 25-28.
↑ Churchill to Ismay: 18 March 1945
↑ Lua error in package.lua at line 80: module 'strict' not found.
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↑ Lua error in package.lua at line 80: module 'strict' not found.
↑ Lua error in package.lua at line 80: module 'strict' not found.
↑ Article in San Diego Times c.25 July 1944
↑ Besant, John Stalin's Silver concerning the sinking of SS John Barry near Aden in 1944
↑ "We Want with the West", Time Magazine, 9 December 1946.
↑ Lua error in package.lua at line 80: module 'strict' not found.
↑ Lua error in package.lua at line 80: module 'strict' not found.
↑ By January 1946, the U.S. Army Ordnance Corps invited civilian scientists and engineers to participate in developing a space research program using the V-2. The committee was initially called the "V2 Rocket Panel", then the "V2 Upper Atmosphere Research Panel", and finally the "Upper Atmosphere Rocket Research Panel". See: Johan A.M. Bleeker, Johannes Geiss, and Martin C.E. Huber, ed.s, The Century of Space Science, vol. 1 (Dordrecht, Netherlands: Kluwer Academic Publishers, 2001) p. 41. See also: SpaceLine.org
↑ Lua error in package.lua at line 80: module 'strict' not found.
↑ Lua error in package.lua at line 80: module 'strict' not found.
↑ Lua error in package.lua at line 80: module 'strict' not found.
↑ The Peenemünde replica incorporates many original components along with re-manufactured ones and was put together by a group that included Reinhold Kruger, who worked as an apprentice at Peenemünde during the war,^{[citation needed]}
↑ Lua error in package.lua at line 80: module 'strict' not found.
↑ The WSMR exhibit is Mittelwerk rocket #FZ04/20919 captured during Special Mission V-2 and is painted with a yellow and black paint scheme of the first successful V-2 launched at WSMR on 10 May 1946.

References

Lua error in package.lua at line 80: module 'strict' not found. 24,000 fighters could have been produced instead of the inaccurate V-weapons.
Lua error in package.lua at line 80: module 'strict' not found.
King, Benjamin and Timothy J. Kutta (1998). Impact: The History of Germany's V-Weapons in World War II . (Alternately: Impact: An Operational History of Germany's V Weapons in World War II.) Rockville Centre, New York: Sarpedon Publishers, 1998. ISBN 1-885119-51-8, ISBN 1-86227-024-4. Da Capo Press; Reprint edition, 2003: ISBN 0-306-81292-4.

External links

Rocket V2 - The "Third Bridge Operation", July 1944
History of Peenemünde and the discovery of the German missile development by the Allies
V2Rocket.com
"Chute Saves Rockets Secrets" , September 1947, Popular Science article on US use of V-2 for scientific research
"V2 Rocket - Assembling and Launching (1947)" on YouTube
Reconstruction, restoration & refurbishment of a V-2 rocket, spherical panoramas of the process and milestones.

[Kennedy-1] 1.0 ^1.1 Lua error in package.lua at line 80: module 'strict' not found.

[2] 10% of the Mittelwerk rockets used a guide beam for cutoff.

[Neufeld-3] 3.0 ^3.1 ^3.2 ^3.3 ^3.4 ^3.5 ^3.6 ^3.7 ^3.8 Lua error in package.lua at line 80: module 'strict' not found.

[4] 'Long-range' in the context of the time. See NASA history article.

[5] Lua error in package.lua at line 80: module 'strict' not found.

[6] Am Anfang war die V2. Vom Beginn der Weltraumschifffahrt in Deutschland. In: Utz Thimm (Hrsg.): Warum ist es nachts dunkel? Was wir vom Weltall wirklich wissen. Kosmos, 2006, S. 158, ISBN 3-440-10719-1

[WvB-7] 7.0 ^7.1 Wernher von Braun#Early life.

[PrusRocketeer-8] 8.0 ^8.1 ^8.2 ^8.3 ^8.4 Wernher von Braun#The Prussian rocketeer and working under the Nazis.

[9] Konstruktive, theoretische und experimentelle Beiträge zu dem Problem der Flüssigkeitsrakete. Raketentechnik und Raumfahrtforschung, Sonderheft 1 (1960), Stuttgart, Germany

[10] Christopher, John. The Race for Hitler's X-Planes (The Mill, Gloucestershire: History Press, 2013), p.110.

[Ordway-11] 11.0 ^11.1 ^11.2 ^11.3 ^11.4 ^11.5 Lua error in package.lua at line 80: module 'strict' not found.

[Dornberger-12] 12.0 ^12.1 ^12.2 ^12.3 ^12.4 ^12.5 ^12.6 ^12.7 ^12.8 ^12.9 Lua error in package.lua at line 80: module 'strict' not found. English translation 1954.

[Irving-13] 13.0 ^13.1 ^13.2 ^13.3 ^13.4 ^13.5 ^13.6 ^13.7 Lua error in package.lua at line 80: module 'strict' not found.

[Middlebrook-14] 14.0 ^14.1 Lua error in package.lua at line 80: module 'strict' not found.

[Christopher.2C_p.111-15] 15.0 ^15.1 Christopher, p.111.

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[Irons-17] 17.0 ^17.1 ^17.2 ^17.3 Lua error in package.lua at line 80: module 'strict' not found. Cite error: Invalid <ref> tag; name "Irons" defined multiple times with different content

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[22] Lua error in package.lua at line 80: module 'strict' not found.

[23] The History Channel V2 Factory: Nordhausen 070723

[24] War machine encyclopedia, Limited publishing, London 1983 p 1690-92

[25] Stakem, Patrick H. The History of Spacecraft Computers from the V-2 to the Space Station, 2010, PRB Publishing, ASIN B004L626U6

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[29] # (Polish) Michał Wojewódzki, Akcja V-1, V-2, Warsaw 1984, ISBN 83-211-0521-1

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[37] King, Kutta (1998), p.244

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[Blitz_Street.3B_Channel_4.2C_10.5.2010-45] 45.0 ^45.1 Blitz Street; Channel 4, 10 May 2010

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[47] Ordway & Sharpe 1979, p. 256.

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[49] Foster, Vicki. "65th anniversary of the V2 rocket landing in Orpington", News Shopper, Orpington, Kent, 2 April 2010.

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[51] Lua error in package.lua at line 80: module 'strict' not found.

[stock25-52] 52.0 ^52.1 ^52.2 ^52.3 ^52.4 Jeremy Stocker, "Britain and Ballistic Missile Defence, 1942-2002", pp. 25-28.

[53] Churchill to Ismay: 18 March 1945

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[59] Article in San Diego Times c.25 July 1944

[60] Besant, John Stalin's Silver concerning the sinking of SS John Barry near Aden in 1944

[61] "We Want with the West", Time Magazine, 9 December 1946.

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[63] Lua error in package.lua at line 80: module 'strict' not found.

[64] By January 1946, the U.S. Army Ordnance Corps invited civilian scientists and engineers to participate in developing a space research program using the V-2. The committee was initially called the "V2 Rocket Panel", then the "V2 Upper Atmosphere Research Panel", and finally the "Upper Atmosphere Rocket Research Panel". See: Johan A.M. Bleeker, Johannes Geiss, and Martin C.E. Huber, ed.s, The Century of Space Science, vol. 1 (Dordrecht, Netherlands: Kluwer Academic Publishers, 2001) p. 41. See also: SpaceLine.org

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[ref1-68] The Peenemünde replica incorporates many original components along with re-manufactured ones and was put together by a group that included Reinhold Kruger, who worked as an apprentice at Peenemünde during the war,^{[citation needed]}

[69] Lua error in package.lua at line 80: module 'strict' not found.

[ref2-70] The WSMR exhibit is Mittelwerk rocket #FZ04/20919 captured during Special Mission V-2 and is painted with a yellow and black paint scheme of the first successful V-2 launched at WSMR on 10 May 1946.

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