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Authors: Brian Ford

Tags: #Secret Weapons: Death Rays, #Doodlebugs and Churchill’s Golden Goose

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Even the most successful of the British forays into rocketry were no match for the Germans in terms of high-technology development. The British designs were intended mainly as weapons of defence, and there had been no interest shown in offensive weapons of a large scale.

American rocketry

Like the British, the Americans largely relied on solid-fuel rockets during the early years of World War II. The first truly successful American rocket of the war arose from the vestiges of research carried out by Robert Goddard at the end of World War I and was also one of the smallest – the bazooka. Development had been driven largely by the need to find an answer to the otherwise insurmountable problem of recoil, which occured when an armour-piercing shell was fired from a transportable gun. So fierce was the equal-and-opposite reaction that it seemed impossible to design a suitable weapon that could be moved around by soldiers on the battlefield. As Goddard had demonstrated in 1918, a rocket-propelled missile would overcome the difficulty since the motive force is generated during flight and is not due to the massive reaction of an exploding cartridge. In 1942 Clarence Hickman, Goddard’s former colleague, resumed experiments at the George Washington University in Washington DC, and Lieutenant Edward Uhl – who was later credited with being ‘The Father of the Bazooka’ – developed a launcher tube that could be put into production. After almost a quarter-century in the doldrums, Goddard’s invention was suddenly a high priority.

SPANISH ROCKETS IN WAR

Small solid-fuel rockets were used during the Spanish Civil War of 1936–39. The Spanish authorities modified rockets designed for use in ocean rescue missions for delivering propaganda leaflets behind enemy lines. The sea-rescue rocket nose cones were designed to open at a predetermined altitude to release a payload of the propaganda leaflets, which were printed on an especially thin paper to help conserve weight. The rockets were reliable, and easily manufactured; yet they were in principle little different from those used in the Napoleonic era. As the omission of rockets from the restrictions imposed by the Treaty of Versailles reminds us, the rocket was yet to be recognized as a major weapon of war – only the German enthusiasts had this futuristic vision.

As a result a 21in (53cm) rocket weighing 3.5lb (1.5kg) was put into production. It contained 1.6lb (720g) of Pentolite high explosive and was fired from a launch tube which could be carried by a soldier and fired from shoulder-height during battle. Designated the M9, and originally nicknamed ‘the stovepipe’, the device acquired its better-known name during an early test, when a major asked what the device was. When told, he laughed: ‘It looks more like Bob Burns’ Bazooka!’ Burns had been a popular vaudeville performer in the 1930s, and featured a tubular brass instrument in his act which he called the ‘bazooka’. The name stuck.

During the early years of World War II the weapon was used by American troops and bazookas were also supplied to Soviet forces. In 1942 some were captured by the Germans from Russian soldiers and later from Americans in North Africa and the secret was out. One survey failed to find any soldier – after many bazookas had been fired – who had reported the destruction of a single enemy tank, and so the weapon was withdrawn. The bazooka was improved and reintroduced later in the war, but continued to pose problems of its own. The smoke trail led the enemy to the exact position of the person who had launched the missile, and the soldiers were always in mortal danger when they rose to launch the weapon. The rockets proved to be unreliable, and in the later years of the war the new German tanks had thicker steel plating that was impervious to bazooka attack.

In the end they seemed to be best employed against enemy positions, rather than as anti-tank weapons, and General Dwight Eisenhower was to describe the bazooka as ‘one of the four Tools of Victory’ (along with the jeep, the Dakota and the atomic bomb). The design was subsequently improved further and bazookas went on to be used in Korea and Vietnam. Their precise value in World War II remains uncertain, though the bazooka was certainly a powerful device in the hands of a soldier and did much to reassure American infantrymen faced with battling German tanks and stubborn defenders.

TERROR FROM THE SKY

In their early years at Peenemünde, the German rocket researchers had no difficulty in attracting the funds they needed. Money was printed in large amounts and military expenditure for the Army now seemed to have no limits.

Von Braun was in his element at Peenemünde, and the design of the great A-4 rocket proceeded apace. It was to be based on the successful design of the A-5, with a redesigned control system and updated construction. The A-5 had reached an altitude of 35,000ft (10,000m) in tests during 1938, and the A-4 was designed with the benefit of the results of these pioneering tests. But things changed when Hitler began to anticipate an early end to hostilities, with Germany reigning supreme across Western Europe, and as a result research at Peenemünde was reduced. In a scaled-down programme of research, the engineers contented themselves by designing improved servo-control systems and new, high-throughput fuel pumps were systematically developed. Rocket development had essentially been put on hold.

Within two years the tide was turning, and the need for rocket research began to re-emerge. Work on the A-4 picked up again and on 13 June 1942 the first of the new monster rockets was ready for test firing. The rocket was checked and re-checked. Meticulous records were maintained of every aspect of its functioning. It stood 46ft 1.5in (14.05m) tall, weighed 12 tons, and was fuelled with methyl alcohol (methanol). The oxidant, liquid oxygen, was pumped in just prior to launch. The pumps were run up to speed, ignition achieved and the rocket rose unsteadily from its launch pad. In a billowing cloud of smoke and steam it began to climb, rapidly gaining speed, and then – at just the wrong moment – the propellant pump motor failed. The rocket staggered for a moment and crashed back onto the launch pad, disintegrating in a huge explosion. The technicians were terrified and were lucky to escape.

On 16 August 1942 a second A-4 was tested. Once again, the fuel motor pump stopped working but this time it failed later in the flight, after the rocket had already passed through the sound barrier. The third test was a complete success. It took place on 3 October 1942 and this rocket was fired out along the coast of Pomerania. The engine burned for over a minute, boosting the rocket to a maximum altitude of 50 miles (80km). It fell to earth 119.3 miles (192km) from the launch pad. The age of the space rocket had arrived, and the ballistic missile was a reality. The design of the A-4 rocket could now be fine tuned and – given time – the complex design could be optimized for mass production. The Nazis now had their new
Vergeltungswaffe
(‘retaliatory’ or ‘reprisal’ weapon). The term was important; although Hitler saw these as weapons of mass destruction, he hoped that the world – instead of seeing him as the aggressor – would regard him as simply responding to Allied attacks. The ‘V’ is sometimes translated into English as ‘vengeance’, but that is not right as the term in German connotes reprisal. The first of such weapons was their V-1 cruise missile, the ‘buzz-bomb’ and now they had the V-2. It would surely strike terror into the hearts of those who challenged German supremacy.

Aspects of the design were refined and developed by teams in companies including Zeppelin Luftschiffbau and Heinkel, and the final production version of the V-2 was a brilliantly successful rocket. Over 5,000 would be produced by the Germans. The production model stood 46ft (14m) tall, was 5ft 5in (1.65m) in diameter, and weighed over 5 tons of which 70 per cent was fuel. The tanks held 8,300lb (3,760kg) of fuel and just over 11,000lb (5,000kg) of liquid oxygen at take-off. The combustion chamber consumed 275lb (125kg) per second, emitting exhaust gases at a velocity of 6,950ft/s (2,200m/s). The missile was steered by vanes in the exhaust and could land with an accuracy better than 4 per cent, or so claimed the designers. No metal could withstand the intense heat, so these internal fins were constructed from carbon. They ablated in the heat, but could not burn away rapidly due to the lack of free oxygen and lasted long enough for the entire rocket burn. For the time, the V-2 was – and it remains – an extraordinary achievement made in record time.

Dörnberger tried to take full advantage of the success. Ever since the United States had declared war on Germany on 8 December 1941, the balance of power had begun to tip against the Nazis and Dörnberger knew the time was ripe for official endorsement of his teams’ progress. Hitler had been to see static tests of rocket motors at Kummersdorf but he had not been greatly impressed by the noise, fire and smoke. These were so exciting to the rocket enthusiasts – it was what rocketry was all about – but Hitler could not imagine how these ‘boys’ toys’ could transmute into agencies of world domination and he was reluctant to give the rocket teams the high priority they sought.

Dörnberger was frustrated by the bureaucracy and the lack of exciting new developments. Some of the pressure had been temporarily relieved from Dörnberger on 8 February 1942 when news reached him that the Minister for Armaments and Munitions, Fritz Todt, had died at the age of 50. Todt was aboard a Junkers Ju-52 aircraft on a routine tour when it crashed and exploded shortly after take-off. Albert Speer was supposed to have been on the same flight, but cancelled at the last minute. Speer was immediately appointed by Hitler to take Todt’s place, and he was far more interested in what Dörnberger had to say. Speer was a professional architect and had joined the Nazi party in 1931. He had soon become a member of Hitler’s inner circle and had gained the Führer’s trust after his appointment as chief architect. Speer clearly felt that Hitler could be reconciled to the idea of the V-2 as progress continued.

As luck would have it, the new committee was put under the charge of General Gerd Degenkolb, who disliked Dörnberger intensely. Von Braun said at the time: ‘This committee is a thorn in our flesh.’ One can see why. Degenkolb exemplified that other German trait, a talent for bureaucracy and administrative complexity. He had been in a group including Karl-Otto Saur and Fritz Todt, who espoused Hitler’s policy of being ‘not yet convinced’ by the rocket as a major agent in military success. Degenkolb immediately began to establish a separate bureaucratic structure to work alongside Dörnberger’s. Details of the design of the V-2 rocket were reconsidered in detail by Degenkolb’s new committee, and some of their untried new recommendations were authorized without Dörnberger’s knowledge or approval.

Progress remained problematic even following the successful launches. The Director of Production Planning, Detmar Stahlknecht, had set targets for V-2 production which were agreed with Dörnberger – but which were then unilaterally modified by Degenkolb. Stahlknecht had planned to produce 300 of the V-2 rockets per month by January 1944 – but in January 1943 Degenkolb decreed that this total be brought forward to October 1943. Stahlknecht was aiming for a monthly production target of 600 by July 1944; Degenkolb insisted the figure be raised to 900 per month, and the date brought forward to December 1943. The success of the rocket was encouraging the policy makers to raise their game, and their new targets seemed simply unattainable.

The Capitalist dream

At this point, Dörnberger was presented with a startling new prospect. He learned of a bizarre idea to capitalize on the sudden enthusiasm for the new rockets. He was told that it was being proposed to designate Peenemünde as a ‘land’ in its own right. It would be jointly purchased by major German companies like AEG and Siemens who would pay more than 1,000,000 Reichsmarks for the property and then charge the Nazi government for each missile produced. AEG, in particular, were highly impressed by the telemetry developed for the V-2 rocket and recognized that it had far-reaching implications and considerable market potential.

The guidance systems were remarkably advanced. They had been developed by Helmut Gröttrup, working alongside Von Braun, though there was little friendship between the two. Dörnberger fought to have Peenemünde maintained as an army proving ground and production facility, and won the battle only after bitter negotiations. This had been a narrow victory for Dörnberger, and was one that he would have been unlikely to win without the support of Speer.

Three sites were immediately confirmed for the production of the new rockets: Peenemünde, Friedrichshafen and the Raxwerken at Wiener Neustadt. Degenkolb issued orders at once, but he failed to see that the senior staff were not available in sufficient numbers to train and organize production on such a rapidly expanding scale. Degenkolb refused to be challenged and insisted that production begin immediately – and, when the engineers explained the impossibility of the task at such short notice, Degenkolb issued orders that they be imprisoned if his schedule was not met. Clearly, he meant business.

Although Degenkolb saw Von Braun as a personal rival, and someone he disliked, he recognized that his participation was crucial to the success of the rocket development. Others knew this too. At one stage, Von Braun had even been arrested by the authorities under the suspicion that his covert purpose was not the bombardment of foreign cities for the benefit of the Fatherland, but that he was secretly planning to develop rockets for space exploration at government expense. At first, Von Braun’s protests came to nothing and a lengthy bureaucratic enquiry seemed inevitable, until Dörnberger intervened to say that, without Von Braun, there could be no further progress. At this, Von Braun was released and sent back to his work. Dörnberger reported his frustrations with a lack of progress towards full production. Speer understood that the heavy-handed administrative interference of Degenkolb had introduced an unnecessary hold-up (reckoned by Dörnberger to be a delay of 18 months) and promised to remove him if it would help.

In the event, Degenkolb survived because of the influence of Fritz Todt’s long-standing friend, Karl-Otto Saur. Saur himself had a remarkable instinct for survival and, after the war, he was used as a key witness for the prosecution on behalf of the American authorities and was subsequently released. The fact that Karl-Otto Saur was designated by Hitler to replace Speer as Minister for Armaments was not a sufficient crime for him to be tried as a war criminal, and he eventually set up a publishing house back in Germany named Saur Verlag. The company survives to this day publishing reference information for librarians – a curious legacy from World War II.

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