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Friday, June 1, 2018

Sergei Korolev

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Sergei Korolev
SKorolow.jpg
Born Sergey Pavlovich Korolev
Сергей Павлович Королёв

12 January [O.S. 30 December 1906] 1907
Zhytomyr, Russian Empire
Died 14 January 1966 (aged 59)
Kremlin, Moscow, Russian SFSR, Soviet Union
Cause of death Abdominal cancer
Occupation Rocket engineer, Chief Designer of the Soviet space program
Spouse(s) Ksenia Vincentini
Nina Ivanovna Kotenkova[1]
Children Natalya
Military career
Allegiance  Soviet Union
Service/branch Red Army flag.svg Red Army
Years of service 1945–52
Rank RAF A F5Col 2010.png Polkovnik (colonel)
Signature Sergei Korolyov Signature.svg

Sergei Pavlovich Korolev (Russian: Серге́й Па́влович Королёв, IPA: [sʲɪrˈgʲej ˈpavɫəvʲɪtɕ kərɐˈlʲɵf] (About this sound listen),[2], also transliterated as Sergey Pavlovich Korolyov; 12 January [O.S. 30 December 1906] 1907 – 14 January 1966) worked as the lead Soviet rocket engineer and spacecraft designer during the Space Race between the United States and the Soviet Union in the 1950s and 1960s. He is regarded by many as the father of practical astronautics.[3][4] He was involved in the development of the R-7 Rocket, Sputnik 1, and launching Laika and the first human being into space.[5]

Although Korolev trained as an aircraft designer, his greatest strengths proved to be in design integration, organization and strategic planning. Arrested on a false official charge as a "member of an anti-Soviet counter-revolutionary organization" (which would later be reduced to "saboteur of military technology")[6], he was imprisoned in 1938 for almost six years, including some months in a Kolyma labour camp. Following his release he became a recognized rocket designer and a key figure in the development of the Soviet Intercontinental ballistic missile program. He later directed the Soviet space program and was made a Member of Soviet Academy of Sciences, overseeing the early successes of the Sputnik and Vostok projects including the first human Earth orbit mission by Yuri Alexeyvich Gagarin on 12 April 1961. Korolev's unexpected death in 1966 interrupted implementation of his plans for a Soviet manned Moon landing before the United States 1969 mission.

Before his death he was officially identified only as Glavny Konstruktor (Главный Конструктор), or the Chief Designer, to protect him from possible cold war assassination attempts by the United States.[7] Even some of the cosmonauts who worked with him were unaware of his last name; he only went by Chief Designer.[5] Only following his death in 1966 was his identity revealed and he received the appropriate public recognition as the driving force behind Soviet accomplishments in space exploration during and following the International Geophysical Year.

Early life


Sergei Korolev as a boy in 1912.

Korolev was born in Zhytomyr, Russian Empire. His father, Pavel Yakovlevich Korolev, was born in Mogilev to a clerk of the Imperial Russian Army and a peasant mother.[8][9] His mother, Maria Nikolaevna Koroleva (Moskalenko/Bulanina), was a daughter of a wealthy merchant in the city of Nezhin with Cossack heritage.[9][10] On his maternal side, in addition to Cossacks, he also had Greek and Polish ancestry.[11]

His father moved to Zhytomyr to be a teacher of the Russian language.[12] Three years after his birth the couple separated due to financial difficulties. Although Pavel later wrote to Maria requesting a meeting with his son, Sergei was informed by his mother that his father had died. Sergei never saw his father after the family break-up, and Pavel died in 1929 before his son learned the truth.

Korolev grew up in Nezhin, under the care of his maternal grandparents Mykola Yakovych Moskalenko who was a trader of the Second Guild and Maria Matviivna Moskalenko (Fursa), a daughter of a local cossack. Korolev's mother also had a sister Anna and two brothers Yuri and Vasily. Maria Koroleva was frequently away attending Women's higher education courses in Kiev. As a child, Korolev was stubborn, persistent, and argumentative. Sergei grew up a lonely child with few friends. Korolev began reading at an early age, and his abilities in mathematics and other subjects made him a favorite student of his teachers, but caused jealousy from his peers. He later stated in an interview, the torment of classmates bullying and teasing him as a small child encouraged his focus on academic work.[13] His mother divorced Pavel in 1915 and in 1916 married Grigory Mikhailovich Balanin, an electrical engineer educated in Germany but attending the Kiev Polytechnic University because German engineering diplomas were unrecognized in Russia. After getting a job with the regional railway, Grigory moved the family to Odessa in 1917, where they endured hardships with many other families through the tumultuous years following the Russian Revolution and continuing internecine struggles until the Bolsheviks assumed unchallenged power in 1920. Local schools were closed and young Korolev had to continue his studies at home. Grigory proved a good influence on his step-son, who suffered from a bout of typhus during the severe food shortages of 1919.

Education


Sergei Korolev in the 1920s.

Korolev received vocational training in carpentry and in various academics at the Odessa Building Trades School (Stroyprofshkola No. 1). Enjoyment of a 1913 air show inspired interest in aeronautical engineering. Korolev began designing a glider as a diversion while studying for his graduation exams at the vocational school. He made an independent study of flight theory, and worked in the local glider club. A detachment of military seaplanes had been stationed in Odessa, and Korolev took a keen interest in their operations.

In 1923 he joined the Society of Aviation and Aerial Navigation of Ukraine and the Crimea (OAVUK). He had his first flying lesson after joining the Odessa hydroplane squadron and had many opportunities to fly as a passenger. In 1924 he personally designed an OAVUK construction project glider called the K-5. He briefly trained in gymnastics until his academic work suffered from this distraction. Korolev hoped to attend the Zhukovsky Academy in Moscow, but his qualifications did not meet the academy's standards.[13] He attended the Kiev Polytechnic Institute's aviation branch in 1924 while living with his uncle Yuri, and earning money to pay for his courses by performing odd jobs. His curriculum was technically oriented, and included various engineering, physics and mathematics classes. He met and became attracted to a classmate, Xenia Vincentini, who would later become his first wife.[13] In 1925 he was accepted into a limited class on glider construction, and suffered two broken ribs flying the training glider they built. He continued courses at Kiev until he was accepted into the Bauman Moscow State Technical University (MVTU, BMSTU) in July 1926.

Korolev studied specialized aviation topics until 1929, while living with his family in the typically crowded conditions of Moscow. Korolev enjoyed opportunities to fly gliders and powered aircraft during this part of his education. He designed a glider in 1928, and flew it in a competition the next year. The Communist Party accelerated the education of engineers in 1929 to meet the country's urgent need for their skills. Korolev obtained a diploma by producing a practical aircraft design by the end of the year. His advisor was the famous Andrei Tupolev.

Early career


Korolev sitting in the cockpit of glider "Koktebel."

Sergey Korolyov in comdiv uniform (1933).

After graduation, Korolev worked with some of the best Soviet designers at the 4th Experimental Section aircraft design bureau OPO-4 headed by Paul Aimé Richard[fr] who emigrated to the USSR from France in the 1920s.[14] He did not stand out in this group, but while so employed he also worked independently to design a glider capable of performing aerobatics. In 1930 he became interested in the possibilities of liquid-fueled rocket engines to propel airplanes while working as a lead engineer on the Tupolev TB-3 heavy bomber. Korolev earned his pilot's license in 1930 and explored the operational limits of the aircraft he piloted, wondering what was beyond his plane's altitude limit and how he could get there. Many believe this was the start of his interest in space.[13]

Korolev married Xenia Vincentini on 6 August 1931. He had first proposed marriage to her in 1924, but she then declined so she might continue her higher education. In 1931, Korolev and space travel enthusiast Friedrich Zander participated in the creation of the Group for the Study of Reactive Motion (GIRD), one of the earliest state-sponsored centers for rocket development in the USSR. In May 1932 Korolev was appointed chief of the group; and military interest encouraged funding of group projects. GIRD developed three different propulsion systems, each more successful than the last. Their first launch of a liquid-fueled rocket was GIRD-X in 1933. (Although this is often cited as the GIRD-09, the hybrid GIRD-09 used solid gasoline and liquid oxygen.[15]) This was just seventeen years after Colonel Ivan Platonovich Grave's first launch in 1916 (patent in 1924).

Growing military interest in this new technology caused GIRD to be merged with the Gas Dynamics Laboratory (GDL) at Leningrad in 1933 to create the Jet Propulsion Research Institute (RNII), headed up by the military engineer Ivan Kleimenov and containing a number of enthusiastic proponents of space travel, including Valentin Glushko. Korolev became the Deputy Chief of the institute, where he supervised development of cruise missiles and a manned rocket-powered glider. "Rocket Flight in Stratosphere" was published by Korolev in 1934.

On 10 April 1935, Korolev's wife gave birth to their daughter, Natalya; and they moved out of Sergei's parents' home and into their own apartment in 1936. Both Korolev and his wife had careers, and Sergei always spent long hours at his design office. By now he was chief engineer at RNII. The RNII team continued their development work on rocketry, with particular focus on the area of stability and control. They developed automated gyroscope stabilization systems that allowed stable flight along a programmed trajectory. Korolev was a charismatic leader who served primarily as an engineering project manager. He was a demanding, hard-working man, with a disciplinary style of management. Korolev personally monitored all key stages of the programs and paid meticulous attention to detail.

Imprisonment


Sergei Korolev shortly after his arrest, 1938

Sergei Korolev, 1940

Korolev was arrested by the NKVD on 22 June 1938 after being accused of deliberately slowing the work of the research institute by Ivan Kleymenov, Georgy Langemak, leaders of the institute, executed in January, and Valentin Glushko, who was arrested in March.[16] He was tortured in the Lubyanka prison to extract a confession during the Great Purge, and was tried and sentenced to death as the purge was waning.[17] Kleymenov and Langemak were executed,[18] but Glushko and Korolev survived. Glushko and Korolev had reportedly been denounced by Andrei Kostikov, who became the head of RNII after its leadership was arrested. The rocket program was set back for years and fell far behind the rapid progress taking place in Nazi Germany. Kostikov was ousted a few years later over accusations of budget irregularities.[citation needed]

Korolev was sent to prison, where he wrote many appeals to the authorities, including Stalin himself. Following the fall of NKVD head Nikolai Yezhov, the new chief Lavrenti Beria chose to retry Korolev on reduced charges in 1939; but by that time Korolev was on his way from prison to a gulag camp in the far east of Siberia, where he spent several months in a gold mine in the Kolyma area before word reached him of his retrial. Work camp conditions of inadequate food, shelter, and clothing killed thousands of prisoners each month.[13] Korolev sustained injuries and lost most of his teeth from scurvy before being returned to Moscow in late 1939.[17] When he reached Moscow, Korolev's sentence was reduced to eight years[19] to be served in a sharashka penitentiary for intellectuals and the educated. These were effectively slave-labor camps where scientists and engineers worked on projects assigned by the Communist party leadership. The Central Design Bureau 29 (CKB-29, ЦКБ-29) of the NKVD, served as Tupolev's engineering facility, and Korolev was brought here to work for his old mentor. During World War II, this sharashka designed both the Tupolev Tu-2 bomber and the Petlyakov Pe-2 dive bomber. The group was moved several times during the war, the first time to avoid capture by advancing German forces. Korolev was moved in 1942 to the sharashka of Kazan OKB-16 under Glushko. Korolev and Glushko designed rocket-assisted take off boosters for aircraft and the RD-1 kHz[20] auxiliary rocket motor tested in an unsuccessful fast-climb Lavochkin La-7R. Korolev was isolated from his family until 27 June 1944 when he – along with Tupolev, Glushko and others – was finally discharged by special government decree, although the charges against him were not dropped until 1957.[21]

Korolev rarely talked about his experience in the gulag. He lived under constant fear of being executed for the military secrets he possessed, and was deeply affected by his time in the camp, becoming reserved and cautious. He later learned Glushko was one of his accusers and this may have been the cause of the lifelong animosity between the two men. The design bureau was handed over from NKVD control to the government's aviation industry commission. Korolev continued working with the bureau for another year, serving as deputy designer under Glushko and studying various rocket designs.

Ballistic missiles

Korolev was commissioned into the Red Army with the rank of colonel in 1945; his first decoration was the Badge of Honor, awarded in 1945 for his work on the development of rocket motors for military aircraft. He was among the experts flown to Germany to recover the technology of the German V-2 rocket. The Soviets placed a priority on reproducing lost documentation on the V-2, and studying the various parts and captured manufacturing facilities. That work continued in East Germany until late 1946, when 2,000+ German scientists and engineers were sent to Russia through Operation Osoaviakhim. Most of the German experts, Helmut Gröttrup being an exception, were engineers and technicians involved in wartime mass-production of V-2, and they had not worked directly with Wernher von Braun. Many of the leading German rocket scientists, including Dr. von Braun himself, surrendered to Americans and were transported to the United States as part of Operation Paperclip.

Stalin made rocket and missile development a national priority, and a new NII-88 institute was created for that purpose in the suburbs of Moscow. Korolev's team oversaw 170+ German specialists - including Helmut Gröttrup and Fritz Karl Preikschat - in Branch 1 of NII-88 on Gorodomlya Island in Lake Seliger some 200 kilometres (120 mi) from Moscow. Their facility was surrounded by barbed wire and armed guards with watch-dogs, although Boris Chertok, chief designer of guidance and control systems, notes in his book Rockets and People,
All structures on Gorodomlya island were renovated and living conditions were quite decent for those times. At least married specialists received separate two- or three-room apartments. Visiting the island, I could only envy them, because I and my family lived in Moscow in a shared four-room apartment, where we had two rooms of 24 square metres (260 sq ft) combined. Many of our specialists and workers lived in barracks without most elementary necessities. [...] This is why life on the island behind barbed wire could not compare at all to prisoner of war conditions.[22]

"Chief Designer" Korolev (left) with "father of the Soviet atomic bomb" Igor Kurchatov (centre) and "Chief Theoretician" Mstislav Keldysh (right), 1956

Development of ballistic missiles was put under the military control of Dmitriy Ustinov, with Korolev serving as a chief designer of long-range missiles at the Special Design Bureau 1 (OKB-1) of NII-88. Korolev demonstrated his organizational abilities in this new facility by keeping a dysfunctional and highly compartmentalized organization operating.[23]

With blueprints produced from disassembled V-2 rockets, the team began producing a working replica of the rocket. This was designated the R-1, and was first tested in October 1947. A total of eleven were launched with five hitting the target. This was similar to the German hit ratio, and demonstrated the unreliability of the V-2. In 1947, Korolev's group began working on more advanced designs, with improvements in range and throw weight. The R-2 doubled the range of the V-2, and was the first design to utilize a separate warhead. This was followed by the R-3, which had a range of 3,000 kilometres (1,900 mi), and thus could target England. The Soviets continued to utilize the expertise of the Germans on V-2 technology for some time; but, to preserve secrecy surrounding the ballistic missile program, Gröttrup and his team had no access to classified work of their Russian colleagues on new rocket technology including production and testing facilities. This negatively affected the morale of the German team and limited their technical contributions. The Ministry of Defence decided to dissolve the German team in 1950 and repatriated the German engineers and their families between December 1951 and November 1953.[22]

Glushko couldn't obtain the required thrust from the R-3 engines, so the project was canceled in 1952; and Korolev joined the Soviet Communist Party that year to request money from the government for future projects including the R-5, with a more modest 1,200 kilometres (750 mi) range. It completed a first successful flight by 1953. The world's first true intercontinental ballistic missile (ICBM) was the R-7 Semyorka. This was a two-stage rocket with a maximum payload of 5.4 tons, sufficient to carry the Soviets' bulky nuclear bomb an impressive distance of 7,000 kilometres (4,300 mi). After several test failures, the R-7 successfully launched on August 1957, sending a dummy payload to the Kamchatka Peninsula. On 19 April 1957 Korolev was declared fully "rehabilitated", as the government acknowledged that his sentence was unjust.

Space program

Korolev was keenly aware of the orbital possibilities of the rockets being designed as ICBMs. He conceptualized using the R-7 to launch Sputnik as early as 1953, and suggested to the Academy of Sciences of the USSR the concept for sending a dog into space. The Communist Party was uninterested until the United States press began discussing a possible satellite launch for the International Geophysical year. While the US government debated the idea of spending millions of dollars on this concept, Korolev's group suggested the international prestige of launching a satellite before the United States could act. The spirit of cold war competition was adequate to secure approval for the project.

After his release from prison, Korolev began by building a replica of the German A4 rocket that Stalin requested. Following the replication of the A4, he went on to develop the R-7 booster, which had five clustered engines each with four thrust chambers.[5] It was the first rocket to pioneer the booster rocket concept. In 1957, a warhead was launched into space using the R-7 Rocket, which reached Kamchatka. In doing so, he developed the first intercontinental ballistic missile (ICBM). Following this, Sputnik 1 was launched on 4 October 1957 using the R-7 booster to propel it into space.[5]

The satellite was designed and constructed in less than a month. Sputnik 1 was a simple polished metal sphere no bigger than a beach ball, containing batteries powering a transmitter using 4 external communication antennas. Korolev personally managed the assembly at a hectic pace; and the satellite was placed in orbit using a rocket that had successfully launched only once before. International response to the accomplishment was electrifying, and political ramifications continued for decades. Nikita Khrushchev was pleased with this success, and encouraged launch of a more sophisticated satellite less than a month later in time for the 40th anniversary of the October Revolution on 3 November.

This new Sputnik 2 spacecraft had six times the mass of the Sputnik 1, and carried the dog Laika as a payload. The entire vehicle was designed from scratch within four weeks, with no time for testing or quality checks. It was successfully launched on 3 November and Laika was placed in orbit. There was no mechanism to bring the dog back to Earth, which died from heat exhaustion after five hours in space.[24]

The instrument-laden Sputnik 3 spacecraft was sent into orbit on 15 May 1958. The tape recorder that was to store the data failed after launch. As a result, the discovery and mapping of the Van Allen radiation belts was left to the United States' Explorer 3 and Pioneer 3 satellites. Sputnik 3 left little doubt with the American government about the Soviets' pending ICBM capability.

The Moon

Korolev then turned his attention to reaching the Moon. A modified version of the R-7 launch vehicle was used with a new upper stage. The engine for this final stage was the first designed to be fired in outer space. The first three lunar probes launched in 1958 all failed in part because of political pressure forcing the launches to be rushed with an inadequate budget to test and develop the hardware properly before they were ready to fly. Korolev thought political infighting in Moscow was responsible for the lack of sufficient funding for the program, although the US space program at this early phase also had a scarcely enviable launch record. Once, when pressured to beat the US to a working lunar probe, Korolev allegedly exclaimed "Do you think that only American rockets explode!?"[13] The Luna 1 mission in 1959 was intended to impact the surface, but missed by about 6,000 kilometres (3,700 mi). Nevertheless, this probe became the first to reach escape velocity and the first to go near the Moon. A subsequent attempt (Luna E-1A No.1) failed at launch, and then Luna 2 successfully impacted the surface on 14 September 1959, giving the Soviets another first. This was followed just one month later by an even greater success with Luna 3. It was launched only two years after Sputnik 1, and on 7 October 1959 was the first spacecraft to photograph the far side of the Moon.

Korolev's group was also working on ambitious programs for missions to Mars and Venus, putting a man in orbit, launching communication, spy and weather satellites, and making a soft-landing on the Moon. A radio communication center needed to be built in the Crimea, near Simferopol and near Evpatoria to control the spacecraft. Many of these projects were not realized in his lifetime, and none of the planetary probes performed a completely successful mission until after his death.

Human spaceflight

Korolev's planning for the piloted mission began in 1958 with design studies for the future Vostok spacecraft. It was to hold a single passenger in a space suit, and be fully automated. The capsule had an escape mechanism for problems prior to launch, and a soft-landing and ejection system during the recovery.

On 15 May 1960 an unmanned prototype performed 64 orbits of the Earth, but the reentry maneuver failed. Four tests were then sent into orbit carrying dogs, and the last two were fully successful. After gaining approval from the government, a modified version of the R-7 was used to launch Yuri Alexeevich Gagarin into orbit on 12 April 1961. The first human in space and Earth orbit returned to Earth via a parachute after ejecting at an altitude of 7 kilometres (23,000 ft). Gagarin was followed by additional Vostok flights, culminating with 81 orbits completed by Vostok 5 and the launch of Valentina Tereshkova as the first woman cosmonaut in space aboard Vostok 6.

Korolev proposed communications satellites and a modified Vostok useful for photographic reconnaissance to quiet Soviet military objections about the cost of planetary and manned programs of no perceived value for national defense. Korolev planned to move forward with Soyuz craft able to dock with other craft in orbit and exchange crews. He was directed by Khrushchev to cheaply produce more 'firsts' for the piloted program, including a multi-manned flight. Korolev was reported to have resisted the idea as the Vostok was a one-man spacecraft and the three-man Soyuz was several years away from being able to fly. Khrushchev was not interested in technical excuses and let it be known that if Korolev could not do it, he would give the work to his rival, Vladimir Chelomei.

Cosmonaut Alexey Leonov describes the authority Korolev commanded at this time.[7]
Long before we met him, one man dominated much of our conversation in the early days of our training; Sergei Pavlovich Korolev, the mastermind behind the Soviet space program. He was only ever referred to by the initials of his first two names, SP, or by the mysterious title of "Chief Designer", or simply "Chief". For those on the space program there was no authority higher. Korolev had the reputation of being a man of the highest integrity, but also of being extremely demanding. Everyone around him was on tenterhooks, afraid of making a wrong move and invoking his wrath. He was treated like a god.
Leonov recalls the first meeting between Korolev and the cosmonauts.[25]
I was looking out of the window when he arrived, stepping out of a black Zis 110 limousine. He was taller than average; I could not see his face, but he had a short neck and large head. He wore the collar of his dark-blue overcoat turned up and the brim of his hat pulled down.
"Sit down, my little eagles," he said as he strode into the room where we were waiting. He glanced down a list of our names and called on us in alphabetical order to introduce ourselves briefly and talk about our flying careers.
The Voskhod was designed as an incremental improvement on the Vostok to meet Khruschev's goal. One of the difficulties in the design of the Voskhod was the need to land it via parachute. The three-person crew could not bail out and land by parachute, since the altitude would not be survivable. So the craft would need much larger parachutes in order to land safely. Early tests with the craft resulted in some failures causing the death of test animals until use of stronger fabric improved parachute reliability.

The resulting Voskhod was a stripped-down vehicle from which any excess weight had been removed; although a backup retrofire engine was added, since the more powerful Voskhod rocket used to launch the craft would send it to a higher orbit than the Vostok, eliminating the possibility of a natural decay of the orbit and reentry in case of primary retrorocket failure. After one unmanned test flight, this spacecraft carried a crew of three cosmonauts, Komarov, Yegorov and Feoktistov, into space on 12 October 1964 and completed sixteen orbits. This craft was designed to perform a soft landing, eliminating a need for the ejection system; but the crew was sent into orbit without space suits or a launch abort system.

With the Americans planning a space walk with their Gemini program, the Soviets decided to trump them again by performing a space walk on the second Voskhod launch. After rapidly adding an airlock, the Voskhod 2 was launched on 18 March 1965, and Alexei Leonov performed the world's first space walk. The flight very nearly ended in disaster, as Leonov was just barely able to re-enter through the airlock, and plans for further Voskhod missions were shelved. In the meantime the change of Soviet leadership with the fall of Khrushchev meant that Korolev was back in favor and given charge of beating the US to landing a man on the Moon.

For the Moon race, Korolev's staff started to design the immense N1 rocket in 1961,[26] using the unreliable NK-15 liquid fuel rocket engine.[27] He also was working on the design for the Soyuz spacecraft that was intended to carry crews to LEO and to the Moon. As well, Korolev was designing the Luna series of vehicles that would soft-land on the Moon and make robotic missions to Mars and Venus. Unexpectedly, he died in January 1966, before he could see his various plans brought to fruition.

Criticism

Engineer Sergei Khrushchev, son of former Soviet Premier Nikita Khrushchev, explained in an interview some shortcomings of Korolev's approach, which in his opinion is why the Soviets didn’t land on the moon:
The Russian people had many problems in day-to-day life, they were not too concerned about the first man on the moon.
Was Russia pretty close?
The Russians were not pretty close. I think Russia had no chance to be ahead of the Americans under Sergei Korolev and his successor, Vasili Mishin. Korolev was not a scientist, not a designer: he was a brilliant manager. Korolev's problem was his mentality. His intent was to somehow use the launcher he had [the N1 (rocket)]. It was designed in 1958 for a different purpose and with a limited payload of about 70 tons. His philosophy was, let’s not work by stages [as is usual in spacecraft design], but let’s assemble everything and then try it. And at last it will work. There were several attempts and failures with Lunnik [a series of unmanned Soviet moon probes]. Sending man to the moon is too complicated, too complex for such an approach. I think it was doomed from the very beginning.[28]

Death


Korolev's tomb (left) in the Kremlin Wall Necropolis

On 3 December 1960, Korolev suffered his first heart attack. During his convalescence, it was also discovered that he was suffering from a kidney disorder, a condition brought on by his detention in the Soviet prison camps. He was warned by the doctors that if he continued to work as intensely as he had, he would not live long. Korolev became convinced that Khrushchev was only interested in the space program for its propaganda value and feared that he would cancel it entirely if the Soviets started losing their leadership to the United States, so he continued to push himself even harder.

By 1962 Sergei Korolev's health problems were beginning to accumulate and he was suffering from numerous ailments. He had a bout of intestinal bleeding that led to him being taken to the hospital in an ambulance. In 1964 doctors diagnosed him with cardiac arrhythmia. In February he spent ten days in the hospital after a heart problem. Shortly after he was suffering from inflammation of his gallbladder. The mounting pressure of his workload was also taking a heavy toll, and he was suffering from a lot of fatigue. Korolev was also experiencing hearing loss, possibly from repeated exposure to loud rocket engine tests.

The actual circumstances of Korolev's death remain somewhat uncertain. In December 1965, he was supposedly diagnosed with a bleeding polyp in his large intestine. He entered the hospital on 5 January 1966 for somewhat routine surgery, but died nine days later. It was stated by the government that he had what turned out to be a large, cancerous tumor in his abdomen, but Glushko later reported that he actually died due to a poorly performed operation for hemorrhoids. Another version states that the operation was going well and no one was predicting any complications. Suddenly, during the operation, Korolev started to bleed. Doctors tried to provide intubation to allow him to breathe freely, but his jaws, injured during his time in a gulag, had not healed properly and impeded the installation of the breathing tube. Korolev died without regaining consciousness. According to Harford, Korolev's family confirmed the cancer story. His weak heart contributed to his death during surgery.[29]

Under a policy initiated by Stalin and continued by his successors, the identity of Korolev was not revealed until after his death. The purported reason was to protect him from foreign agents from the United States. As a result, the Soviet people didn't become aware of his accomplishments until after his death. His obituary was published in the Pravda newspaper on 16 January 1966, showing a photograph of Korolev with all his medals. Korolev's ashes were interred with state honors in the Kremlin Wall.

Korolev is often compared to Wernher von Braun as the leading architect of the Space Race. Like von Braun, Korolev had to compete continually with rivals, such as Vladimir Chelomei, who had their own plans for flights to the Moon. Unlike the Americans, he also had to work with technology that in many aspects was less advanced than what was available in the United States, particularly in electronics and computers, and to cope with extreme political pressure.

Korolev's successor in the Soviet space program was Vasily Mishin, a quite competent engineer who had served as his deputy and right-hand man. After Korolev died, Mishin became the Chief Designer, and he inherited what turned out to be a flawed N1 rocket program. In 1972, Mishin was fired and then replaced by a rival, Valentin Glushko, after all four N-1 test launches failed. By that time, the rival Americans had already made it to the Moon, and so the program was canceled by CPSU General Secretary Leonid Brezhnev.

Personal life

The Soviet émigré Leonid Vladimirov related the following description of Korolev by Glushko at about this time:
"Short of stature, heavily built, with head sitting awkwardly on his body, with brown eyes glistening with intelligence, he was a skeptic, a cynic and a pessimist who took the gloomiest view of the future. 'We are all going to be whacked and there will be no obituary' (Khlopnut bez nekrologa, Хлопнут без некролога – i.e. "we will all vanish without a trace") was his favorite expression."[30]
Korolev was rarely known to drink vodka or other alcoholic beverages, and chose to live a fairly austere lifestyle. He remained a handsome and solidly built man, and he was as fond of women as they were of him.

His career also contributed to instability in his personal life. About 1946, the marriage of Korolev and Vincentini began to break up. Vincentini was heavily occupied with her own career, and about this time Korolev had an affair with a younger woman named Nina Ivanovna Kotenkova, who was an English interpreter in the Podlipki office.[13] Vincentini, who still loved Korolev and was angry over the infidelity, divorced him in 1948. Korolev and Kotenkova were married in 1949, but he is known to have had affairs even after this second marriage.

As a leader, Korolev’s passion for his work in the long term was something that made him a great one. He was committed to training younger engineers to move into his space and missile projects, even with his own work being consuming. Korolev knew that students would be the future of space exploration, which is why he made such an effort to communicate with them.[13]

Awards and honours


Sergey Korolev on a 1969 Soviet stamp (10 kopeks)

Sergei Korolev (left) and Valentin Glushko on a 2007 Ukrainian stamp

Among his awards, Korolev was twice honored as Hero of Socialist Labour, in 1956 and 1961. He was also a Lenin Prize winner in 1971,[31] and was awarded the Order of Lenin three times, the Order of the Badge of Honour and the Medal "For Labour Valour".

In 1958 he was elected to the Academy of Sciences of the USSR. In 1969 and 1986, the USSR issued 10 kopek postage stamps honoring Korolev.[32] In addition he was made an Honorary Citizen of Korolyov and received the Medal "In Commemoration of the 800th Anniversary of Moscow".

Sergei Khrushchev claimed that the Nobel Prize committee attempted to award Korolev but the award was turned down by Khrushchev in order to maintain harmony within the Council of Chief Designers.[33]

Namesakes

A street in Moscow was named after Korolev in 1966 and is now called Ulitsa Akademika Korolyova (Academician Korolyov Street). The memorial home-museum of akademician S.P.Korolyov was established in 1975 in the house where Korolev lived from 1959 till 1966 (Moscow, 6th Ostankinsky Lane,2/28).[34] In 1976 he was inducted into the International Space Hall of Fame.[31]

The town of Kaliningrad (formerly Podlipki, Moscow region) is the home of RSC Energia, the largest space company in Russia. In 1996, Boris Yeltsin renamed the town to Korolyov. There is now an oversized statue of S.P. Korolev located in the town square. RSC Energia was also renamed to S.P. Korolev Rocket and Space Corporation Energia.

Astronomical features named after Korolev include the crater Korolev on the far side of the Moon, a crater on Mars, and the asteroid 1855 Korolyov.

Quite a large number of streets exist with his name in Russia as well as in Ukraine. In Zhytomyr on the other side of the street (vulytsia Dmytrivska) from the house where Sergei Korolev was born is the Korolev Memorial Astronautical Museum (Wikidata).

Portrayals in fiction

The first portrayal of Korolev in Soviet cinema was made in the 1972 film Taming of the Fire, in which Korolev was played by Kirill Lavrov.

He was played by Steve Nicolson in the 2005 BBC co-produced docudrama Space Race.

In 2011 the British writer Rona Munro produced the play Little Eagles on Korolev's life – its premiere was from 16 April to 7 May 2011, in an RSC production at the Hampstead Theatre,[35] with Korolev played by Darrel D'Silva and Yuri Gagarin by Dyfan Dwyfor.[36][37]

He was played by Mikhail Filippov in the 2013 Russian film "Gagarin: First in Space".

"Korolev" is the name and subject of a track by Public Service Broadcasting (band).

Korolev appeared briefly in a film-within-a-film in The Right Stuff during the administration of Dwight D. Eisenhower, inside one of the President's conference rooms.

Korolev opens the 2007 graphic novel Laika by Nick Abadzis.

Korolev plays a major role in the 2009 graphic novel T-Minus: The Race to The Moon by Zander Cannon, Jim Ottaviani and Kevin Cannon

The science fiction novel by Paolo Aresi titled Korolev was published in the Italian magazine series Urania in April 2011.

The story The Chief Designer by Andy Duncan is a fictionalized account of Korolev's career.

The Russian 304 class ship in Stargate SG-1 was named after Korolev.

The character of Aleksandr Leonovitch Granin in video game Metal Gear Solid 3: Snake Eater is Inspired by Korolev.

In Star Trek VI: The Undiscovered Country, a United Federation of Planets Starfleet Constitution-class ship and a class of Starfleet ships are named after Korolev.

Wernher von Braun

From Wikipedia, the free encyclopedia
 
Wernher von Braun
Wernher von Braun 1960.jpg
Von Braun in 1960
Born Wernher Magnus Maximilian, Freiherr von Braun
March 23, 1912
Wirsitz (today Wyrzysk), Posen Province, Prussia, Germany (today Poland)
Died June 16, 1977 (aged 65)
Alexandria, Virginia, US
Citizenship Germany, United States (after 1955)
Alma mater Technical University of Berlin
Occupation Rocket engineer and designer, aerospace project manager
Spouse(s) Maria Luise von Quistorp (m. 1947–1977)
Children Three
Parent(s)
Awards
Military career
Allegiance  Nazi Germany
Service/branch Flag of the Schutzstaffel.svg SS
Years of service 1937–45
Rank SS-Sturmbannführer collar.svg SS-Sturmbannführer (major)
Awards
Other work Rocket engineer, NASA, Chief Architect of the Saturn V rocket of the Apollo manned lunar missions, engineering program manager

Wernher Magnus Maximilian Freiherr von Braun (March 23, 1912 – June 16, 1977) was a German (and, later, American) aerospace engineer[3] and space architect. He was the leading figure in the development of rocket technology in Germany and the father of rocket technology and space science in the United States.[4]

In his twenties and early thirties, von Braun worked in Nazi Germany's rocket development program. He helped design and develop the V-2 rocket at Peenemünde during World War II. Following the war, he was secretly moved to the United States, along with about 1,600 other German scientists, engineers, and technicians, as part of Operation Paperclip. He worked for the United States Army on an intermediate-range ballistic missile (IRBM) program and he developed the rockets that launched the United States' first space satellite Explorer 1. His group was assimilated into NASA, where he served as director of the newly formed Marshall Space Flight Center and as the chief architect of the Saturn V super heavy-lift launch vehicle that propelled the Apollo spacecraft to the Moon.[5][6] In 1975, von Braun received the National Medal of Science. He advocated for a human mission to Mars.

Early life

Wernher von Braun was born on March 23, 1912 in the small town of Wirsitz, in the Posen Province, in what was then the German Empire. He was the second of three sons. He belonged to a noble Lutheran family and from birth he held the title of Freiherr (equivalent to Baron). The German nobility's legal privileges were abolished in 1919, although noble titles could still be used as part of the family name.

His father, Magnus Freiherr von Braun (1878–1972), was a civil servant and conservative politician; he served as Minister of Agriculture in the federal government during the Weimar Republic. His mother, Emmy von Quistorp (1886–1959), traced her ancestry through both parents to medieval European royalty and was a descendant of Philip III of France, Valdemar I of Denmark, Robert III of Scotland, and Edward III of England.[7][8] Wernher had an older brother, the West German diplomat Sigismund von Braun, who served as Secretary of State in the Foreign Office in the 1970s, and a younger brother, also named Magnus von Braun, who was a rocket scientist and later a senior executive with Chrysler.[9]

After Wernher's confirmation, his mother gave him a telescope, and he developed a passion for astronomy. The family moved to Berlin in 1915, where his father worked at the Ministry of the Interior.[10] Here in 1924, the 12-year-old Wernher, inspired by speed records established by Max Valier and Fritz von Opel in rocket-propelled cars,[11] caused a major disruption in a crowded street by detonating a toy wagon to which he had attached fireworks. He was taken into custody by the local police until his father came to collect him.

Wernher was an accomplished amateur pianist who could play Beethoven and Bach from memory. He learned to play both the cello and the piano at an early age and at one time wanted to become a composer. He took lessons from the composer Paul Hindemith. The few pieces of Wernher's youthful compositions that exist are reminiscent of Hindemith's style.[12]:11

Beginning in 1925, Wernher attended a boarding school at Ettersburg Castle near Weimar, where he did not do well in physics and mathematics. There he acquired a copy of By Rocket into Planetary Space (Die Rakete zu den Planetenräumen, 1923)[13] by rocket pioneer Hermann Oberth. In 1928, his parents moved him to the Hermann-Lietz-Internat (also a residential school) on the East Frisian North Sea island of Spiekeroog. Space travel had always fascinated Wernher, and from then on he applied himself to physics and mathematics to pursue his interest in rocket engineering.

In 1930, von Braun attended the Technische Hochschule Berlin, where he joined the Spaceflight Society (Verein für Raumschiffahrt or "VfR") and assisted Willy Ley in his liquid-fueled rocket motor tests in conjunction with Hermann Oberth.[14] In spring 1932, he graduated from the Technische Hochschule Berlin (now Technical University of Berlin), with a diploma in mechanical engineering.[15] His early exposure to rocketry convinced him that the exploration of space would require far more than applications of the current engineering technology. Wanting to learn more about physics, chemistry, and astronomy, von Braun entered the Friedrich-Wilhelm University of Berlin for post-graduate studies and graduated with a doctorate in physics in 1934.[16] He also studied at ETH Zürich for a term from June to October 1931.[17] Although he worked mainly on military rockets in his later years there, space travel remained his primary interest.

In 1930, von Braun attended a presentation given by Auguste Piccard. After the talk the young student approached the famous pioneer of high-altitude balloon flight, and stated to him: "You know, I plan on traveling to the Moon at some time." Piccard is said to have responded with encouraging words.[18]

He was greatly influenced by Oberth, of whom he said:
Hermann Oberth was the first, who when thinking about the possibility of spaceships grabbed a slide-rule and presented mathematically analyzed concepts and designs ... I, myself, owe to him not only the guiding-star of my life, but also my first contact with the theoretical and practical aspects of rocketry and space travel. A place of honor should be reserved in the history of science and technology for his ground-breaking contributions in the field of astronautics.[19]

German career

According to historian Norman Davies, von Braun was only able to pursue a career as a rocket scientist in Germany due to a "curious oversight" in the Treaty of Versailles which did not include rocketry in its list of weapons forbidden to Germany.[20]

Involvement with the Nazi regime

Von Braun with Fritz Todt, who utilized forced labor for major works across occupied Europe

Party membership

Von Braun had an ambivalent and complex relationship with the Nazi regime of the Third Reich. He officially applied for membership in the Nazi Party on November 12, 1937, and was issued membership number 5,738,692.[21]:96

Michael J. Neufeld, a widely published author of aerospace history and chief of the Space History Division at the Smithsonian's National Air and Space Museum, wrote that ten years after von Braun obtained his Nazi Party membership, he produced an affidavit for the U.S. Army misrepresenting the year of his membership, saying incorrectly:[21]:96
In 1939, I was officially demanded to join the National Socialist Party. At this time I was already Technical Director at the Army Rocket Center at Peenemünde (Baltic Sea). The technical work carried out there had, in the meantime, attracted more and more attention in higher levels. Thus, my refusal to join the party would have meant that I would have to abandon the work of my life. Therefore, I decided to join. My membership in the party did not involve any political activity.
Whether von Braun's error with regard to the year was deliberate or a simple mistake has never been ascertained, although Neufeld stated that he might have lied on the affidavit.[21]:96 Neufeld further wrote:
Von Braun, like other Peenemünders, was assigned to the local group in Karlshagen; there is no evidence that he did more than send in his monthly dues. But he is seen in some photographs with the party's swastika pin in his lapel – it was politically useful to demonstrate his membership.[21]:96
Von Braun's later attitude toward the National Socialist regime of the late 1930s and early 1940s was complex. He said that he had been so influenced by the early Nazi promise of release from the post–World War I economic effects, that his patriotic feelings had increased.[citation needed] In a 1952 memoir article he admitted that, at that time, he "fared relatively rather well under totalitarianism".[21]:96–97 Yet, he also wrote that "to us, Hitler was still only a pompous fool with a Charlie Chaplin moustache"[22] and that he perceived him as "another Napoleon" who was "wholly without scruples, a godless man who thought himself the only god".[23]

Membership in the Allgemeine SS

Von Braun joined the SS horseback riding school on 1 November 1933 as an SS-Anwärter. He left the following year.:63 In 1940, he joined the SS[24]:47[25] and was given the rank of Untersturmführer in the Allgemeine SS and issued membership number 185,068.:121 In 1947, he gave the U.S. War Department this explanation:
In spring 1940, one SS-Standartenfuehrer (SS-colonel) Mueller from Greifswald, a bigger town in the vicinity of Peenemünde, looked me up in my office ... and told me that Reichsfuehrer SS Himmler had sent him with the order to urge me to join the SS. I told him I was so busy with my rocket work that I had no time to spare for any political activity. He then told me, that ... the SS would cost me no time at all. I would be awarded the rank of a[n] "Untersturmfuehrer" (lieutenant) and it were [sic] a very definite desire of Himmler that I attend his invitation to join.

I asked Mueller to give me some time for reflection. He agreed.

Realizing that the matter was of highly political significance for the relation between the SS and the Army, I called immediately on my military superior, Dr. Dornberger. He informed me that the SS had for a long time been trying to get their "finger in the pie" of the rocket work. I asked him what to do. He replied on the spot that if I wanted to continue our mutual work, I had no alternative but to join.
When shown a picture of himself standing behind Himmler, von Braun claimed to have worn the SS uniform only that one time,[26] but in 2002 a former SS officer at Peenemünde told the BBC that von Braun had regularly worn the SS uniform to official meetings. He began as an Untersturmführer (Second lieutenant) and was promoted three times by Himmler, the last time in June 1943 to SS-Sturmbannführer (Major). Von Braun later claimed that these were simply technical promotions received each year regularly by mail.[27]

Working with the Nazis

First rank, from left to right, General Dr Walter Dornberger (partially hidden), General Friedrich Olbricht (with Knight's Cross), Major Heinz Brandt, and Wernher von Braun (in civil garment) at Peenemünde, in March 1941.

In 1933, von Braun was working on his creative doctorate when the National Socialist German Workers Party (NSDAP, or Nazi Party) came to power in a coalition government in Germany; rocketry was almost immediately moved onto the national agenda. An artillery captain, Walter Dornberger, arranged an Ordnance Department research grant for von Braun, who then worked next to Dornberger's existing solid-fuel rocket test site at Kummersdorf.

Von Braun was awarded a doctorate in physics[28] (aerospace engineering) on July 27, 1934, from the University of Berlin for a thesis entitled "About Combustion Tests"; his doctoral supervisor was Erich Schumann.[21]:61 However, this thesis was only the public part of von Braun's work. His actual full thesis, Construction, Theoretical, and Experimental Solution to the Problem of the Liquid Propellant Rocket (dated April 16, 1934) was kept classified by the German army, and was not published until 1960.[29] By the end of 1934, his group had successfully launched two liquid fuel rockets that rose to heights of 2.2 and 3.5 km (2 mi).

At the time, Germany was highly interested in American physicist Robert H. Goddard's research. Before 1939, German scientists occasionally contacted Goddard directly with technical questions. Wernher von Braun used Goddard's plans from various journals and incorporated them into the building of the Aggregat (A) series of rockets. The A-4 rocket would become well known as the V-2.[30] In 1963, von Braun reflected on the history of rocketry, and said of Goddard's work: "His rockets ... may have been rather crude by present-day standards, but they blazed the trail and incorporated many features used in our most modern rockets and space vehicles."[11]

Goddard confirmed his work was used by von Braun in 1944, shortly before the Nazis began firing V-2s at England. A V-2 crashed in Sweden and some parts were sent to an Annapolis lab where Goddard was doing research for the Navy. If this was the so-called Bäckebo Bomb, it had been procured by the British in exchange for Spitfires; Annapolis would have received some parts from them. Goddard is reported to have recognized components he had invented, and inferred that his brainchild had been turned into a weapon.[31] Later, von Braun would comment: "I have very deep and sincere regret for the victims of the V-2 rockets, but there were victims on both sides ... A war is a war, and when my country is at war, my duty is to help win that war."[32]

In response to Goddard's claims, von Braun said "at no time in Germany did I or any of my associates ever see a Goddard patent". This was independently confirmed.[33] He wrote that claims about him lifting Goddard's work were the furthest from the truth, noting that Goddard's paper "A Method of Reaching Extreme Altitudes", which was studied by von Braun and Oberth, lacked the specificity of liquid-fuel experimentation with rockets.[33] It was also confirmed that he was responsible for an estimated 20 patentable innovations related to rocketry during the Volksverhetzung era, as well as receiving U.S. patents after the war concerning the advancement of rocketry.[33] Documented accounts also stated he provided solutions to a host of aerospace engineering problems in the 1950s and 60s.[33]

There were no German rocket societies after the collapse of the VfR, and civilian rocket tests were forbidden by the new Nazi regime. Only military development was allowed, and to this end, a larger facility was erected at the village of Peenemünde in northern Germany on the Baltic Sea. Dornberger became the military commander at Peenemünde, with von Braun as technical director. In collaboration with the Luftwaffe, the Peenemünde group developed liquid-fuel rocket engines for aircraft and jet-assisted takeoffs. They also developed the long-range A-4 ballistic missile and the supersonic Wasserfall anti-aircraft missile.

Schematic of the A4/V2

On December 22, 1942, Adolf Hitler ordered the production of the A-4 as a "vengeance weapon", and the Peenemünde group developed it to target London. Following von Braun's July 7, 1943 presentation of a color movie showing an A-4 taking off, Hitler was so enthusiastic that he personally made von Braun a professor shortly thereafter.[34] In Germany at this time, this was an exceptional promotion for an engineer who was only 31 years old.

By that time, the British and Soviet intelligence agencies were aware of the rocket program and von Braun's team at Peenemünde, based on the intelligence provided by the Polish underground Home Army. Over the nights of August 17–18, 1943, RAF Bomber Command's Operation Hydra dispatched raids on the Peenemünde camp consisting of 596 aircraft, and dropped 1,800 tons of explosives.[35] The facility was salvaged and most of the engineering team remained unharmed; however, the raids killed von Braun's engine designer Walter Thiel and Chief Engineer Walther, and the rocket program was delayed.[36][37]
The first combat A-4, renamed the V-2 (Vergeltungswaffe 2 "Retaliation/Vengeance Weapon 2") for propaganda purposes, was launched toward England on September 7, 1944, only 21 months after the project had been officially commissioned. Von Braun's interest in rockets was specifically for the application of space travel, not for killing people.[38] After hearing the news from London, he said that "the rocket worked perfectly, except for landing on the wrong planet." Satirist Mort Sahl has been credited with mocking von Braun by saying "I aim at the stars, but sometimes I hit London."[39] In fact that line appears in the film I Aim at the Stars, a 1960 biopic of von Braun.

Experiments with rocket aircraft

During 1936, von Braun's rocketry team working at Kummersdorf investigated installing liquid-fuelled rockets in aircraft. Ernst Heinkel enthusiastically supported their efforts, supplying a He-72 and later two He-112s for the experiments. Later in 1936, Erich Warsitz was seconded by the RLM to Wernher von Braun and Ernst Heinkel, because he had been recognized as one of the most experienced test pilots of the time, and because he also had an extraordinary fund of technical knowledge.[40]:30 After he familiarized Warsitz with a test-stand run, showing him the corresponding apparatus in the aircraft, he asked: "Are you with us and will you test the rocket in the air? Then, Warsitz, you will be a famous man. And later we will fly to the Moon – with you at the helm!"[40]:35
A regular He 112

In June 1937, at Neuhardenberg (a large field about 70 km (43 mi) east of Berlin, listed as a reserve airfield in the event of war), one of these latter aircraft was flown with its piston engine shut down during flight by Warsitz, at which time it was propelled by von Braun's rocket power alone. Despite a wheels-up landing and the fuselage having been on fire, it proved to official circles that an aircraft could be flown satisfactorily with a back-thrust system through the rear.[40]:51

At the same time, Hellmuth Walter's experiments into hydrogen peroxide based rockets were leading towards light and simple rockets that appeared well-suited for aircraft installation. Also the firm of Hellmuth Walter at Kiel had been commissioned by the RLM to build a rocket engine for the He 112, so there were two different new rocket motor designs at Neuhardenberg: whereas von Braun's engines were powered by alcohol and liquid oxygen, Walter engines had hydrogen peroxide and calcium permanganate as a catalyst. Von Braun's engines used direct combustion and created fire, the Walter devices used hot vapors from a chemical reaction, but both created thrust and provided high speed.[40]:41 The subsequent flights with the He-112 used the Walter-rocket instead of von Braun's; it was more reliable, simpler to operate, and safer for the test pilot, Warsitz.[40]:55

Slave labor

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. Arthur Rudolph, chief engineer of the V-2 rocket factory at Peenemünde, endorsed this idea in April 1943 when a labor shortage developed. More people died building the V-2 rockets than were killed by it as a weapon.[41] Von Braun admitted visiting the plant at Mittelwerk on many occasions, and called conditions at the plant "repulsive", but claimed never to have witnessed any deaths or beatings, although it had become clear to him by 1944 that deaths had occurred.[42] He denied ever having visited the Mittelbau-Dora concentration camp itself, where 20,000 died from illness, beatings, hangings, and intolerable working conditions.[43]

Some prisoners claim von Braun engaged in brutal treatment or approved of it. Guy Morand, a French resistance fighter who was a prisoner in Dora, testified in 1995 that after an apparent sabotage attempt, von Braun ordered a prisoner to be flogged,[44] while Robert Cazabonne, another French prisoner, claimed von Braun stood by as prisoners were hanged by chains suspended by cranes.[44]:123–124 However, these accounts may have been a case of mistaken identity.[45] Former Buchenwald inmate Adam Cabala claims that von Braun went to the concentration camp to pick slave laborers: "[...] also the German scientists led by Prof. Wernher von Braun were aware of everything daily. As they went along the corridors, they saw the exhaustion of the inmates, their arduous work and their pain. Not one single time did Prof. Wernher von Braun protest against this cruelty during his frequent stays at Dora. Even the aspect of corpses did not touch him: On a small area near the ambulance shed, inmates tortured to death by slave labor and the terror of the overseers were piling up daily. But, Prof. Wernher von Braun passed them so close that he was almost touching the corpses".[46]

In Wernher von Braun: Crusader for Space, numerous statements by von Braun show he was aware of the conditions but felt completely unable to change them. A friend quotes von Braun speaking of a visit to Mittelwerk:
It is hellish. My spontaneous reaction was to talk to one of the SS guards, only to be told with unmistakable harshness that I should mind my own business, or find myself in the same striped fatigues! ... I realized that any attempt of reasoning on humane grounds would be utterly futile.[47]
When asked if von Braun could have protested against the brutal treatment of the slave laborers, von Braun team member Konrad Dannenberg (a member of the Nazi party since 1932) told The Huntsville Times, "If he had done it, in my opinion, he would have been shot on the spot."[48]

Arrest and release by the Nazi regime

According to André Sellier, a French historian and survivor of the Mittelbau-Dora concentration camp, Heinrich Himmler had von Braun come to his Feldkommandostelle Hochwald HQ in East Prussia in February 1944.[49] To increase his power-base within the Nazi regime, Himmler was conspiring to use Kammler to gain control of all German armament programs, including the V-2 program at Peenemünde.[12]:38–40 He therefore recommended that von Braun work more closely with Kammler to solve the problems of the V-2. Von Braun claimed to have replied that the problems were merely technical and he was confident that they would be solved with Dornberger's assistance.

Von Braun had been under SD surveillance since October 1943. A report stated that he and his colleagues Riedel and Gröttrup were said to have expressed regret at an engineer's house one evening that they were not working on a spaceship and that they felt the war was not going well; this was considered a "defeatist" attitude. A young female dentist who was an SS spy reported their comments.[12]:38–40 Combined with Himmler's false charges that von Braun was a communist sympathizer and had attempted to sabotage the V-2 program, and considering that von Braun regularly piloted his government-provided airplane that might allow him to escape to England, this led to his arrest by the Gestapo.[12]:38–40

The unsuspecting von Braun was detained on March 14 (or March 15),[50] 1944, and was taken to a Gestapo cell in Stettin (now Szczecin, Poland),[12]:38–40 where he was held for two weeks without knowing the charges against him.

Through the Abwehr in Berlin, Dornberger obtained von Braun's conditional release and Albert Speer, Reichsminister for Munitions and War Production, persuaded Hitler to reinstate von Braun so that the V-2 program could continue[12]:38–40 or turn into a "V-4 program" which in their view would be impossible without von Braun's leadership.[51] In his memoirs, Speer states Hitler had finally conceded that von Braun was to be "protected from all prosecution as long as he is indispensable, difficult though the general consequences arising from the situation."[52]

Von Braun, with his arm in a cast from a car accident, surrendered to the Americans just before this May 3, 1945 photo.

Surrender to the Americans

The Soviet Army was about 160 km (100 mi) from Peenemünde in the spring of 1945 when von Braun assembled his planning staff and asked them to decide how and to whom they should surrender. Unwilling to go to the Soviets, von Braun and his staff decided to try to surrender to the Americans. Kammler had ordered relocation of his team to central Germany; however, a conflicting order from an army chief ordered them to join the army and fight. Deciding that Kammler's order was their best bet to defect to the Americans, von Braun fabricated documents and transported 500 of his affiliates to the area around Mittelwerk, where they resumed their work. For fear of their documents being destroyed by the SS, von Braun ordered the blueprints to be hidden in an abandoned mine shaft in the Harz mountain range.[53]

While on an official trip in March, von Braun suffered a complicated fracture of his left arm and shoulder in a car accident after his driver fell asleep at the wheel. His injuries were serious, but he insisted that his arm be set in a cast so he could leave the hospital. Due to this neglect of the injury he had to be hospitalized again a month later where his bones had to be re-broken and re-aligned.[53]

In April, as the Allied forces advanced deeper into Germany, Kammler ordered the engineering team to be moved by train into the town of Oberammergau in the Bavarian Alps where they were closely guarded by the SS with orders to execute the team if they were about to fall into enemy hands. However, von Braun managed to convince SS Major Kummer to order the dispersal of the group into nearby villages so that they would not be an easy target for U.S. bombers.[53]

Von Braun and a large number of the engineering team subsequently made it to Austria.[54] On May 2, 1945, upon finding an American private from the U.S. 44th Infantry Division, von Braun's brother and fellow rocket engineer, Magnus, approached the soldier on a bicycle, calling out in broken English: "My name is Magnus von Braun. My brother invented the V-2. We want to surrender."[9][55] After the surrender, Wernher spoke to the press:
We knew that we had created a new means of warfare, and the question as to what nation, to what victorious nation we were willing to entrust this brainchild of ours was a moral decision more than anything else. We wanted to see the world spared another conflict such as Germany had just been through, and we felt that only by surrendering such a weapon to people who are guided by the Bible could such an assurance to the world be best secured.[56]
The American high command was well aware of how important their catch was: von Braun had been at the top of the Black List, the code name for the list of German scientists and engineers targeted for immediate interrogation by U.S. military experts. On June 19, 1945, two days before the scheduled handover of the Nordhausen area to the Soviets, U.S. Army Major Robert B. Staver, Chief of the Jet Propulsion Section of the Research and Intelligence Branch of the U.S. Army Ordnance Corps in London, and Lt Col R. L. Williams took von Braun and his department chiefs by Jeep from Garmisch to Munich and then flown to Nordhausen; on the next day the group was evacuated 40 miles (64 km) southwest to Witzenhausen, a small town in the American Zone.[57]

Von Braun was briefly detained at the "Dustbin" interrogation center at Kransberg Castle where the elite of the Third Reich's economy, science and technology were debriefed by U.S. and British intelligence officials.[58] Initially he was recruited to the U.S. under a program called Operation Overcast, subsequently known as Operation Paperclip. There is evidence, however, that British intelligence and scientists were the first to interview him in depth, eager to gain information that they knew U.S. officials would deny them. The team included the young L.S. Snell, then the leading British rocket engineer, later chief designer of Rolls-Royce Limited and inventor of the Concorde's engines. The specific information the British gleaned remained top secret, both from the Americans and other allies.[citation needed]

American career

U.S. Army career

Wernher von Braun at a meeting of NACA's Special Committee on Space Technology, 1958

On June 20, 1945, the U.S. Secretary of State approved the transfer of von Braun and his specialists to America; however, this was not announced to the public until October 1, 1945.[59] Von Braun was among those scientists for whom the Joint Intelligence Objectives Agency (JIOA) arguably falsified employment histories and expunged NSDAP memberships.[citation needed]

The first seven technicians arrived in the United States at New Castle Army Air Field, just south of Wilmington, Delaware, on September 20, 1945. They were then flown to Boston and taken by boat to the Army Intelligence Service post at Fort Strong in Boston Harbor. Later, with the exception of von Braun, the men were transferred to Aberdeen Proving Ground in Maryland to sort out the Peenemünde documents, enabling the scientists to continue their rocketry experiments.[citation needed]

Finally, von Braun and his remaining Peenemünde staff (see List of German rocket scientists in the United States) were transferred to their new home at Fort Bliss, a large Army installation just north of El Paso. Von Braun would later write he found it hard to develop a "genuine emotional attachment" to his new surroundings.[60] His chief design engineer Walther Reidel became the subject of a December 1946 article "German Scientist Says American Cooking Tasteless; Dislikes Rubberized Chicken", exposing the presence of von Braun's team in the country and drawing criticism from Albert Einstein and John Dingell.[60] Requests to improve their living conditions such as laying linoleum over their cracked wood flooring were rejected.[60] Von Braun remarked, "at Peenemünde we had been coddled, here you were counting pennies".[60] At Peenemünde, von Braun had thousands of engineers who answered to him, but was now answering to "pimply" 26-year-old Major Jim Hamill who possessed an undergraduate degree in engineering.[60] His loyal Germans still addressed him as Herr Professor, but Hamill addressed him as Wernher and never responded to von Braun's request for more materials. Every proposal for new rocket ideas was dismissed.[60]

Von Braun's badge at ABMA (1957)

While there, they trained military, industrial, and university personnel in the intricacies of rockets and guided missiles. As part of the Hermes project, they helped refurbish, assemble, and launch a number of V-2s that had been shipped from Germany to the White Sands Proving Ground in New Mexico. They also continued to study the future potential of rockets for military and research applications. Since they were not permitted to leave Fort Bliss without military escort, von Braun and his colleagues began to refer to themselves only half-jokingly as "PoPs" – "Prisoners of Peace".[61]

In 1950, at the start of the Korean War, von Braun and his team were transferred to Huntsville, Alabama, his home for the next 20 years. Between 1952 and 1956,[62] von Braun led the Army's rocket development team at Redstone Arsenal, resulting in the Redstone rocket, which was used for the first live nuclear ballistic missile tests conducted by the United States. He personally witnessed this historic launch and detonation.[63] Work on the Redstone led to development of the first high-precision inertial guidance system on the Redstone rocket.[64]

As director of the Development Operations Division of the Army Ballistic Missile Agency, von Braun, with his team, then developed the Jupiter-C, a modified Redstone rocket.[65] The Jupiter-C successfully launched the West's first satellite, Explorer 1, on January 31, 1958. This event signaled the birth of America's space program.

Despite the work on the Redstone rocket, the 12 years from 1945 to 1957 were probably some of the most frustrating for von Braun and his colleagues. In the Soviet Union, Sergei Korolev and his team of scientists and engineers plowed ahead with several new rocket designs and the Sputnik program, while the American government was not very interested in von Braun's work or views and only embarked on a very modest rocket-building program. In the meantime, the press tended to dwell on von Braun's past as a member of the SS and the slave labor used to build his V-2 rockets.[citation needed]

Popular concepts for a human presence in space

Repeating the pattern he had established during his earlier career in Germany, von Braun – while directing military rocket development in the real world – continued to entertain his engineer-scientist's dream of a future in which rockets would be used for space exploration. However, he was no longer at risk of being sacked – as American public opinion of Germans began to recover, von Braun found himself increasingly in a position to popularize his ideas. The May 14, 1950, headline of The Huntsville Times ("Dr. von Braun Says Rocket Flights Possible to Moon") might have marked the beginning of these efforts. Von Braun's ideas rode a publicity wave that was created by science fiction movies and stories.

Von Braun with President Dwight D. Eisenhower, 1960

In 1952, von Braun first published his concept of a manned space station in a Collier's Weekly magazine series of articles titled "Man Will Conquer Space Soon!". These articles were illustrated by the space artist Chesley Bonestell and were influential in spreading his ideas. Frequently, von Braun worked with fellow German-born space advocate and science writer Willy Ley to publish his concepts, which, unsurprisingly, were heavy on the engineering side and anticipated many technical aspects of space flight that later became reality.

The space station (to be constructed using rockets with recoverable and reusable ascent stages) would be a toroid structure, with a diameter of 250 feet (76 m); this built on the concept of a rotating wheel-shaped station introduced in 1929 by Herman Potočnik in his book The Problem of Space Travel – The Rocket Motor. The space station would spin around a central docking nave to provide artificial gravity, and would be assembled in a 1,075-mile (1,730 km) two-hour, high-inclination Earth orbit allowing observation of essentially every point on Earth on at least a daily basis. The ultimate purpose of the space station would be to provide an assembly platform for manned lunar expeditions. More than a decade later, the movie version of 2001: A Space Odyssey would draw heavily on the design concept in its visualization of an orbital space station.

Von Braun envisaged these expeditions as very large-scale undertakings, with a total of 50 astronauts traveling in three huge spacecraft (two for crew, one primarily for cargo), each 49 m (160.76 ft) long and 33 m (108.27 ft) in diameter and driven by a rectangular array of 30 rocket propulsion engines.[66] Upon arrival, astronauts would establish a permanent lunar base in the Sinus Roris region by using the emptied cargo holds of their craft as shelters, and would explore their surroundings for eight weeks. This would include a 400 km (249 mi) expedition in pressurized rovers to the crater Harpalus and the Mare Imbrium foothills.

Walt Disney and von Braun, seen in 1954 holding a model of his passenger ship, collaborated on a series of three educational films.

At this time, von Braun also worked out preliminary concepts for a manned mission to Mars that used the space station as a staging point. His initial plans, published in The Mars Project (1952), had envisaged a fleet of 10 spacecraft (each with a mass of 3,720 metric tonnes), three of them unmanned and each carrying one 200-tonne winged lander[66] in addition to cargo, and nine crew vehicles transporting a total of 70 astronauts. Gigantic as this mission plan was, its engineering and astronautical parameters were thoroughly calculated. A later project was much more modest, using only one purely orbital cargo ship and one crewed craft. In each case, the expedition would use minimum-energy Hohmann transfer orbits for its trips to Mars and back to Earth.

Before technically formalizing his thoughts on human spaceflight to Mars, von Braun had written a science fiction novel on the subject, set in the year 1980. However, the manuscript was rejected by no fewer than 18 publishers.[67] Von Braun later published small portions of this opus in magazines, to illustrate selected aspects of his Mars project popularizations. The complete manuscript, titled Project MARS: A Technical Tale, did not appear as a printed book until December 2006.[68]

In the hope that its involvement would bring about greater public interest in the future of the space program, von Braun also began working with Walt Disney and the Disney studios as a technical director, initially for three television films about space exploration. The initial broadcast devoted to space exploration was Man in Space, which first went on air on March 9, 1955, drawing 40 million viewers.[60][69][70]

Later (in 1959) von Braun published a short booklet, condensed from episodes that had appeared in This Week Magazine before—describing his updated concept of the first manned lunar landing.[71] The scenario included only a single and relatively small spacecraft—a winged lander with a crew of only two experienced pilots who had already circumnavigated the Moon on an earlier mission. The brute-force direct ascent flight schedule used a rocket design with five sequential stages, loosely based on the Nova designs that were under discussion at this time. After a night launch from a Pacific island, the first three stages would bring the spacecraft (with the two remaining upper stages attached) to terrestrial escape velocity, with each burn creating an acceleration of 8–9 times standard gravity. Residual propellant in the third stage would be used for the deceleration intended to commence only a few hundred kilometers above the landing site in a crater near the lunar north pole. The fourth stage provided acceleration to lunar escape velocity, while the fifth stage would be responsible for a deceleration during return to the Earth to a residual speed that allows aerocapture of the spacecraft ending in a runway landing, much in the way of the Space Shuttle. One remarkable feature of this technical tale is that the engineer Wernher von Braun anticipated a medical phenomenon that would become apparent only years later: being a veteran astronaut with no history of serious adverse reactions to weightlessness offers no protection against becoming unexpectedly and violently spacesick.

Religious conversion

In the first half of his life, von Braun was a nonpracticing, "perfunctory" Lutheran, whose affiliation was nominal and not taken seriously.[72] As described by Ernst Stuhlinger and Frederick I. Ordway III: “Throughout his younger years, von Braun did not show signs of religious devotion, or even an interest in things related to the church or to biblical teachings. In fact, he was known to his friends as a 'merry heathen' (fröhlicher Heide)."[73] Nevertheless, in 1945 he explained his decision to surrender to the Western Allies, rather than Russians, as being influenced by a desire to share rocket technology with people who followed the Bible. In 1946,[74]:469 he attended church in El Paso, Texas, and underwent a religious conversion to evangelical Christianity.[75] In an unnamed religious magazine he stated:
One day in Fort Bliss, a neighbor called and asked if I would like to go to church with him. I accepted, because I wanted to see if the American church was just a country club as I'd been led to expect. Instead, I found a small, white frame building ... in the hot Texas sun on a browned-grass lot ... Together, these people make a live, vibrant community. This was the first time I really understood that religion was not a cathedral inherited from the past, or a quick prayer at the last minute. To be effective, a religion has to be backed up by discipline and effort.
— von Braun[74]:229–230
On the motives behind this conversion, Michael J. Neufeld is of the opinion that he turned to religion "to pacify his own conscience",[76] whereas University of Southampton scholar Kendrick Oliver said that von Braun was presumably moved "by a desire to find a new direction for his life after the moral chaos of his service for the Third Reich".[77] Having "concluded one bad bargain with the Devil, perhaps now he felt a need to have God securely at his side".[78]

Later in life, he joined an Episcopal congregation,[75] and became increasingly religious.[79] He publicly spoke and wrote about the complementarity of science and religion, the afterlife of the soul, and his belief in God.[80][81] He stated, "Through science man strives to learn more of the mysteries of creation. Through religion he seeks to know the Creator."[82] He was interviewed by the Assemblies of God pastor C. M. Ward, as stating, "The farther we probe into space, the greater my faith."[83] In addition, he met privately with evangelist Billy Graham and with the pacifist leader Martin Luther King Jr..[84]

Von Braun with President Kennedy at Redstone Arsenal in 1963
 
Von Braun with the F-1 engines of the Saturn V first stage at the U.S. Space and Rocket Center
 
Still with his rocket models, von Braun is pictured in his new office at NASA headquarters in 1970

Concepts for orbital warfare

Von Braun developed and published his space station concept during the very "coldest" time of the Cold War, when the U.S. government for which he worked put the containment of the Soviet Union above everything else. The fact that his space station – if armed with missiles that could be easily adapted from those already available at this time – would give the United States space superiority in both orbital and orbit-to-ground warfare did not escape him. In his popular writings, von Braun elaborated on them in several of his books and articles, but he took care to qualify such military applications as "particularly dreadful". This much less peaceful aspect of von Braun's "drive for space" has been reviewed by Michael J. Neufeld from the Space History Division of the National Air and Space Museum in Washington.[85]

NASA career

Von Braun during Apollo 11 launch

The U.S. Navy had been tasked with building a rocket to lift satellites into orbit, but the resulting Vanguard rocket launch system was unreliable. In 1957, with the launch of Sputnik 1, a growing belief within the United States existed that it was lagging behind the Soviet Union in the emerging Space Race. American authorities then chose to use von Braun and his German team's experience with missiles to create an orbital launch vehicle. Wernher von Braun had such an idea originally proposed in 1954, but it was denied at the time.[60]

NASA was established by law on July 29, 1958. One day later, the 50th Redstone rocket was successfully launched from Johnston Atoll in the south Pacific as part of Operation Hardtack I. Two years later, NASA opened the Marshall Space Flight Center at Redstone Arsenal in Huntsville, and the Army Ballistic Missile Agency (ABMA) development team led by von Braun was transferred to NASA. In a face-to-face meeting with Herb York at the Pentagon, von Braun made it clear he would go to NASA only if development of the Saturn was allowed to continue.[86] Presiding from July 1960 to February 1970, von Braun became the center's first director.[citation needed]

Von Braun's early years at NASA included a failed "four-inch flight" during which the first unmanned Mercury-Redstone rocket only rose a few inches before settling back onto the launch pad. The launch failure was later determined to be the result of a "power plug with one prong shorter than the other because a worker filed it to make it fit". Because of the difference in the length of one prong, the launch system detected the difference in the power disconnection as a "cut-off signal to the engine". The system stopped the launch, and the incident created a "nadir of morale in Project Mercury".[citation needed]

After the flight of Mercury-Redstone 2 in January 1961 experienced a string of problems, von Braun insisted on one more test before the Redstone could be deemed man-rated. His overly cautious nature brought about clashes with other people involved in the program, who argued that MR-2's technical issues were simple and had been resolved shortly after the flight. He overruled them, so a test mission involving a Redstone on a boilerplate capsule was flown successfully in March. Von Braun's stubbornness was blamed for the inability of the U.S. to launch a manned space mission before the Soviet Union, which ended up putting the first man in space the following month.[citation needed]

Charles W. Mathews, von Braun, George Mueller, and Lt. Gen. Samuel C. Phillips in the Launch Control Center following the successful Apollo 11 liftoff on July 16, 1969

The Marshall Center's first major program was the development of Saturn rockets to carry heavy payloads into and beyond Earth orbit. From this, the Apollo program for manned Moon flights was developed. Wernher von Braun initially pushed for a flight engineering concept that called for an Earth orbit rendezvous technique (the approach he had argued for building his space station), but in 1962, he converted to the lunar orbit rendezvous concept that was subsequently realized.[87] During Apollo, he worked closely with former Peenemünde teammate, Kurt H. Debus, the first director of the Kennedy Space Center. His dream to help mankind set foot on the Moon became a reality on July 16, 1969, when a Marshall-developed Saturn V rocket launched the crew of Apollo 11 on its historic eight-day mission. Over the course of the program, Saturn V rockets enabled six teams of astronauts to reach the surface of the Moon.

During the late 1960s, von Braun was instrumental in the development of the U.S. Space and Rocket Center in Huntsville. The desk from which he guided America's entry in the space race remains on display there. He also was instrumental in the launching of the experimental Applications Technology Satellite. He traveled to India and hoped that the program would be helpful for bringing a massive educational television project to help the poorest people in that country.[88][89]

During the local summer of 1966–67, von Braun participated in a field trip to Antarctica, organized for him and several other members of top NASA management.[90] The goal of the field trip was to determine whether the experience gained by U.S. scientific and technological community during the exploration of Antarctic wastelands would be useful for the manned exploration of space. Von Braun was mainly interested in management of the scientific effort on Antarctic research stations, logistics, habitation, and life support, and in using the barren Antarctic terrain like the glacial dry valleys to test the equipment that one day would be used to look for signs of life on Mars and other worlds.

In an internal memo dated January 16, 1969,[91] von Braun had confirmed to his staff that he would stay on as a center director at Huntsville to head the Apollo Applications Program. He referred to this time as a moment in his life when he felt the strong need to pray, stating "I certainly prayed a lot before and during the crucial Apollo flights".[92] A few months later, on occasion of the first Moon landing, he publicly expressed his optimism that the Saturn V carrier system would continue to be developed, advocating manned missions to Mars in the 1980s.[93]

Nonetheless, on March 1, 1970, von Braun and his family relocated to Washington, DC, when he was assigned the post of NASA's Deputy Associate Administrator for Planning at NASA Headquarters. After a series of conflicts associated with the truncation of the Apollo program, and facing severe budget constraints, von Braun retired from NASA on May 26, 1972. Not only had it become evident by this time that NASA and his visions for future U.S. space flight projects were incompatible, but also it was perhaps even more frustrating for him to see popular support for a continued presence of man in space wane dramatically once the goal to reach the Moon had been accomplished.

Von Braun and William R. Lucas, the first and third Marshall Space Flight Center directors, viewing a Spacelab model in 1974

Von Braun also developed the idea of a Space Camp that would train children in fields of science and space technologies, as well as help their mental development much the same way sports camps aim at improving physical development.[21]:354–355

Career after NASA

After leaving NASA, von Braun became Vice President for Engineering and Development at the aerospace company Fairchild Industries in Germantown, Maryland, on July 1, 1972.

In 1973, during a routine physical examination, von Braun was diagnosed with kidney cancer, which could not be controlled with the medical techniques available at the time.[94] Von Braun continued his work to the extent possible, which included accepting invitations to speak at colleges and universities, as he was eager to cultivate interest in human spaceflight and rocketry, particularly his desire to encourage the next generation of aerospace engineers.

Von Braun helped establish and promote the National Space Institute, a precursor of the present-day National Space Society, in 1975, and became its first president and chairman. In 1976, he became scientific consultant to Lutz Kayser, the CEO of OTRAG, and a member of the Daimler-Benz board of directors. However, his deteriorating health forced him to retire from Fairchild on December 31, 1976. When the 1975 National Medal of Science was awarded to him in early 1977, he was hospitalized, and unable to attend the White House ceremony.

Engineering philosophy

Von Braun's insistence on further tests after Mercury-Redstone 2 flew higher than planned has been identified as contributing to the Soviet Union's success in launching the first human in space.[95] The Mercury-Redstone BD flight was successful, but took up the launch slot that could have put Alan Shepard into space three weeks ahead of Yuri Gagarin. His Soviet counterpart Sergei Korolev insisted on two successful flights with dogs before risking Gagarin's life on a manned attempt. The second test flight took place one day after the Mercury-Redstone BD mission.[21]

Von Braun took a very conservative approach to engineering, designing with ample safety factors and redundant structure. This became a point of contention with other engineers, who struggled to keep vehicle weight down so that payload could be maximized. As noted above, his excessive caution likely led to the U.S. losing the race to put a man into space with the Soviets. Krafft Ehricke likened von Braun's approach to building the Brooklyn Bridge.[96]:208 Many at NASA headquarters jokingly referred to Marshall as the "Chicago Bridge and Iron Works", but acknowledged that the designs worked.[97] The conservative approach paid off when a fifth engine was added to the Saturn C-4, producing the Saturn V. The C-4 design had a large crossbeam that could easily absorb the thrust of an additional engine.[21]:371

Personal life

Maria von Braun, wife of Wernher von Braun

Von Braun had a charismatic personality and was known as a ladies' man. As a student in Berlin, he would often be seen in the evenings in the company of two girlfriends at once.[21]:63 He later had a succession of affairs within the secretarial and computer pool at Peenemünde.[21]:92–94

In January 1943, von Braun became engaged to Dorothee Brill, a physical education teacher in Berlin, and sought permission from the SS Race and Settlement Office to marry. However, the engagement was broken due to his mother's opposition.[21]:146–147 Later in 1943, while preparing V-2 launch sites in northeastern France, von Braun had an affair in Paris with a French woman, who was imprisoned for collaboration after the War and became destitute.[21]:147–148

During his stay at Fort Bliss, von Braun proposed marriage to Maria Luise von Quistorp (born June 10, 1928), his maternal first cousin, in a letter to his father. On March 1, 1947, having received permission to go back to Germany and return with his bride, he married her in a Lutheran church in Landshut, Germany. Shortly after he converted to Evangelical Christianity, his bride and he, as well as his father and mother, returned to New York on March 26, 1947. On December 9, 1948, the von Brauns' first daughter, Iris Careen, was born at Fort Bliss Army Hospital.[65] The von Brauns had two more children, Margrit Cécile in 1952 and Peter Constantine in 1960.

On April 15, 1955, von Braun became a naturalized citizen of the United States.

Death

Grave of Wernher von Braun in Ivy Hill Cemetery (Alexandria, Virginia), 2008.

On June 16, 1977, Wernher von Braun died of pancreatic cancer in Alexandria, Virginia, at the age of 65.[98][99] He was buried at the Ivy Hill Cemetery in Alexandria, Virginia.

Von Braun's gravestone mentions Psalm 19:1: "The heavens declare the glory of God; and the firmament sheweth his handywork." (KJV)[100]

Recognition and critique

In 1970, Huntsville, Alabama honored von Braun's years of service with a series of events including the unveiling of a plaque in his honor. Pictured (l–r), his daughter Iris, wife Maria, U.S. Sen. John Sparkman, Alabama Gov. Albert Brewer, von Braun, son Peter, and daughter Margrit.
  • Apollo program director Sam Phillips was quoted as saying that he did not think that the United States would have reached the Moon as quickly as it did without von Braun's help. Later, after discussing it with colleagues, he amended this to say that he did not believe the United States would have reached the Moon at all.[12]:167
  • The crater von Braun on the Moon is named after him.
  • Von Braun received a total of 12 honorary doctorates, among them, on January 8, 1963, one from the Technical University of Berlin from which he had graduated.
  • Von Braun was responsible for the creation of the Research Institute at the University of Alabama in Huntsville. As a result of his vision, the university is one of the leading universities in the nation for NASA-sponsored research. The building housing the university's Research Institute was named in his honor, Von Braun Research Hall, in 2000.
  • Several German cities (Bonn, Neu-Isenburg, Mannheim, Mainz), and dozens of smaller towns have named streets after Wernher von Braun.
  • The Von Braun Center (built 1975) in Huntsville is named in von Braun's honor.
  • Von Braun Astronomical Society in Huntsville was founded as the Rocket City Astronomical Association by von Braun and was later renamed after him
  • Scrutiny of von Braun's use of forced labor at Mittelwerk intensified again in 1984 when Arthur Rudolph, one of his top affiliates from the A-4/V2 through to the Apollo projects, left the United States and was forced to renounce his citizenship in place of the alternative of being tried for war crimes.[101]
  • A science- and engineering-oriented Gymnasium in Friedberg, Bavaria was named after Wernher von Braun in 1979. In response to rising criticism, a school committee decided in 1995, after lengthy deliberations, to keep the name but "to address von Braun's ambiguity in the advanced history classes". In 2012, Nazi concentration camp survivor David Salz gave a speech in Friedberg, calling out for the public to "Do everything to make this name disappear from this school!".[102][103] In February 2014, the school was finally renamed "Staatliches Gymnasium Friedberg" and distanced itself from the name von Braun, citing he was "no role-model for our pupils".
  • An avenue in the Annadale section of Staten Island, New York was named after him in 1977.
  • Von Braun also was voted into the U.S. Space and Rocket Center Hall of Fame, 2007

Summary of SS career

  • SS number: 185,068
  • Nazi Party number: 5,738,692[21]:96

Dates of rank

  • SS-Anwärter: November 1, 1933 (Candidate; received rank upon joining SS Riding School)
  • SS-Mann: July 1934 (Private)
(left SS after graduation from the school; commissioned in 1940 with date of entry backdated to 1934)

Honors

In popular culture

Film and television Von Braun has been featured in a number of movies and television shows or series:
Several fictional characters have been modeled on von Braun:
In print media:
In literature:
  • The Good German by Joseph Kanon. Von Braun and other scientists are said to have been implicated in the use of slave labor at Peenemünde; their transfer to the U.S. forms part of the narrative.
  • Space by James Michener. Von Braun and other German scientists are brought to the U.S. and form a vital part of the U.S. efforts to reach space.
  • Gravity's Rainbow by Thomas Pynchon. The novel involves British intelligence attempting to avert and predict V-2 rocket attacks. The work even includes a gyroscopic equation for the V2. The first portion of the novel, "Beyond The Zero", begins with a quotation from von Braun: "Nature does not know extinction; all it knows is transformation. Everything science has taught me, and continues to teach me, strengthens my belief in the continuity of our spiritual existence after death."
  • V-S Day by Allen Steele is a 2014 alternate history novel in which the space race occurs during World War II between teams led by Robert H. Goddard and von Braun.
  • Moonglow by Michael Chabon (2016) includes a fictionalized description of the search for and capture of Von Braun by the US Army, and his role in the Nazi V-2 program and subsequently in the US space program.
In theatre:
  • Rocket City, Alabam', a stage play by Mark Saltzman, weaves von Braun's real life with a fictional plot in which a young Jewish woman in Huntsville, Alabama becomes aware of his Nazi past and tries to inspire awareness and outrage. Von Braun is a character in the play.[111]
In music:

Published works

  • Proposal for a Workable Fighter with Rocket Drive. July 6, 1939.
  • 'Survey' of Previous Liquid Rocket Development in Germany and Future Prospects. May 1945.[116]
  • A Minimum Satellite Vehicle Based on Components Available from Developments of the Army Ordnance Corps. September 15, 1954. It would be a blow to U.S. prestige if we did not [launch a satellite] first.[116]
  • The Mars Project, Urbana, University of Illinois Press, (1953). With Henry J. White, translator.
  • Arthur C. Clarke, ed. (1967). German Rocketry, The Coming of the Space Age. New York: Meredith Press.
  • First Men to the Moon, Holt, Rinehart and Winston, New York (1958). Portions of work first appeared in This Week Magazine.
  • Daily Journals of Werner von Braun, May 1958 – March 1970. March 1970.[116]
  • History of Rocketry & Space Travel, New York, Crowell (1975). With Frederick I. Ordway III.
  • The Rocket's Red Glare, Garden City, N.Y.: Anchor Press, (1976). With Frederick I. Ordway III.
  • Project Mars: A Technical Tale, Apogee Books, Toronto (2006). A previously unpublished science fiction story by von Braun. Accompanied by paintings from Chesley Bonestell and von Braun's own technical papers on the proposed project.
  • The Voice of Dr. Wernher von Braun, Apogee Books, Toronto (2007). A collection of speeches delivered by von Braun over the course of his career.

Representation of a Lie group

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