1. Sergi Korolev

2. Sergi Korolev
Considered the father of Russian space program, Sergi Korolev led the Soviet Union to many firsts in the Cold War space race
Those included:
First orbital satellite, first flight past the Moon, first impact on the Moon, first orbital satellite of the Moon, first soft landing on the Moon, first images from the far side of the Moon, first images from the surface of the Moon, first man in orbit, first woman in orbit, first multi-crew in orbit, first space walk, and more
His efforts were monumental, but he remained obscure even to the Russian public until the fall of the Soviet Union in 1991
His importance was recognized by the outside only when the secretive records of the Soviet space efforts began to surface
Those records provided useful sketches of the ambitious intellectuals and scientists, as well as the eccentric personalities, leading the Soviet Union including the paranoid, sadistic and inhumane Joseph Stalin

3. Early Life

4. Sergi Korolev
Sergi Pavlovich Korolev (Серге́й Па́влович Королёв) was born on December 30, 1906 to parents that were married by contract, and little chance of remaining together
Korolev’s birthplace was Zhitomit, a small city in the Ukraine near Kiev
Young Korolev witnessed the same events as other Russians during WW-I, and the violent revolutionary and the civil wars

5. Sergi Korolev
The endless strife during his childhood and the departure of his father when he was three were instrumental in molding his independent character
Unfortunately, his mother was even more independent and left to attend school in Kiev and was with him only during the weekends
Raised by his grandparents, his curiosity was roused by everything around him
Young Korolev became enthralled when a renowned pilot and his biplane put on a show for the village. It could be assumed, although there is no documentation, this left a lasting impression that spawned his hunger for flight

6. Sergi Korolev
At the age of six, Korolev's new stepfather, Grigory Balanin, provided the much-needed parental nurturing, as well as an inspiration for his future education
Grigory's influence generated even greater interest in physical science and engineering, although he also pursued both eclectic and classical works

7. Sergi Korolev
The Balanin family moved to Odessa in the early 1920s when Korolev was a young teenager
Because of the rapidly changing educational structure in the new Soviet Union, Korolev entered a nearby vocational school to complete his preliminary education
He was skilled at woodworking, but took greater interest in lectures from a number of prominent mathematicians and physicists
The unusually scholarly vocational school offered him studies far more enriching than the gymnasium he attended earlier

8. Sergi Korolev also became serious about flight as a teenager
A seaplane detachment in the port of Odessa became his extracurricular focus
His first opportunity to fly came in a biplane float plane while he was offering his time and effort in helping to repair several of the aircraft

9. Sergi Korolev
While in Odessa, Korolev began his engineering career in glider design
This was the same year the he met a girl who would become his future wife. However, Korolev's distractions of his passion for flight and the love of Xenia Vincentini brought pressure from his stepfather to spend more time with his formal education, which ultimately divided the two
With his new direction, Korolev became even more independent and looked to his own beliefs and maturity in establishing his goals
Strong principles derived from an allegiance with a new and growing socialist government led him to apply for admission to the Zhukovsky Academy, an institution involved with the design of military aircraft
He was rejected because he was not a military pilot, and decided to enter the Kiev Polytechnic Institute

10. Sergi Korolev
As a student in Kiev, Korolev redesigned and built four gliders including a trainer that were used to set a number of gliding records, although he was not chosen as a pilot
He then switched to Moscow Tech in 1925 to pursue his aviation studies
One of his professors, Andrei Tupolev, would not only inspire him in the classroom and applied laboratories, but would become an important figure in helping Korolev survive imprisonment and possible execution during the Stalin purges

11. Sergi Korolev
Korolev began his first full-time paid position at Factory 22 Design Bureau in 1929, and was assigned a glider project
His choice was to make it capable of aerobatic flight, and with the help of his stepfather who he was then living with, succeeded in completing a unique design
Korolev's SK-3 Red Star glider was not only a successful glider design, it was accepted for production and demonstration by none other than S. V. Ilyushin, the designer of numerous Soviet military and civil aircraft, some of which are still flying today

12. Early Rocket Development

13. Sergi Korolev
Korolev's interest in rocket-powered flight evolved over a period of time, beginning with his early aircraft design work
It is likely that rocket propulsion was simply an attractive augmentation of aircraft propulsion for him. Now with his pilots license, Korolev was drawn to the idea of rocket powered gliders by the infectious enthusiasm of Friedrikh Tsander
As a member of one of four groups designing rockets and aircraft powered by rocket engines in Tsander's Group for Studying Rocket Propulsion, Korolev began looking more closely at pure rocket design

14. Sergi Korolev
Korolev was also working on an autopilot for Tupolev's TB-3 heavy bomber
Growing interest in rockets led him to immerse himself in the design of rocket engines,
Together, and as part of GIRD, Korolev, Tsander, and Pobedonostsev, produced a 110 lb thrust gasoline and liquid oxygen propellant engine, the OR-2

15. Sergi Korolev
Korolev then adapted the OR-2 to a glider he earlier designed, both with somewhat limited success
The glider never flew successfully with rocket power, and in the following year Tsander died
However, GIRD members including Korolev completed Tsander's plan for the first Russian liquid fuel rocket, with the launch of the GIRD rocket powered by the GIRD-09 engine, designed by Mikhail Tikhonravov

16. Sergi Korolev
Korolev became the chief engineer at the new RNII rocket design bureau in 1934 and immediately began winged rocket research
However, stability and guidance was a difficult problem for all ballistic rockets
The newly formed RNII encouraged collaboration  on many projects as intended, which included Korolev's glide design powered by Glushko's ORM-65 rocket engine
In 1937 and 1938, RNII produced increasingly advanced rocket and aircraft designs made more capable by engine and guidance system breakthroughs

17. Sergi Korolev
Following his conviction on supicion of a lack of layalty to the Soviet Union, Korolev would join other engineers at his last factory-prison in Karen In 1942, an assignment that also included Glushko
Turbojet and rocket propulsion aircraft design projects from this group would later be used in future rocket programs

18. Sergi Korolev
This period included the initial design of the ubiquitous four-chamber rocket cluster design that still flys today in a much-improved rocket
In 1944 Korolev and the entire design bureau was released from incarceration, but their records were not cleared of the charges
The two were assigned lead engineering positions at a new rocket design bureau; chief designer was Glushko and Korolev his deputy

19. Post-World War Two

20. Sergi Korolev
Korolev and several others continued to work at the Kazan site for another year Then in 1945, he was commissioned in the Red Army as a colonel
At the close of WW-II, his assignment was to follow Glushko and Vassily Mishin to Germany and survey the captured V-2/A-4 hardware

21. Sergi Korolev
The teams were also instructed to interrogate any Germans involved with the project for possible use in Russia's already existing ballistic weapons projects
A restricted compound was quickly fashioned near the V-2 factory at Nordhousen to retain anything and everything in the area related to the V-2
Because the U.S. had left with the best scientists and engineers led by Wernher von Braun, the V-2 blueprints, and as many of the salvageable V-2 as they could find, the Russian team's goals were to coordinate efforts to collect hardware that could be used for reconstruction of the rockets

22. Launches of the captured V-2s were also made by the British in 1945
Sergi Korolev
British defense officials joined Russia and the U.S. in V-2 missile hardware, personnel and launch site searches in 1945
Launches of the captured V-2s were also made by the British in 1945
In spite of the efforts of the early Russian teams to convert captured V-2s for use as their own weapons, the 200 truck loads and 400 freight cars of materials collected produced only eight complete V-2s

23. Sergi Korolev
Preliminary efforts to reconstruct the V-2s for launch and experimentation by the Soviets were limited to the already existing facilities in Soviet controlled Germany to expedite the conversion program
Engine test facilities were organized by Glushko, guidance by Mishin, while Korolev spent time coordinating and organizing
His eternal interest in space flight rather than weaponry, in spite of being beaten and imprisoned for the same allegiance,  was reported in a conversation with German engineers
Korolev queried the German engineers for some time, then began discussing launch performance improvements that could lead to orbital flight, and to lunar missions

24. Sergi Korolev
After the first year of the V-2 assembly project, as many as 1,000 of the German collaborators and their families were shipped by car, truck, bus and train to Russia without prior notice
Before the transfer, a rail transport car for shipping as well as testing the V-2 missiles was built under contract with a German factory, with the capability of erecting the V-2 for launch
Under the auspices of simplifying V-2 missile testing in Russia, the transport car was in essence a mobile launcher
This seemingly trivial transportation device became a standard transport technique for later Russian military and civilian launch operations and is still used today

25. Rocket and Missile Reorganization

26. Sergi Korolev
In 1946, a new and larger rocket/missile design bureau was created by Stalin's directive to begin work on the Soviet's newest missile program
NII-88 replaced the RNII bureau located in Podlipki, near Moscow, and was staffed with a number of the RNII engineers
The German scientists and engineers that were brought form the Peenemunde and Nordhausen facilities were relocated to Podlipki
Ironically, the factory buildings used for the NII-88 facility were built by Germans in 1926

27. Director of the NII-88 facility was Yuri Pobedonostsev
Sergi Korolev
A separate decree established the Soviet's rocket and missile development program and assigned Dimitri Ustinov as director
Director of the NII-88 facility was Yuri Pobedonostsev
Glushko became design chief of OKB-456, the rocket engine plant
Korolev, originally head of a separate group, was assigned chief designer of OKB-1, the long-range missile facility

28. Sergi Korolev
A somewhat traditional separation of responsibilities to a number of design and production facilities by the Soviets was reflected in these assignments
This made simple operations complicated and complex operations nearly impossible
However, Korolev would play a major part in making the missile and rocket programs work by his organizational skills
He had no authority over the other branches, but he did have the respect of the design chiefs, at least until his success alienated a number of the directors including Glushko

29. Sergi Korolev
Russia's interest in creating longer range vehicles capable of carrying heavier payloads kept some of the German engineers and technicians in Russia for as much as six years
Intriguing design concepts for two-stage missiles, winged glider warheads, anti-ballistic missiles, and large engines capable of increasing the range and payload of the R-1 by a factor of 10, surfaced but were never accepted
An early design by one of the chief German engineers, Grottrup, was a dramatic improvement on the V-2 design - a model called the G-1

30. The last of the Germans returned to their homeland in 1954 (Harford)
Sergi Korolev
During 1947 and 1948, Korolev and the NII-88 staff began the R-2 program which was similar in concept to the G-1, and doubling the range and payload of the R-1
Little more came from the German team that related to rocket design, but significant contributions related to vehicle and operations testing, instrumentation and refurbishment of the V-2 did benefit the Russian missile programs
The last of the Germans returned to their homeland in 1954 (Harford)

31. Sergi Korolev
From the R-2, the Soviet design bureaus began planning more versatile and long-range missiles which included the R-3, R-5, R-9, R-10 and R-11, with Korolev managing much of the work from the R-3 onward
During Korolev's R-9 project development in 1960, a rival's R-16 with storable propellants was being built to compete for military missile production
The first test of the R-16 on October 24, 1960 was a pad-launch disaster when the fuel and oxidizer tanks ruptured, spilling fuming nitric acid and UDMH

32. Sergi Korolev
One hundred and sixty five workers, technicians, and managers perished, including  Marshal Mirrofan Nedelin, the head of the Soviet strategic forces who brought a chair to the launch for a close observation
Although the R-16 did have development problems, it was completed and deployed along with Korolev's R-9 in the mid 1960s

33. Sergi Korolev
Directives to build a long-range ballistic missile to reach the U.S. from Russia came in 1947 from Stalin directly to Korolev in a meeting in Moscow
Specific performance was not defined, just approximations for range and payload
Korolev's R-3 assignment in 1948 was followed by an assignment as chief designer of a new RII-88 department, OKB-1

34. Sergi Korolev
Success and failures of the R-3 were not unlike the other programs, but more demanding requirements and obligations  would cancel the R-3 project in 1952, although it represented the prototype that would be their first ICBM
Guidance and stability systems soon became much more accurate and reliable than the R-1 and R-2, and Glushko was improving his quad-cluster RD engines
The RD-110 was expected to produce 100 metric tons sometime in 1952 (Harford)

35. Sergi Korolev
Korolev’s R-5 missile was the first original Soviet missile design that required an increase in the level of performance, the level of complexity, and resulted in the number and magnitude of failures
Pressure to complete the R-5 and pursue Korolev's R-7 increased as Russia tested its first atomic bomb in 1952
Stalin and the Soviet military leadership demanded that the R-7 carry the nuclear warhead over the same 8,000 km distance established earlier
The 170 ton liftoff weight became 300 tons in order to accommodate the five ton nuclear warhead

36. R-7 Semiorka

37. His divorce earlier from Lyalya Near failures of the R-1 and R-2
Sergi Korolev
Other challenges faced Korolev during the R-2, R-3, R-5 and R-7 projects
His divorce earlier from Lyalya
Near failures of the R-1 and R-2
Technical complications with combustion chamber burn instabilities in Glushko's high-thrust engines
Demanding requirements for nuclear warhead capabilities for the R-7 that compounded production and organization problems
Very low budgets for his bureau

38. Sergi Korolev
Stalin's death in March 1953 had little effect on the Soviet commitment to produce the world's first ICBM
Nakita Kruschev who replaced Stalin was supportive of Korolev and his missile projects
But Korolev's greatest interest was in space launch and exploration, and the development of the R-7 missile gave him the capability of launching satellites into Earth orbit, and with added booster stages, of reaching the Moon and Mars

39. Sergi Korolev
Korolev's proposal to launch a satellite in orbit for the International Geophysical Year in 1957/1958 was accepted by Kruschev and the Politburo in 1956 and followed up by edict
After nearly a year of testing and preparation, the first launch attempt of the R-7 was made on 15 May, 1957 but failed 50 seconds after liftoff
Three subsequent launches were similar failures, placing pressure on Korolev and OKB-1 staff to show success in the R-7 ICBM and satellite launch projects because of the high cost of the programs

40. The first successful launch of the R-7 was on August 3, 1957
Sergi Korolev
The first successful launch of the R-7 was on August 3, 1957
The second launch on September 7th which was attended by Kruschev was also a success
These trials set the stage for the launch of the first orbiting satellite, but they would have far greater significance for the U.S. military

41. Sergi Korolev
Korolev's R-7 became a foundation for a wide variety of space launch vehicles that included the first manned missions in the Vostok and Voshkod manned flight vehicles, and the first lunar, Mars and Venus probes
Today the R-7 variant flys as the Soyuz, Progress, and Molynia launch vehicles 

42. Space Launches

43. Approval for Korolev's Sputnik launch on his R-7 was not unexpected
Sergi Korolev
Approval for Korolev's Sputnik launch on his R-7 was not unexpected
First, the Soviet Academy of Science specifically wanted an orbital satellite to pave the way for future research satellites, and an announcement of the intent to launch a satellite for the IGY in 1957/58 was planned for 1956
Second, Kruschev and the Politburo wanted the Sputnik satellite launch to prove Soviet technology superiority, plus it could provide a long list of propaganda pronouncements
Third, the expectation of future interplanetary exploration and manned flight required the development of this intermediate step in reaching space

44. Sergi Korolev
Plans for launching Sputnik in 1957 began long before the first successful flight of the R-7
Korolev had anticipated the dramatic launch of the world's first orbital satellite and the completion of the technology for a sophisticated 1,300 kg satellite capable of measuring the Earth's magnetic field and upper atmosphere, cosmic rays, and solar radiation
By the time the first successful R-7 missile was launched, the required components and integration was months away form completion

45. Sergi Korolev
Korolev and a close ally, Mstislav Keldysh (shown on the far right), appealed to the presidium of the Academy of Sciences to prod the other branches in their engineering and fabrication support
After a lukewarm response, Korolev himself reported to the presidium that America was on the verge of launching their own satellite and the commission quickly issued directives for completion of the project

46. Sergi Korolev
Korolev's intentions to launch his advanced satellite first that was known as Object D, later called Sputnik 3, required an alternative because of the delays caused by lacking support outside of OKB-1
In August 1957 it became clear that the original Sputnik slated for launch would be delayed several months
Korolev had preliminary plans for a simple Sputnik satellite (Prostreishiy Sputnik, “simple Sputnik”, contracted to PS) completed for a launch targeted for Tsiolovsky's birthday on September 17th

47. Sergi Korolev
After the Sputnik 1 launch and the overwhelming world-wide reaction, Korolev was asked to launch another package with even more international impact, within a month corresponding to the Russian Revolution celebration
Korolev began immediate preparaitons to launch an even more complex mission within a month
Already in progress were plans for a second satellite that would include a dog, and the original satellite planned for first launch, Sputnik 3

48. Sergi Korolev
After the Sputnik 1 launch and the overwhelming world-wide reaction, Korolev was asked to launch another package with even more international impact, within a month corresponding to the Russian Revolution celebration
Korolev began immediate preparaitons to launch an even more complex mission within a month
Already in progress were plans for a second satellite that would include a dog, and the original satellite planned for first launch, Sputnik 3

49. Lunar Missions

50. Sergi Korolev
Korolev’s next goal was to reach the Moon with the launch same R-7 vehicle used for Sputnik, an with the expertise of his and the other design bureaus
Korolev’s success came quickly with the first lunar mission launch Luna 1 just 14 months after Sputnik 1
Luna 2 was the first to impact the Moon, launched 6 months later in September 1959
Luna 3 launched just one month later was a sophisticated, guided photographic payload that was the first to send back pictures of the far side of the Moon

51. Korolev’s ultimate objective was to place cosmonauts on the Moon
Sergi Korolev
Korolev’s ultimate objective was to place cosmonauts on the Moon
Manned missions to Earth orbit were followed up with hardware designs for heavy-lift boosters, and crew and cargo vehicles
With competition from other designers, and mounting pressure to beat the Americans to the Moon with a limited budget, Korolev began testing the N-1 booster and the Soyuz lunar crew vehicle, but behind the pace of NASA’s Apollo program

52. Sergi Korolev
Major setbacks to Korolev’s manned lunar program were driven by Gllushcko’s refusal to provide propulsion engines for the huge N-1
Korolev’s death in January 1966 from a semmingly simple intestinal surgery doomed the Soviet manned lunar program
No one else had Korolev’s skills in dealing with the enormous Soviet bureaucracy
No one else had the organization skills to bring together the technologies and designers to build the complex lunar hardware
Korolev’s competetors that included Glushko and CHelomei were designing competing projects to get cosmonauts to the Moon

53. Sergi Korolev
Korolev's status as Chief Designer and architect of the Soviet's space successful program was unknown outside the inner Soviet government
His death afforded him recognition as one of the great Russian leaders
Not only did he have one of the very few private homes in Moscow (private ownership of property was not allowed in the socialist state), but his prestige allowed him to be buried in the Kremlin Wall
This distinction is limited to Russia's greatest heroes and leaders

54. The End