Project Vanguard

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Vanguard rocket on Pad LC-18A

Project Vanguard was a program managed by the United States Naval Research Laboratory (NRL), which intended to launch the first artificial satellite into Earth orbit using a Vanguard rocket[1] as the launch vehicle from Cape Canaveral Missile Annex, Florida.

In response to the surprise launch of Sputnik 1 on October 4, 1957, the U.S. restarted the Explorer program, which had been proposed earlier by the Army Ballistic Missile Agency (ABMA). Privately, however, the CIA and President Dwight D. Eisenhower were aware of progress being made by the Soviets on Sputnik from secret spy plane imagery.[2] Together with the Jet Propulsion Laboratory (JPL), ABMA built Explorer 1 and launched it on January 31, 1958. Before work was completed, however, the Soviet Union launched a second satellite, Sputnik 2, on November 3, 1957. Meanwhile, the spectacular televised failure of Vanguard TV3 on December 6, 1957 deepened American dismay over the country's position in the Space Race.

On March 17, 1958, Vanguard 1 became the second artificial satellite successfully placed in Earth orbit by the United States. It was the first solar-powered satellite. Just 152 mm (6 in) in diameter and weighing just 1.4 kg (3 lb), Vanguard 1 was described by then-Soviet Premier Nikita Khrushchev as, "The grapefruit satellite."[3]

Vanguard 1 is the oldest artificial satellite still in space, as Vanguard's predecessors, Sputnik 1, Sputnik 2, and Explorer 1, have decayed from orbit.

Project history[edit]

In the early 1950s, the American Rocket Society set up an ad hoc Committee on Space Flight, of which Milton W. Rosen, NRL project manager for the Viking rocket, became chair. Encouraged by conversations between Richard W. Porter of General Electric and Alan T. Waterman, Director of the National Science Foundation (NSF), Rosen on November 27, 1954 completed a report describing the potential value of launching an earth satellite. The report was submitted to the NSF early in 1955.[4] As part of planning for the International Geophysical Year (IGY) (1957–1958), the U.S. publicly undertook to place an artificial satellite with a scientific experiment into orbit around the Earth.

The three services' proposals[edit]

Proposals to do this were presented by the United States Air Force (USAF), the United States Army, and the United States Navy. The Army Ballistic Missile Agency (ABMA) under Dr. Wernher von Braun had suggested using a modified Redstone rocket (see: Juno I) while the Air Force had proposed using the Atlas rocket, which did not yet exist. The Navy proposed designing a rocket system based on the Viking and Aerobee rocket systems.

The Air Force proposal was not seriously considered, as Atlas development was years behind the other vehicles. Among other limitations, the Army submission focused on the vehicle, while a payload was assumed to become available from JPL, and the network of ground tracking stations was assumed to be a Navy project. Meanwhile, the NRL proposal detailed all three aspects of the mission.[5]

The Navy's project[edit]

In August 1955, the US DOD Committee on Special Capabilities chose the Navy's proposal as it appeared most likely, by spring 1958, to fulfill the following:[6]

  1. Place a satellite in orbit during the IGY.
  2. Accomplish a scientific experiment in orbit.
  3. Track the satellite and ensure its attainment of orbit.

Another consideration was that the Navy proposal used civilian sounding rockets rather than military missiles, which were considered inappropriate for peaceful scientific exploration. What went unstated at the time was that the U.S. already had a covert satellite program underway, WS-117, which was developing the ability to launch spy satellites using USAF Thor IRBMs. The US government was concerned that the Soviets would object to military satellites overflying the Soviet Union as they had to various aircraft incursions and the balloons of the Genetrix project. The idea was that if a clearly "civilian" and "scientific" satellite went up first, the Soviets might not object, and thus the precedent would be established that space was above national boundaries.

Designated Project Vanguard, the program was placed under Navy management and DoD monitorship. The Naval Research Laboratory (NRL) in Washington was given overall responsibility, while initial funding came from the National Science Foundation. The director was John P. Hagen (1908–1990), an astronomer who in 1958 would become the assistant director of space flight development with the formation of NASA.[7] The initial 1.4 kg spherical Vanguard satellites were built at the NRL, and contained as their payload seven mercury cell batteries in a hermetically sealed container, two tracking radio transmitters, a temperature sensitive crystal, and six clusters of solar cells on the surface of the sphere.[8]

NRL was also responsible for developing the Vanguard rocket launch vehicles through a contract to the Martin Company (which had built the Viking rockets), developing and installing the satellite tracking system, and designing, constructing, and testing the satellites. The tracking system was called Minitrack. The Minitrack stations, designed by NRL but subcontracted to the Army Corps of Engineers, were along a North-South line running along the east coast of North America and the west coast of South America. Minitrack was the forerunner of another NRL-developed system called NAVSPASUR, which remains operational today under the control of the Air Force and is a major producer of spacecraft tracking data.[9]

Sputnik and Explorer 1[edit]

Vanguard TV3 in previous display at the National Air and Space Museum.
Vanguard rocket explodes seconds after launch at Cape Canaveral (December 6, 1957).

The original schedule called for the TV3 to be launched during the month of September 1957, but because of delays this did not happen.[10] On October 4, 1957, the Vanguard team learned of the launch of Sputnik 1 by the USSR while still working on a test vehicle (TV-2) designed to test the first stage of their launcher rocket. At 11:45 AM on December 6, an attempt was made to launch TV-3. The Vanguard rocket rose about four feet (1.2 m) into the air when the engine lost thrust, and the rocket immediately sank back down to the launch pad and exploded. The payload nosecone detached and landed free of the exploding rocket, the small satellite's radio beacon still beeping. The failure was widely and creatively derided in the press, being called a 'kaputnik' in the "Daily Express", a 'flopnik' in the "Daily Herald", a 'puffnik' in the "Daily Mail" and a 'stayputnik' in the "News Chronicle".[11]

After the Soviet Union launched Sputnik 2, on November 3, 1957, then Secretary of Defense Neil H. McElroy directed the Army to use the Juno I and launch a satellite. On January 31, 1958, the US Army launched the Explorer 1 satellite. With the launch of Sputnik 1 & 2 the previous concern, of the right of satellite overflight, had become moot: those satellites were launched by an early version of the Soviet R-7 rocket, the basis of the USSR's early ICBMs, and definitely military, as well as roughly 40 times larger than the Vanguard launcher.

On March 17, 1958, the program successfully launched the Vanguard satellite TV-4. TV-4 achieved a stable orbit with an apogee of 3,969 kilometers (2466 mi) and a perigee of 650 kilometers (404 mi). It was estimated that it would remain in orbit for at least 240 years, and it was renamed Vanguard 1, which remains the oldest human-made satellite still in orbit.

In late 1958, with responsibility for Project Vanguard having been transferred to NASA, the nucleus of the Goddard Space Flight Center was formed. After the transfer, NRL rebuilt their spacecraft technology capability and have developed some 87 satellites over the past 40 years for the Navy, DoD and NASA. The program ended with the launch of Vanguard 3 in 1959.

Accomplishments[edit]

Despite being overshadowed by Sputnik, and having to overcome the widespread humiliation of its unsuccessful early attempts, the Vanguard Project eventually met its scientific objectives, providing a wealth of information on the size and shape of the Earth, air density, temperature ranges, and micrometeorite impact. The Vanguard 1 radio continued to transmit until 1964, and tracking data obtained with this satellite revealed that Earth is not quite a perfect sphere: it is slightly pear-shaped, elevated at the North Pole and flattened at the South Pole. It corrected ideas about the atmosphere's density at high altitudes and improved the accuracy of world maps. The Vanguard program was transferred to NASA when that agency was created in mid-1958.

The Vanguard "Satellite Launch Vehicle", a term invented for the operational SLV rockets as opposed to the Test Vehicle TV versions, was a much smaller and lighter launcher than the Redstone-based Jupiter-C/Juno 1 rocket which launched the Explorer satellites, or the immense R-7 that the Soviets used to launch the early Sputniks.

NRL space scientists say that the Vanguard 1 program introduced much of the technology that has since been applied in later U.S. satellite programs, from rocket launching to satellite tracking. For example, it validated in flight that solar cells could be used for several years to power radio transmitters. Vanguard's solar cells operated for about seven years, while conventional batteries used to power another on-board transmitter lasted only 20 days.

Although Vanguard's solar-powered "voice" became silent in 1964, it continues to serve the scientific community. Ground-based optical tracking of the now-inert Vanguards continues to provide information about the effects of the Sun, Moon and atmosphere on satellite orbits . Vanguard I marked its 50th year in space on March 17, 2008.[12] In the years following its launch, the small satellite has made more than 196,990 revolutions of the earth and traveled 5.7 billion nautical miles, the distance from Earth to beyond the dwarf planet Pluto and halfway back. Original estimates had the orbit lasting for 2000 years, but it was discovered that solar radiation pressure and atmospheric drag during high levels of solar activity produced significant perturbations in the perigee height of the satellite, which caused a significant decrease in its expected lifetime to only about 240 years.[13]

Launch history[edit]

Test vehicle launches

The first Vanguard flight, a successful suborbital test of the TV-0 single-stage vehicle, was launched on December 8, 1956. On May 1, 1957, the two-stage test vehicle TV-1 was successfully launched. Vanguard TV-2, another suborbital test, was launched October 23, 1957.

The Vanguard rocket launched three satellites out of eleven launch attempts:

  1. Vanguard TV3 - December 6, 1957 - Failed to orbit 1.36 kg (3 lb) satellite
  2. Vanguard TV3 Backup - February 5, 1958 - Failed to orbit 1.36 kg (3 lb) satellite
  3. Vanguard 1 - March 17, 1958 - Orbited 1.47 kg (3.25 lb) satellite
  4. Vanguard TV5 - April 28, 1958 - Failed to orbit 9.98 kg (22 lb) satellite
  5. Vanguard SLV 1 - May 27, 1958 - Failed to orbit 9.98 kg (22 lb) satellite
  6. Vanguard SLV 2 - June 26, 1958 - Failed to orbit 9.98 kg (22 lb) satellite
  7. Vanguard SLV 3 - September 26, 1958 - Failed to orbit 9.98 kg (22 lb) satellite
  8. Vanguard 2 - February 17, 1959 - Orbited 10.8 kg (23.7 lb) satellite
  9. Vanguard SLV 5 - April 13, 1959 - Failed to orbit 10.3 kg (22 lb 11 oz) satellite
  10. Vanguard SLV 6 - June 22, 1959 - Failed to orbit 10.3 kg (22 lb 11 oz) satellite
  11. Vanguard 3 - September 18, 1959 - Orbited 22.7 kg (50 lb) satellite

Notes[edit]

See also[edit]

References[edit]

  • Vanguard a History, Constance Green and Milton Lomask, NASA SP-4202, Government Printing Office, Washington D.C., 1970
  • Project Vanguard, Kurt Stehling, Doubleday & Company, Garden City, NY, 1961
  • Nova - Sputnik Declassified, Ref:Paul Dickson, Author - Sputnik: The Shock of the Century

External links[edit]