Vanguard 1: Difference between revisions
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'''Vanguard 1''' (Harvard designation: '''1958-Beta 2''',<ref name="US Space Objects Registry">{{cite web|title=U.S. Space Objects Registry|url=https://usspaceobjectsregistry.state.gov/Pages/Search.aspx|access-date=2009-06-25|url-status=dead|archive-url=https://web.archive.org/web/20131006073413/https://usspaceobjectsregistry.state.gov/Pages/Search.aspx|archive-date=2013-10-06}} {{PD-notice}}</ref> [[International Designator|COSPAR ID]]: '''1958-002B'''<ref name="Display">{{cite web|date=14 May 2020|title=Display: Vanguard 1 1958-002B|url=https://nssdc.gsfc.nasa.gov/nmc/spacecraft/display.action?id=1958-002B|access-date=1 February 2021|publisher=NASA}} {{PD-notice}}</ref>) is an American [[satellite]] that was the fourth artificial [[Geocentric orbit|Earth-orbiting]] satellite to be successfully launched, following [[Sputnik 1]], [[Sputnik 2]], and [[Explorer 1]]. It was launched 17 March 1958. Vanguard 1 was the first satellite to have [[solar power|solar electric power]].<ref name="NRL">{{cite web |url=http://code8100.nrl.navy.mil/about/heritage/vanguard.htm |title=Vanguard I The World's Oldest Satellite Still in Orbit |archive-url=https://web.archive.org/web/20150321054447/http://code8100.nrl.navy.mil/about/heritage/vanguard.htm |archive-date=2015-03-21|access-date=September 24, 2007}} {{PD-notice}}</ref> Although communications with the satellite were lost in 1964, it remains the oldest man-made object still in orbit, together with the upper stage of its launch vehicle.<ref name="Display"/> | '''Vanguard 1''' (Harvard designation: '''1958-Beta 2''',<ref name="US Space Objects Registry">{{cite web|title=U.S. Space Objects Registry|url=https://usspaceobjectsregistry.state.gov/Pages/Search.aspx|access-date=2009-06-25|url-status=dead|archive-url=https://web.archive.org/web/20131006073413/https://usspaceobjectsregistry.state.gov/Pages/Search.aspx|archive-date=2013-10-06}} {{PD-notice}}</ref> [[International Designator|COSPAR ID]]: '''1958-002B'''<ref name="Display">{{cite web|date=14 May 2020|title=Display: Vanguard 1 1958-002B|url=https://nssdc.gsfc.nasa.gov/nmc/spacecraft/display.action?id=1958-002B|access-date=1 February 2021|publisher=NASA|archive-date=13 December 2017|archive-url=https://web.archive.org/web/20171213061610/https://nssdc.gsfc.nasa.gov/nmc/spacecraftDisplay.do?id=1958-002B|url-status=dead}} {{PD-notice}}</ref>) is an American [[satellite]] that was the fourth artificial [[Geocentric orbit|Earth-orbiting]] satellite to be successfully launched, following [[Sputnik 1]], [[Sputnik 2]], and [[Explorer 1]]. It was launched 17 March 1958. Vanguard 1 was the first satellite to have [[solar power|solar electric power]].<ref name="NRL">{{cite web |url=http://code8100.nrl.navy.mil/about/heritage/vanguard.htm |title=Vanguard I The World's Oldest Satellite Still in Orbit |archive-url=https://web.archive.org/web/20150321054447/http://code8100.nrl.navy.mil/about/heritage/vanguard.htm |archive-date=2015-03-21|access-date=September 24, 2007}} {{PD-notice}}</ref> Although communications with the satellite were lost in 1964, it remains the oldest man-made object still in orbit, together with the upper stage of its launch vehicle.<ref name="Display"/> | ||
Vanguard 1 was designed to test the launch capabilities of a three-stage [[launch vehicle]] as a part of [[Project Vanguard]], and the effects of the [[space environment]] on a satellite and its systems in [[Earth]] orbit. It also was used to obtain [[geodesy|geodetic]] measurements through orbit analysis.<ref>{{cite journal |first1=J. A. |last1=O'Keefe |first2=Ann |last2=Eckeis |first3=R. K. |last3=Squires |year=1959 |title=Vanguard Measurements Give Pear-Shaped Component of Earth's Figure |url=https://www.science.org/doi/10.1126/science.129.3348.565 |journal=Science |volume=129 |doi=10.1126/science.129.3348.565 |pages=565–566 |issue=3348|url-access=subscription }}</ref> Vanguard 1, being small and light enough to carry with one hand, was described by the [[Soviet Premier]], [[Nikita Khrushchev]], as "the [[grapefruit]] satellite".<ref>{{cite web|url=http://code8200.nrl.navy.mil/vanguard.html|title=Vanguard I – The World's Oldest Satellite Still in Orbit|publisher=Spacecraft Engineering Department, U.S. Navy|url-status=dead|archive-url= https://web.archive.org/web/20080919152144/http://code8200.nrl.navy.mil/vanguard.html|archive-date=2008-09-19}} {{PD-notice}}</ref> | Vanguard 1 was designed to test the launch capabilities of a three-stage [[launch vehicle]] as a part of [[Project Vanguard]], and the effects of the [[space environment]] on a satellite and its systems in [[Earth]] orbit. It also was used to obtain [[geodesy|geodetic]] measurements through orbit analysis.<ref>{{cite journal |first1=J. A. |last1=O'Keefe |first2=Ann |last2=Eckeis |first3=R. K. |last3=Squires |year=1959 |title=Vanguard Measurements Give Pear-Shaped Component of Earth's Figure |url=https://www.science.org/doi/10.1126/science.129.3348.565 |journal=Science |volume=129 |doi=10.1126/science.129.3348.565 |pages=565–566 |issue=3348|url-access=subscription }}</ref> Vanguard 1, being small and light enough to carry with one hand, was described by the [[Soviet Premier]], [[Nikita Khrushchev]], as "the [[grapefruit]] satellite".<ref>{{cite web|url=http://code8200.nrl.navy.mil/vanguard.html|title=Vanguard I – The World's Oldest Satellite Still in Orbit|publisher=Spacecraft Engineering Department, U.S. Navy|url-status=dead|archive-url= https://web.archive.org/web/20080919152144/http://code8200.nrl.navy.mil/vanguard.html|archive-date=2008-09-19}} {{PD-notice}}</ref> | ||
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A 10 mW [[Mercury battery|mercury-battery]]-powered telemetry transmitter on the 108 MHz band used for [[International Geophysical Year]] (IGY) scientific satellites, and a 5 mW, 108.03 MHz [[Minitrack]] transmitter powered by six [[solar cell]]s were used as part of a radio phase-comparison angle-tracking system. The system transmitted signals through the satellite's six spring-loaded aluminum alloy aerials. Satellite tracking was achieved using these transmitters and Minitrack ground stations situated around the globe.<ref name="Experiment1"/> | A 10 mW [[Mercury battery|mercury-battery]]-powered telemetry transmitter on the 108 MHz band used for [[International Geophysical Year]] (IGY) scientific satellites, and a 5 mW, 108.03 MHz [[Minitrack]] transmitter powered by six [[solar cell]]s were used as part of a radio phase-comparison angle-tracking system. The system transmitted signals through the satellite's six spring-loaded aluminum alloy aerials. Satellite tracking was achieved using these transmitters and Minitrack ground stations situated around the globe.<ref name="Experiment1"/> | ||
These radio signals were used to determine the [[total electron content]] between the satellite and selected ground-receiving stations. The battery-powered transmitter provided internal package temperature for about 16 days and sent tracking signals for 20 days. The solar-cell-powered transmitter operated for more than six years. Signals gradually weakened and were last received at the [[Minitrack|Minitrack station]] in [[Quito]], [[Ecuador]], in May 1964. Since then the spacecraft has been tracked optically from Earth, via [[telescope]].<ref name="Experiment1">{{cite web|url=https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1958-002B-01|title=Radio Beacon|publisher=NASA|date=14 May 2020|access-date=1 February 2021}} {{PD-notice}}</ref> | These radio signals were used to determine the [[total electron content]] between the satellite and selected ground-receiving stations. The battery-powered transmitter provided internal package temperature for about 16 days and sent tracking signals for 20 days. The solar-cell-powered transmitter operated for more than six years. Signals gradually weakened and were last received at the [[Minitrack|Minitrack station]] in [[Quito]], [[Ecuador]], in May 1964. Since then the spacecraft has been tracked optically from Earth, via [[telescope]].<ref name="Experiment1">{{cite web|url=https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1958-002B-01|title=Radio Beacon|publisher=NASA|date=14 May 2020|access-date=1 February 2021|archive-date=6 February 2021|archive-url=https://web.archive.org/web/20210206102649/https://nssdc.gsfc.nasa.gov/nmc/experiment/display.action?id=1958-002B-01|url-status=dead}} {{PD-notice}}</ref> | ||
=== Design for atmospheric density measurements === | === Design for atmospheric density measurements === | ||
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A sphere would have a constant optical reflection, and constant [[Drag coefficient|coefficient of drag]], based on size alone, while a cone would have properties that varied with its orientation. [[James Van Allen]] of the [[University of Iowa]] proposed a cylindrical satellite based on his work with [[rockoon]]s, which became [[Explorer 1]], the first American satellite. The Naval Research Laboratory finally accepted a sphere with a {{cvt|16.5|cm}} of diameter as a "Test Vehicle", with a diameter of {{cvt|50.8|cm}} set for the follow-on satellites. The weight savings, from reduced size as well as decreased instrumentation in the early satellites, was considered to be acceptable. | A sphere would have a constant optical reflection, and constant [[Drag coefficient|coefficient of drag]], based on size alone, while a cone would have properties that varied with its orientation. [[James Van Allen]] of the [[University of Iowa]] proposed a cylindrical satellite based on his work with [[rockoon]]s, which became [[Explorer 1]], the first American satellite. The Naval Research Laboratory finally accepted a sphere with a {{cvt|16.5|cm}} of diameter as a "Test Vehicle", with a diameter of {{cvt|50.8|cm}} set for the follow-on satellites. The weight savings, from reduced size as well as decreased instrumentation in the early satellites, was considered to be acceptable. | ||
As Vanguard 1, [[Vanguard 2]], and [[Vanguard 3]] are still orbiting with their drag properties essentially unchanged, they form a baseline data set on the [[atmosphere of Earth]] that is over | As Vanguard 1, [[Vanguard 2]], and [[Vanguard 3]] are still orbiting with their drag properties essentially unchanged, they form a baseline data set on the [[atmosphere of Earth]] that is over 65 years old and continuing. | ||
== After the mission == | == After the mission == | ||
[[File:Vanguard 1 satellite sketch.png|thumb|upright=1.2|right|Vanguard 1 satellite sketch]] | [[File:Vanguard 1 satellite sketch.png|thumb|upright=1.2|right|Vanguard 1 satellite sketch]] | ||
After its scientific mission ended in 1964, Vanguard 1 became a [[:Category:Derelict satellites orbiting Earth|derelict]] [[space debris|object]] – as did the upper stage of the launch rocket, after it finished the [[delta-v]] maneuver to place Vanguard 1 in orbit in 1958. Both objects remain in orbit. Vanguard 1 was projected to remain aloft for up to 2,000 years, but solar radiation pressure and atmospheric drag perturbations during periods of high solar activity affected its perigee, reducing its lifetime, and now it is expected to burn up in the atmosphere | After its scientific mission ended in 1964, Vanguard 1 became a [[:Category:Derelict satellites orbiting Earth|derelict]] [[space debris|object]] – as did the upper stage of the launch rocket, after it finished the [[delta-v]] maneuver to place Vanguard 1 in orbit in 1958. Both objects remain in orbit. Vanguard 1 was projected to remain aloft for up to 2,000 years, but solar radiation pressure and atmospheric drag perturbations during periods of high solar activity affected its perigee, reducing its lifetime, and now it is expected to burn up in the atmosphere after about 240 years in orbit, sometime in the late 22nd century. As space travel becomes routine, and especially when its re-entry date draws near, some have suggested that the satellite might be retrieved as a valued artifact of early space exploration.<ref>{{cite web|title=Vanguard 1 is the oldest satellite orbiting Earth. Scientists want to bring it home after 67 years |first=Leonard |last=David |date=April 4, 2025 |url=https://www.space.com/space-exploration/launches-spacecraft/vanguard-1-is-the-oldest-satellite-orbiting-earth-scientists-want-to-bring-it-home-after-67-years |website=space.com|access-date=July 31, 2025}}</ref> | ||
=== 50th anniversary === | === 50th anniversary === | ||
The Vanguard 1 satellite and upper launch stage hold the record for being in space longer than any other human-made object,<ref>{{cite web|url=http://www.bbc.com/future/story/20171005-the-worlds-oldest-scientific-satellite-is-still-in-orbit|title=The world's oldest scientific satellite is still in orbit|first=Richard|last=Hollingham|publisher= BBC Future|date=2017-10-06|url-status=live|archive-url=https://web.archive.org/web/20171007230117/http://www.bbc.com/future/story/20171005-the-worlds-oldest-scientific-satellite-is-still-in-orbit|archive-date=2017-10-07}}</ref><ref name="Erickson2010">{{cite book|author=Lance K. Erickson|title=Space Flight: History, Technology, and Operations|url=https://books.google.com/books?id=dr6R51cqQ6IC&pg=PA60|year=2010|publisher=Rowman & Littlefield|isbn=978-0-86587-419-0|pages=60–}}</ref> and as such have traveled farther over the Earth's surface than any other human-made object.<ref>{{cite web|url=https://what-if.xkcd.com/86/|title=Far-Traveling Objects|website=what-if.xkcd.com|access-date=2019-05-16}}</ref> | The Vanguard 1 satellite and upper launch stage hold the record for being in space longer than any other human-made object,<ref>{{cite web|url=http://www.bbc.com/future/story/20171005-the-worlds-oldest-scientific-satellite-is-still-in-orbit|title=The world's oldest scientific satellite is still in orbit|first=Richard|last=Hollingham|publisher= BBC Future|date=2017-10-06|url-status=live|archive-url=https://web.archive.org/web/20171007230117/http://www.bbc.com/future/story/20171005-the-worlds-oldest-scientific-satellite-is-still-in-orbit|archive-date=2017-10-07}}</ref><ref name="Erickson2010">{{cite book|author=Lance K. Erickson|title=Space Flight: History, Technology, and Operations|url=https://books.google.com/books?id=dr6R51cqQ6IC&pg=PA60|year=2010|publisher=Rowman & Littlefield|isbn=978-0-86587-419-0|pages=60–}}</ref> and as such have traveled farther over the Earth's surface than any other human-made object.<ref>{{cite web|url=https://what-if.xkcd.com/86/|title=Far-Traveling Objects|website=what-if.xkcd.com|access-date=2019-05-16}}</ref> | ||
A small group of former [[United States Naval Research Laboratory|NRL]] and [[NASA]] workers had been in communication with one another, and a number of government agencies were asked to commemorate the event. The Naval Research Laboratory commemorated the event with a day-long meeting at NRL on 17 March 2008.<ref name="anniversary">{{cite web|url=http://www.eurekalert.org/pub_releases/2008-03/nrl-vic031308.php |title=Vanguard I celebrates 50 years in space|date=13 March 2008|work=EurekAlert!|url-status=live|archive-url=https://web.archive.org/web/20130605153254/http://www.eurekalert.org/pub_releases/2008-03/nrl-vic031308.php|archive-date=5 June 2013}}</ref> The meeting concluded with a simulation of the satellite's track as it passed into the orbital area visible from [[Washington, D.C.]], (where it is visible from the Earth's surface). The [[United States National Academy of Sciences|National Academy of Sciences]] scheduled seminars to mark the 50th anniversary of the [[International Geophysical Year]].<ref name="commemoration "> | A small group of former [[United States Naval Research Laboratory|NRL]] and [[NASA]] workers had been in communication with one another, and a number of government agencies were asked to commemorate the event. The Naval Research Laboratory commemorated the event with a day-long meeting at NRL on 17 March 2008.<ref name="anniversary">{{cite web|url=http://www.eurekalert.org/pub_releases/2008-03/nrl-vic031308.php |title=Vanguard I celebrates 50 years in space|date=13 March 2008|work=EurekAlert!|url-status=live|archive-url=https://web.archive.org/web/20130605153254/http://www.eurekalert.org/pub_releases/2008-03/nrl-vic031308.php|archive-date=5 June 2013}}</ref> The meeting concluded with a simulation of the satellite's track as it passed into the orbital area visible from [[Washington, D.C.]], (where it is visible from the Earth's surface). The [[United States National Academy of Sciences|National Academy of Sciences]] scheduled seminars to mark the 50th anniversary of the [[International Geophysical Year]].<ref name="commemoration ">{{cite web |title=Vanguard Approaches Half A Century In Space |url=https://spaceref.com/uncategorized/vanguard-approaches-half-a-century-in-space/ |website=SpaceRef Interactive |first=Keith |last=Cowing |date=November 4, 2007}}</ref> | ||
== See also == | == See also == | ||
Latest revision as of 23:51, 22 October 2025
Template:Short description Template:Use American English Template:Use dmy dates Template:Infobox spaceflight
Vanguard 1 (Harvard designation: 1958-Beta 2,[1] COSPAR ID: 1958-002B[2]) is an American satellite that was the fourth artificial Earth-orbiting satellite to be successfully launched, following Sputnik 1, Sputnik 2, and Explorer 1. It was launched 17 March 1958. Vanguard 1 was the first satellite to have solar electric power.[3] Although communications with the satellite were lost in 1964, it remains the oldest man-made object still in orbit, together with the upper stage of its launch vehicle.[2]
Vanguard 1 was designed to test the launch capabilities of a three-stage launch vehicle as a part of Project Vanguard, and the effects of the space environment on a satellite and its systems in Earth orbit. It also was used to obtain geodetic measurements through orbit analysis.[4] Vanguard 1, being small and light enough to carry with one hand, was described by the Soviet Premier, Nikita Khrushchev, as "the grapefruit satellite".[5]
Spacecraft design
The spacecraft is a Template:Cvt aluminum sphere Template:Convert in diameter, with antennas spanning Template:Convert. It contains a 10 mW, 108 MHz transmitter powered by a mercury battery and a 5 mW, 108.03 MHz transmitter that was powered by six solar cells mounted on the body of the satellite.[6] Six Template:Cvt long antennas, Template:Cvt diameter spring-actuated aluminum alloy aerials protrude from the sphere. The transmitters were used primarily for engineering and tracking data, but were also used to determine the total electron content between the satellite and the ground stations.[2]
A backup version of Vanguard 1 is on display at the Smithsonian National Air and Space Museum, Steven F. Udvar-Hazy Center in Chantilly, Virginia.[7]
Mission
On 17 March 1958, the three-stage launch vehicle placed Vanguard into a Template:Cvt, 134.27-minute elliptical orbit inclined at 34.25°. Original estimates had the orbit lasting for 2,000 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 about 240 years.[2] Vanguard 1 transmitted its signals for over six years as it orbited the Earth.[8]
Radio beacon
A 10 mW mercury-battery-powered telemetry transmitter on the 108 MHz band used for International Geophysical Year (IGY) scientific satellites, and a 5 mW, 108.03 MHz Minitrack transmitter powered by six solar cells were used as part of a radio phase-comparison angle-tracking system. The system transmitted signals through the satellite's six spring-loaded aluminum alloy aerials. Satellite tracking was achieved using these transmitters and Minitrack ground stations situated around the globe.[9]
These radio signals were used to determine the total electron content between the satellite and selected ground-receiving stations. The battery-powered transmitter provided internal package temperature for about 16 days and sent tracking signals for 20 days. The solar-cell-powered transmitter operated for more than six years. Signals gradually weakened and were last received at the Minitrack station in Quito, Ecuador, in May 1964. Since then the spacecraft has been tracked optically from Earth, via telescope.[9]
Design for atmospheric density measurements
Because of its symmetrical shape, Vanguard 1 was used by experimenters for determining upper atmospheric densities as a function of altitude, latitude, season, and solar activity. As the satellite continuously orbited, it would deviate from its predicted positions slightly, accumulating greater and greater shift due to drag of the residual atmosphere. By measuring the rate and timing of orbital shifts, together with the body's drag properties, the relevant atmosphere's parameters could be back-calculated. It was determined that atmospheric pressures, and thus drag and orbital decay, were higher than anticipated, since Earth's upper atmosphere does taper off into space gradually.[10]
This experiment was planned extensively prior to launch. Initial Naval Research Laboratory (NRL) proposals for the project included conical satellite bodies; this eliminated the need for a separate fairing and ejection mechanisms, and their associated weight and failure modes. Radio-tracking would gather data and establish a position. Early in the program, optical tracking (with a Baker-Nunn camera network and human spotters) was added. A panel of scientists proposed changing the design to spheres, at least Template:Cvt in diameter and hopefully Template:Cvt.
A sphere would have a constant optical reflection, and constant coefficient of drag, based on size alone, while a cone would have properties that varied with its orientation. James Van Allen of the University of Iowa proposed a cylindrical satellite based on his work with rockoons, which became Explorer 1, the first American satellite. The Naval Research Laboratory finally accepted a sphere with a Template:Cvt of diameter as a "Test Vehicle", with a diameter of Template:Cvt set for the follow-on satellites. The weight savings, from reduced size as well as decreased instrumentation in the early satellites, was considered to be acceptable.
As Vanguard 1, Vanguard 2, and Vanguard 3 are still orbiting with their drag properties essentially unchanged, they form a baseline data set on the atmosphere of Earth that is over 65 years old and continuing.
After the mission
After its scientific mission ended in 1964, Vanguard 1 became a derelict object – as did the upper stage of the launch rocket, after it finished the delta-v maneuver to place Vanguard 1 in orbit in 1958. Both objects remain in orbit. Vanguard 1 was projected to remain aloft for up to 2,000 years, but solar radiation pressure and atmospheric drag perturbations during periods of high solar activity affected its perigee, reducing its lifetime, and now it is expected to burn up in the atmosphere after about 240 years in orbit, sometime in the late 22nd century. As space travel becomes routine, and especially when its re-entry date draws near, some have suggested that the satellite might be retrieved as a valued artifact of early space exploration.[11]
50th anniversary
The Vanguard 1 satellite and upper launch stage hold the record for being in space longer than any other human-made object,[12][13] and as such have traveled farther over the Earth's surface than any other human-made object.[14]
A small group of former NRL and NASA workers had been in communication with one another, and a number of government agencies were asked to commemorate the event. The Naval Research Laboratory commemorated the event with a day-long meeting at NRL on 17 March 2008.[15] The meeting concluded with a simulation of the satellite's track as it passed into the orbital area visible from Washington, D.C., (where it is visible from the Earth's surface). The National Academy of Sciences scheduled seminars to mark the 50th anniversary of the International Geophysical Year.[16]
See also
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References
External links
- United States Space Program Progress 1958 discusses Vanguard 1 and other American space launches in 1958 at YouTube
Template:Project Vanguard Template:Orbital launches in 1958
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