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Pioneer 4
title Pioneer 4
date 03.03.1959
description Pioneer 4 was a spin stabilized spacecraft launched on a lunar flyby trajectory and into a heliocentric orbit making it the first US probe to escape from the Earth's gravity. It carried a payload similar to Pioneer 3: a lunar radiation environment experiment using a Geiger-Mueller tube detector and a lunar photography experiment. It passed within 60,000 km of the Moon's surface. However, Pioneer 4 did not come close enough to trigger the photoelectric sensor. No lunar radiation was detected. The spacecraft was still in solar orbit as of 1969. *Image Credit*: NASA
Dr. von Braun with Pioneer I …
Name of Image Dr. von Braun with Pioneer IV
Date of Image 1959-03-01
Full Description Dr. von Braun and engineers inspect two components of Pioneer IV satellite, the payload of the Juno II AM14, March 1, 1959. The mercury batteries (left) would be used to power the radio transmitter, cosmic radiation counter and other instruments in Pioneer IV. The conical shroud placed over instruments of Pioneer IV was plated with gold to improve conductivity. The metal surface also served as the anterna for the probe's instruments signaling back to the Earth receiving stations.
Pioneer 10: The First 7 Bill …
Title Pioneer 10: The First 7 Billion Miles
Explanation "Q:" What was made by humans and is 7.3 billion miles away? "A:" Pioneer 10 -- and 1997 was the 25th anniversary [ http://quest.arc.nasa.gov/pioneer10/ ] of its launch. Almost 11 light-hours distant, Pioneer 10 is presently [ http://spaceprojects.arc.nasa.gov/Space_Projects/pioneer/ PNStat.html ] about twice as far from the Sun as Pluto, and bound for interstellar space [ http://spaceprojects.arc.nasa.gov/Space_Projects/pioneer/ path.html ] at 28,000 miles per hour. The distinction of being the first human artifact to venture beyond the known planets [ http://heasarc.gsfc.nasa.gov/docs/cosmic/solar_system.html ] of the Solar System is just one in a long list of firsts for this spacefaring ambassador [ http://antwrp.gsfc.nasa.gov/apod/ap960630.html ], including, the first spacecraft to travel through the asteroid belt and explore the outer Solar System [ http://antwrp.gsfc.nasa.gov/apod/ap961214.html ], the first spacecraft to visit Jupiter [ http://ccf.arc.nasa.gov/galileo_probe/index.html ], and the first to use a planet's gravity to change [ http://www.jpl.nasa.gov/basics/bsf4-1.htm#gravity ] its course and to reach solar-system-escape velocity. Pioneer 10's mission [ http://quest.arc.nasa.gov/pioneer10/mission/ index.html ] is nearing an end. Now exploring the distant reaches of the heliosphere [ http://earth.agu.org/revgeophys/neugeb01/neugeb01.html ] it will soon run out of sufficient electrical power to operate science instruments. However, the 570 lb. spacecraft [ ftp://ftp.hq.nasa.gov/pub/pao/pressrel/1997/97-031.txt ] will continue to coast and in 300,000 years or so it will pass within about 3 light years of nearby star [ http://cassfos02.ucsd.edu/public/nearest.html ] Ross 248. Ross 248 is a faint red dwarf just over 10 light years distant in the constellation Taurus. (Note: In 1998 Voyager 1 [ http://vraptor.jpl.nasa.gov/voyager/voyager.html ], launched 5 years later but traveling faster than Pioneer 10, became humanity's most distant spacecraft.)
Pioneer 10: The First 6 Bill …
Title Pioneer 10: The First 6 Billion Miles
Explanation "Q:" What was made by humans and is 6.5 billion miles away? "A:" Pioneer 10 - and last year was the 25th anniversary of its launch [ http://quest.arc.nasa.gov/pioneer10/ ]. More than 9.5 light-hours distant, Pioneer 10 is presently [ http://spaceprojects.arc.nasa.gov/Space_Projects/pioneer/PNStat.html ] about twice as far from the Sun as Pluto [ http://antwrp.gsfc.nasa.gov/apod/ap970204.html ], bound for interstellar space at 28,000 miles per hour. The distinction of being the first human artifact to venture beyond the Solar System [ http://spaceprojects.arc.nasa.gov/Space_Projects/pioneer/path.html ] is just one in a long list of firsts for this spacefaring ambassador [ http://antwrp.gsfc.nasa.gov/apod/ap960630.html ], including, the first spacecraft to travel through the asteroid belt and explore the outer Solar System [ http://antwrp.gsfc.nasa.gov/apod/ap961214.html ], the first spacecraft to visit Jupiter [ http://ccf.arc.nasa.gov/galileo_probe/index.html ], the first to use a planet's gravity to change its course and to reach solar-system-escape velocity, and the first spacecraft to pass beyond the known planets. Pioneer 10's mission is nearing an end [ http://quest.arc.nasa.gov/pioneer10/mission/index.html ] - now exploring the distant reaches of the heliosphere [ http://earth.agu.org/revgeophys/neugeb01/neugeb01.html ] it will soon run out of sufficient electrical power to operate science instruments. However, the 570 lb. spacecraft will continue to coast [ ftp://ftp.hq.nasa.gov/pub/pao/pressrel/1997/97-031.txt ] and in 30,000 years or so it will pass within about 3 light years of a nearby star [ http://antwrp.gsfc.nasa.gov/apod/ap961019.html ] known as Ross 248. Ross 248 is a faint red dwarf just over 10 light years distant in the constellation Taurus. (Note: This year Voyager 1 [ http://vraptor.jpl.nasa.gov/voyager/voyager.html ], launched 21 years ago but traveling faster than Pioneer 10, became humanity's most distant spacecraft.)
Pioneer 10 Trajectory
Title Pioneer 10 Trajectory
Full Description This image, drawn in 1970, is an artist's rendering of the Pioneer 10 spacecraft trajectory, with the planets labeled and a list of the instruments that were intended to be flown. Before the use of computer animation, artists were hired by JPL and NASA to depict a spacecraft in flight, for use as a visual aid to promote the project during development. Pioneer 10 was managed by NASA Ames Research Center in Moffett Field, California. The Pioneer F spacecraft, as it was known before launch, was designed and built by TRW Systems Group, Inc. JPL developed three instruments that flew on the spacecraft: Magnetic Fields, S-Band Occultation, and Celestial Mechanics, as well as running the Deep Space Network which provided tracking and data system support. Caltech was responsible for the Jovian Infrared Thermal Structure experiment. Pioneer was very successful, crossing the orbit of Mars and the asteroid belt beyond it, encountering, studying, and photographing Jupiter, then crossing the orbits of Saturn, Uranus, and Neptune. It left the solar system in 1983 and has been contacted several times in the past few years. As of July 2001, the spacecraft was still able to send a return signal to Earth. At Jupiter, the experiments of Pioneer were used to examine the environmental and atmospheric characteristics of the giant planet. Pioneer was also the vital precursor to all future flights to the outer solar system. It determined that a spacecraft could safely fly through the asteroid belt. It also measured the intensity of Jupiter's radiation belt so that NASA could design future Jupiter (and other outer planets) orbiters.
Date 03/07/1972
NASA Center Jet Propulsion Laboratory
Pioneer 11 Image of Saturn a …
Title Pioneer 11 Image of Saturn and its Moon Titan
Full Description NASA's Pioneer 11 image of Saturn and its moon Titan at the upper left. The irregularities in ring silhouette and shadow are due to technical anomalies in the preliminary data later corrected. Looking at the rings from left to right, the ring area begins with the outer A ring, the Encke Division, the inner A Ring, Cassini Division, the B Ring, the C Ring, and the innermost area where the D Ring would be. The image was made by Pioneer Saturn on Wednesday, August 26, 1979, and received on Earth at 3:19 pm PDT. Pioneer was, at that time, 2,846,000 kilometers (1,768,422 miles) from Saturn. The image was produced by computer at the University of Arizona and managed by NASA's Ames Research Center.
Date 08/31/1979
NASA Center Ames Research Center
Pioneer Launch on Delta Vehi …
Title Pioneer Launch on Delta Vehicle
Full Description NASA launches the last in the series of interplanetary Pioneer spacecraft, Pioneer 10 from Cape Kennedy, Florida. The long-tank Delta launch vehicle placed the spacecraft in a solar orbit along the path of Earth's orbit. The spacecraft then passed inside and outside Earth's orbit, alternately speeding up and slowing down relative to Earth. The Delta launch vehicle family started development in 1959. The Delta was composed of parts from the Thor, an intermediate-range ballistic missile, as its first stage, and the Vanguard as its second. The first Delta was launched from Cape Canaveral on May 13, 1960 and was powerful enough to deliver a 100-pound spacecraft into geostationary transfer orbit. Delta has been used to launch civil, commercial, and military satellites into orbit. For more information about Delta, please see Chapter 3 in Roger Launius and Dennis Jenkins' book To Reach the High Frontier published by The University Press of Kentucky in 2002.
Date 08/22/1969
NASA Center Kennedy Space Center
Pioneer F Plaque Location
Title Pioneer F Plaque Location
Full Description The Pioneer F spacecraft, destined to be the first man made object to escape from the solar system into interstellar space, carries this pictorial plaque. It is designed to show scientifically educated inhabitants of some other star system, who might intercept it millions of years from now, when Pioneer was launched, from where, and by what kind of beings. (Hopefully, any aliens reading the plaque will not use this knowledge to immediately invade Earth.) The design is etched into a 6 inch by 9 inch gold-anodized aluminum plate, attached to the spacecraft's attenna support struts in a position to help shield it from erosion by interstellar dust. The radiating lines at left represents the positions of 14 pulsars, a cosmic source of radio energy, arranged to indicate our sun as the home star of our civilization. The "1-" symbols at the ends of the lines are binary numbers that represent the frequencies of these pulsars at the time of launch of Pioneer F relative of that to the hydrogen atom shown at the upper left with a "1" unity symbol. The hydrogen atom is thus used as a "universal clock," and the regular decrease in the frequencies of the pulsars will enable another civilization to determine the time that has elapsed since Pioneer F was launched. The hydrogen is also used as a "universal yardstick" for sizing the human figures and outline of the spacecraft shown on the right. The hydrogen wavelength, about 8 inches, multiplied by the binary number representing "8" shown next to the woman gives her height, 64 inches. The figures represent the type of creature that created Pioneer. The man's hand is raised in a gesture of good will. Across the bottom are the planets, ranging outward from the Sun, with the spacecraft trajectory arching away from Earth, passing Mars, and swinging by Jupiter.
Date 02/25/1972
NASA Center Headquarters
Pioneer F Plaque Symbology
Title Pioneer F Plaque Symbology
Full Description The Pioneer F spacecraft, destined to be the first man made object to escape from the solar system into interstellar space, carries this pictorial plaque. It is designed to show scientifically educated inhabitants of some other star system, who might intercept it millions of years from now, when Pioneer was launched, from where, and by what kind of beings. (With the hope that they would not invade Earth.) The design is etched into a 6 inch by 9 inch gold-anodized aluminum plate, attached to the spacecraft's attenna support struts in a position to help shield it from erosion by interstellar dust. The radiating lines at left represents the positions of 14 pulsars, a cosmic source of radio energy, arranged to indicate our sun as the home star of our civilization. The "1-" symbols at the ends of the lines are binary numbers that represent the frequencies of these pulsars at the time of launch of Pioneer F relative of that to the hydrogen atom shown at the upper left with a "1" unity symbol. The hydrogen atom is thus used as a "universal clock," and the regular decrease in the frequencies of the pulsars will enable another civilization to determine the time that has elapsed since Pioneer F was launched. The hydrogen is also used as a "universal yardstick" for sizing the human figures and outline of the spacecraft shown on the right. The hydrogen wavelength, about 8 inches, multiplied by the binary number representing "8" shown next to the woman gives her height, 64 inches. The figures represent the type of creature that created Pioneer. The man's hand is raised in a gesture of good will. Across the bottom are the planets, ranging outward from the Sun, with the spacecraft trajectory arching away from Earth, passing Mars, and swinging by Jupiter.
Date 02/25/1972
NASA Center Headquarters
Pioneer 1
title Pioneer 1
date 10.11.1958
description Pioneer 1, the second and most successful of three project Able space probes and the first spacecraft launched by the newly formed NASA, was intended to study the ionizing radiation, cosmic rays, magnetic fields, and micrometeorites in the vicinity of the Earth and in lunar orbit. Due to a launch vehicle malfunction, the spacecraft attained only a ballistic trajectory and never reached the Moon. It did return data on the near-Earth space environment. *Image Credit*: NASA
Dr. von Braun and Dr. Debus …
Name of Image Dr. von Braun and Dr. Debus With Pioneer IV Components
Date of Image 1959-03-01
Full Description In this photo, Director of the U.S. Army Ballistic Missile Agency's (ABMA) Development Operations Division, Dr. Wernher von Braun, and Director of Missile Firing Division, Dr. Kurt Debus, are shown with unidentified individuals, discussing two components that would make up the Pioneer IV Lunar Probe. The mercury batteries (left) were used to power the radio transmitter, cosmic radiation counter and other instruments in Pioneer IV. The conical shroud placed over the instruments of Pioneer IV was plated with gold to improve conductivity. The metal surface also served as the anterna for the probe's instruments signaling back to the Earth receiving stations.
Pioneer III Probe
Title Pioneer III Probe
Full Description Looking more like surgeons, these technicians wearing "cleanroom" attire inspect the Pioneer III probe before shipping it to Cape Canaveral, Florida. Pioneer III was launched on December 6, 1958 aboard a Juno II rocket at the Atlantic Missile Range, Cape Canaveral, Florida. The mission objectives were to measure the radiation intensity of the Van Allen radiation belt, test long range communication systems, the launch vehicle and other subsystems. The Juno II failed to reach proper orbital escape velocity. The probe re-entered the Earth's atmosphere on December 7th ending its brief mission.
Date 01/01/1961
NASA Center Jet Propulsion Laboratory
Pioneer 6
title Pioneer 6
date 12.16.1965
description Pioneer 6 was the first in a series of solar-orbiting, spin-stabilized, solar-cell and battery-powered satellites designed to obtain measurements on a continuing basis of interplanetary phenomena from widely separated points in space. Its experiments studied the positive ions and electrons in the solar wind, the interplanetary electron density (radio propagation experiment), solar and galactic cosmic rays, and the interplanetary magnetic field. Its main antenna was a high-gain directional antenna. The spacecraft was spin-stabilized at about 60 rpm, and the spin axis was perpendicular to the ecliptic plane and pointed toward the south ecliptic pole. By ground command, one of five bit rates, one of four data formats, and one of four operating modes could be selected. The five bit rates were 512, 256, 64, 16, and 8 bps. Three of the four data formats contained primarily scientific data and consisted of 32 seven-bit words per frame. One scientific data format was for use at the two highest bit rates. Another was for use at the three lowest bit rates. The third contained data from only the radio propagation experiment. The fourth data format contained mainly engineering data. The four operating modes were real time, telemetry store, duty cycle store, and memory readout. In the real-time mode, data were sampled and transmitted directly (without storage) as specified by the data format and bit rate selected. In the telemetry store mode, data were stored and transmitted simultaneously in the format and at the bit rate selected. In the duty-cycle store mode, a single frame of scientific data was collected and stored at a rate of 512 bps. The time interval between the collection and storage of successive frames could be varied by ground command between 2 and 17 min to provide partial data coverage for periods up to 19 h, as limited by the bit storage capacity. In the memory readout mode, data were read out at whatever bit rate was appropriate to the satellite distance from the earth. Although the spacecraft has not been regularly tracked for science data return in recent years, a successful telemetry contact was made on 8 Dec. 2000 to celebrate 35 years of continuous operation since launch. *Image Credit*: NASA
High Above
On March 7, 1947, not long a …
3/6/09
Description On March 7, 1947, not long after the end of World War II and years before Sputnik ushered in the space age, a group of soldiers and scientists in the New Mexico desert saw something new and wonderful in these grainy black-and-white-photos -- the first pictures of Earth as seen from altitude greater than 100 miles in space. Just the year before in 1946, scientists like John T. Mengel, a NASA pioneer who later oversaw the Vanguard Program, began experimenting with captured German V-2 rockets. Mengel conducted upper atmosphere experiments by launching the rockets into near-earth orbit. He designed and fabricated the first research nose shell to replace of the V-2 warhead and began placing cameras in the nose shell. Before the Small Steps Program began in 1946 using V-2 rockets to take images from space, the highest pictures ever taken of the Earth's surface were from the Explorer II balloon, which ascended 13.7 miles in 1935, high enough to discern the curvature of the Earth. The V-2 cameras reached more than five times that altitude and clearly showed the planet set against the blackness of space. When the movie frames were stitched together, the panoramas taken in the late 1940s covered a million square miles or more at a single glance. Image Credit: Johns Hopkins Applied Physics Laboratory
Date 3/6/09
AC86-0038-1
Photographer: N/A Pioneer Ga …
1/17/86
Description Photographer: N/A Pioneer Galileo mission trajectory artwork depicting radio signal from Earth to spacecraft to planet and comet crossing spacecrafts' orbit
Date 1/17/86
Project Red Socks
title Project Red Socks
date 10.01.1957
description Project RED SOCKS was to be "the world's first useful moon rocket," proposed by the Jet Propulsion Laboratory/California Institute of Technology in October 1957. These artist's renditions show the configuration of motors and a diagram of the moon orbit. RED SOCKS was to respond to the Sputnik launch challenge with a significant technological advance over the Soviet Union instead of merely matching them with another earth-orbiting satellite. The objectives of the project were to "1) get photos, 2) refine space guidance techniques, and 3) impress the world" with a series of nine rocket flights to the moon. The second of the nine flights was to take pictures of the back of the moon. The necessary technology had already been developed for earlier projects, such as the Re-entry Test Vehicle and the Microlock radio ground tracking system. Project RED SOCKS received no support in Washington. In December 1957, JPL and the Army Ballistic Missile Agency (ABMA) were instead asked to orbit an Earth satellite. Explorer 1 was launched 81 days later, on January 29, 1958. A modified RED SOCKS plan was carried out in the Pioneer 4 project in March 1959. *Image Credit*: NASA Jet Propulsion Laboratory
Early Voyager 1 Images of Ju …
PIA00454
Sol (our sun)
Imaging Science Subsystem - …
Title Early Voyager 1 Images of Jupiter
Original Caption Released with Image These Jupiter photographs are part of a set taken by Voyager 1 on December 10 and 11, 1978 from a distance of 83 million km (52 million miles) or more than half the distance from the Earth to the sun. At this range, Voyager 1 is able to record more detail on the giant planet than the very best ground-based telescopes. The highest resolution ever obtained on the Jovian disk was recorded by Pioneer 11 four years ago. Voyager, however, has longer focal-length optics than Pioneer, and while nearly three months from encounter (~ March 1979) was able to achieve higher resolution than that obtained by Pioneer only 24 hours from its encounter on 3 December 1974. Jupiter's colorful and turbulent atmosphere is evident in these photographs. The entire visible surface of the planet is made up of multiple layers of clouds, composed primarily of ammonia ice crystals colored by small amounts of materials of unknown composition. The Great Red Spot, seen to the lower left of 2 and lower right of 3, is now recovering from a period of relative inconspicuousness. An atmospheric system larger than the Earth and more than 100 years old, the Great Red Spot remains a mystery and a challenge to Voyager instruments. A bright convective cloud (center of and right of center in 4) displays a plume which has been swept westward (to the left) by local currents in the planet's equatorial wind system. Below and to the left and right of the Great Red Spot are a pair of white oval clouds, a third can be seen in 1. All three were formed almost 40 years ago and are the second oldest class of discrete features identified in the Jovian atmosphere. Each of the pictures was produced from blue, green, and orange originals in JPL's Image Processing Laboratory.
A Solar System Portrait
Title A Solar System Portrait
Explanation As the Voyager 1 spacecraft [ http://vraptor.jpl.nasa.gov/voyager/vgrfaqs.html ] headed out of our Solar System [ http://antwrp.gsfc.nasa.gov/apod/ap980517.html ], it looked back and took a parting family portrait [ http://nssdc.gsfc.nasa.gov/photo_gallery/photogallery-solarsystem.html ] of the Sun [ http://www.seds.org/nineplanets/nineplanets/sol.html ] and planets. From beyond Pluto [ http://antwrp.gsfc.nasa.gov/apod/ap990213.html ], our Solar System looks like a bright star surrounded by faint dots. In the above picture [ http://photojournal.jpl.nasa.gov/cgi-bin/PIAGenCatalogPage.pl?PIA00451 ], the Sun is so bright it is blocked out for contrast. The innermost dots visible, labeled E and V for Earth [ http://antwrp.gsfc.nasa.gov/apod/ap990131.html ] and Venus [ http://www.nasm.edu/ceps/RPIF/VENUS/rpifvenus.html ], are particularly hard to discern. Gas giants Jupiter [ http://www.jpl.nasa.gov/galileo/Jovian.html ] (J) and Saturn [ http://www.seds.org/nineplanets/nineplanets/saturn.html ] (S) are much more noticeable. The outermost planets visible are Uranus [ http://www.hawastsoc.org/solar/eng/uranus.htm ] (U) and Neptune [ http://antwrp.gsfc.nasa.gov/apod/ap980221.html ] (N). Each planet is shown labeled and digitally enhanced in an inset image. Voyager 1 is only one of four human-made objects to leave our Solar System, the other three being Voyager 2, and Pioneer 10 and Pioneer 11.
Saturn's Magnetosphere
Description Saturn's Magnetosphere
Full Description The magnetosphere is an area of space, around a planet, that is controlled by that planet's magnetic field. Saturn is surrounded by a giant magnetic field, lined up with the rotation axis of the planet. This cannot be explained by current theories. Cassini may explain how the puzzling magnetic field of Saturn is generated. This magnetic field may also cause strange features in the rings called 'spokes'. These markings fall across the rings like spokes in a wheel and may be caused by electrically charged particles caught up in the magnetic field, but there are as yet no detailed theories about them. The brief reconnaissance encounters of the Pioneer 11 and the two Voyager spacecraft have provided most of our current information about the structure and dynamics of Saturn's magnetosphere. Here are some things that we do know: * Saturn's 'bow shock', the region point where the solar wind and the planet's magnetic field meet, much like the bow wave of a ship, is between 20 and 35 times Saturn's radius out into space. * The thickness of the bow shock is about 2000 kilometres. * Saturn's internal magnetic field is closely aligned with the planet's axis of rotation (within 1 degree). Saturn's magnetosphere appears to be intermediate in nature to those of Earth and Jupiter. As with Jupiter's magnetosphere, the dayside inner magnetosphere is mostly driven by the fast planetary rotation. However at night, it is expected that the nightside and outer magnetosphere is primarily driven by the solar wind, as is the case on Earth. * There is an electrical current (the 'equatorial ring current') flowing with about 10 000 000 Amps around 600 000 kilometres above Saturn. * Saturn Kilometric Radiation (SKR) is the principal radio emission from Saturn. SKR is believed to be linked to the way electrons in the solar wind interact with the magnetic field at Saturn's poles. Click here for a high resolution version. *Credit:* ESA
Date June 2, 2004
Saturn's Magnetosphere
Description Saturn's Magnetosphere
Full Description The magnetosphere is an area of space, around a planet, that is controlled by that planet's magnetic field. Saturn is surrounded by a giant magnetic field, lined up with the rotation axis of the planet. This cannot be explained by current theories. Cassini may explain how the puzzling magnetic field of Saturn is generated. This magnetic field may also cause strange features in the rings called 'spokes'. These markings fall across the rings like spokes in a wheel and may be caused by electrically charged particles caught up in the magnetic field, but there are as yet no detailed theories about them. The brief reconnaissance encounters of the Pioneer 11 and the two Voyager spacecraft have provided most of our current information about the structure and dynamics of Saturn's magnetosphere. Here are some things that we do know: * Saturn's 'bow shock', the region point where the solar wind and the planet's magnetic field meet, much like the bow wave of a ship, is between 20 and 35 times Saturn's radius out into space. * The thickness of the bow shock is about 2000 kilometres. * Saturn's internal magnetic field is closely aligned with the planet's axis of rotation (within 1 degree). Saturn's magnetosphere appears to be intermediate in nature to those of Earth and Jupiter. As with Jupiter's magnetosphere, the dayside inner magnetosphere is mostly driven by the fast planetary rotation. However at night, it is expected that the nightside and outer magnetosphere is primarily driven by the solar wind, as is the case on Earth. * There is an electrical current (the 'equatorial ring current') flowing with about 10 000 000 Amps around 600 000 kilometres above Saturn. * Saturn Kilometric Radiation (SKR) is the principal radio emission from Saturn. SKR is believed to be linked to the way electrons in the solar wind interact with the magnetic field at Saturn's poles. Click here for a high resolution version. *Credit:* ESA
Date June 2, 2004
Mercury-Atlas Test Launch
Title Mercury-Atlas Test Launch
Full Description A NASA Project Mercury spacecraft was test launched at 11:15 AM EST on April 25, 1961 from Cape Canaveral, Florida, in a test designed to qualify the Mercury Spacecraft and all systems, which must function during orbit and reentry from orbit. The Mercury-Atlas vehicle was destroyed by Range Safety Officer about 40 seconds after liftoff. The spacecraft was recovered and appeared to be in good condition. Atlas was designed to launch payloads into low Earth orbit, geosynchronous transfer orbit or geosynchronous orbit. NASA first launched Atlas as a space launch vehicle in 1958. Project SCORE, the first communications satellite that transmitted President Eisenhower's pre-recorded Christmas speech around the world, was launched on an Atlas. For all three robotic lunar exploration programs, Atlas was used. Atlas/ Centaur vehicles launched both Mariner and Pioneer planetary probes. The current operational Atlas II family has a 100% mission success rating. For more information about Atlas, please see Chapter 2 in Roger Launius and Dennis Jenkins' book To Reach the High Frontier published by The University Press of Kentucky in 2002.
Date 04/25/1961
NASA Center Kennedy Space Center
First Mercury-Atlas Attempte …
Title First Mercury-Atlas Attempted Launch
Full Description An Atlas vehicle is shown as it is raised into its launch gantry. This Atlas attempted to launch a Mercury spacecraft (without any astronauts aboard) into orbital flight. The launch vehicle developed 360,000 pounds of thrust and burned RP-1, a kerosene-like fuel, and liquid oxygen. It was about 60 feet in length and 10 feet in diameter at the tank section. This was the first attempt by NASA to put a Mercury spacecraft into Earth orbit. Unfortunately, this Atlas exploded at launch. Atlas was designed to launch payloads into low Earth orbit, geosynchronous transfer orbit or geosynchronous orbit. NASA first launched Atlas as a space launch vehicle in 1958. Project SCORE, the first communications satellite that transmitted President Eisenhower's pre-recorded Christmas speech around the world, was launched on an Atlas. For all three robotic lunar exploration programs, Atlas was used. Atlas/ Centaur vehicles launched Mariner and Pioneer planetary probes. The current operational Atlas II family has a 100% mission success rating. For more information about Atlas, please see Chapter 2 in Roger Launius and Dennis Jenkins' book To Reach the High Frontier published by The University Press of Kentucky in 2002.
Date 04/23/1961
NASA Center Headquarters
Unloading Atlas Launch Vehic …
Title Unloading Atlas Launch Vehicle
Full Description The Atlas launch vehicle is shown being unloaded at Cape Canaveral, Florida. This vehicle was expected to launch a Mercury spacecraft (without any astronauts aboard), built by McDonnell Aircraft Corp., into orbit. The Atlas attempted to place the Mercury spacecraft into its first orbital flight. The spacecraft was supposed to be launched in an orbital flight path and reentry was to be initiated about 90 minutes later as the craft neared the end of the first orbit. Unfortunately, this Atlas exploded at launch. Atlas was designed to launch payloads into low Earth orbit, geosynchronous transfer orbit or geosynchronous orbit. NASA first launched Atlas as a space launch vehicle in 1958. Project SCORE, the first communications satellite that transmitted President Eisenhower's pre-recorded Christmas speech around the world, was launched on an Atlas. For all three robotic lunar exploration programs, Atlas was used. Atlas/ Centaur vehicles launched both Mariner and Pioneer planetary probes. The current operational Atlas II family has a 100% mission success rating. For more information about Atlas, please see Chapter 2 in Roger Launius and Dennis Jenkins' book To Reach the High Frontier published by The University Press of Kentucky in 2002.
Date 04/23/1961
NASA Center Kennedy Space Center
Launch of Mercury-Atlas
Title Launch of Mercury-Atlas
Full Description In this Project Mercury test, a spacecraft booster by a modified Atlas was launched from Cape Canaveral, Florida. The Mercury capsule reached a peak altitude of 107 statute miles and landed 1.425 miles down range. Atlas was designed to launch payloads into low Earth orbit, geosynchronous transfer orbit or geosynchronous orbit. NASA first launched Atlas as a space launch vehicle in 1958. Project SCORE, the first communications satellite that transmitted President Eisenhower's pre-recorded Christmas speech around the world, was launched on an Atlas. For all three robotic lunar exploration programs, Atlas was used. Atlas/ Centaur vehicles launched both Mariner and Pioneer planetary probes. The current operational Atlas II family has a 100% mission success rating. For more information about Atlas, please see Chapter 2 in Roger Launius and Dennis Jenkins' book To Reach the High Frontier published by The University Press of Kentucky in 2002 (in which Dennis Jenkins notes on page 98 that "as a space launch vehicle there is no question that Atlas has made a mark for itself, and a great deal of money for its manufacturers").
Date 02/21/1961
NASA Center Kennedy Space Center
Venus Hemispherical Globes
PIA03151
Sol (our sun)
Arecibo Radar Data, Imaging …
Title Venus Hemispherical Globes
Original Caption Released with Image The images used for the base of this globe show the northern and southern hemispheres of Venus as revealed by more than a decade of radar investigations culminating in the 1990-1994 Magellan mission. The Magellan spacecraft imaged more than 98% of Venus at a resolution of about 100 meters, the effective resolution of these images is about 3 kilometers. A mosaic of the Magellan images (most with illumination from the west) forms the image base. Gaps in the Magellan coverage were filled with images from Soviet Venera 15 and 16 spacecraft in the northern quarter of the planet, with images from the Earth-based Arecibo radar in a region centered roughly on 0 degrees latitude and 0 degrees longitude, and with a neutral tone elsewhere (primarily near the south pole). The composite image was processed to improve contrast and to emphasize small features and was color-coded to represent elevation. Gaps in the elevation data from the Magellan radar altimeter were filled with altimetry from the Venera spacecraft and the U.S. Pioneer Venus missions. The images are presented in a projection that portrays the entire surface of Venus in a manner suitable for the production of a globe. A specialized program was used to create the "flower petal" appearance of the images, the area of each petal from 0 to 75 degrees latitude is in the Transverse Mercator projection, and the area from 75 to 90 degrees latitude is in the Lambert Azimuthal Equal-Area projection. The projections for adjacent petals overlap by 2 degrees of longitude, so that some features are shown twice. (See PIA03167 [ http://photojournal.jpl.nasa.gov/catalog/PIA03167 ] for the image with place names.)
Venus Hemispherical Globes ( …
PIA03167
Sol (our sun)
Arecibo Radar Data, Imaging …
Title Venus Hemispherical Globes (with place names)
Original Caption Released with Image The images used for the base of this globe show the northern and southern hemispheres of Venus as revealed by more than a decade of radar investigations culminating in the 1990-1994 Magellan mission. The Magellan spacecraft imaged more than 98% of Venus at a resolution of about 100 meters, the effective resolution of these images is about 3 kilometers. A mosaic of the Magellan images (most with illumination from the west) forms the image base. Gaps in the Magellan coverage were filled with images from Soviet Venera 15 and 16 spacecraft in the northern quarter of the planet, with images from the Earth-based Arecibo radar in a region centered roughly on 0 degrees latitude and 0 degrees longitude, and with a neutral tone elsewhere (primarily near the south pole). The composite image was processed to improve contrast and to emphasize small features and was color-coded to represent elevation. Gaps in the elevation data from the Magellan radar altimeter were filled with altimetry from the Venera spacecraft and the U.S. Pioneer Venus missions. The images are presented in a projection that portrays the entire surface of Venus in a manner suitable for the production of a globe. A specialized program was used to create the "flower petal" appearance of the images, the area of each petal from 0 to 75 degrees latitude is in the Transverse Mercator projection, and the area from 75 to 90 degrees latitude is in the Lambert Azimuthal Equal-Area projection. The projections for adjacent petals overlap by 2 degrees of longitude, so that some features are shown twice. Names are approved by the International Astronomical Union. (See PIA03151 [ http://photojournal.jpl.nasa.gov/catalog/PIA03151 ] for the image without place names.)
Hubble Provides the First Im …
Title Hubble Provides the First Images of Saturn's Aurorae
Hubble Monitors Weather on N …
Title Hubble Monitors Weather on Neighboring Planets
Hubble Again Views Saturn's …
Title Hubble Again Views Saturn's Rings Edge-On
NASA's Hubble Space Telescop …
Title NASA's Hubble Space Telescope Produces Clear Color Photo of Jupiter
Hemispheric View of Venus Ce …
PIA00157
Sol (our sun)
Imaging Radar
Title Hemispheric View of Venus Centered at 0 Degrees East Longitude
Original Caption Released with Image The hemispheric view of Venus, as revealed by more than a decade of radar investigations culminating in the 1990-1994 Magellan mission, is centered at 0 degrees east longitude. The Magellan spacecraft imaged more than 98% of Venus at a resolution of about 100 meters, the effective resolution of this image is about 3 km. A mosaic of the Magellan images (most with illumination from the west) forms the image base. Gaps in the Magellan coverage were filled with images from the Earth-based Arecibo radar in a region centered roughly on 0 degree latitude and longitude, and with a neutral tone elsewhere (primarily near the south pole). The composite image was processed to improve contrast and to emphasize small features, and was color-coded to represent elevation. Gaps in the elevation data from the Magellan radar altimeter were filled with altimetry from the Venera spacecraft and the U.S. Pioneer Venus missions. An orthographic projection was used, simulating a distant view of one hemisphere of the planet. The Magellan mission was managed for NASA by Jet Propulsion Laboratory (JPL), Pasadena, CA. Data processed by JPL, the Massachusetts Institute of Technology, Cambridge, MA, and the U.S. Geological Survey, Flagstaff, AZ.
Hemispheric View of Venus Ce …
PIA00159
Sol (our sun)
Imaging Radar
Title Hemispheric View of Venus Centered at 180 Degrees East Longitude
Original Caption Released with Image The hemispheric view of Venus, as revealed by more than a decade of radar investigations culminating in the 1990-1994 Magellan mission, is centered at 180 degrees east longitude. The Magellan spacecraft imaged more than 98% of Venus at a resolution of about 100 meters, the effective resolution of this image is about 3 km. A mosaic of the Magellan images (most with illumination from the west) forms the image base. Gaps in the Magellan coverage were filled with images from the Earth-based Arecibo radar in a region centered roughly on 0 degree latitude and longitude, and with a neutral tone elsewhere (primarily near the south pole). The composite image was processed to improve contrast and to emphasize small features, and was color-coded to represent elevation. Gaps in the elevation data from the Magellan radar altimeter were filled with altimetry from the Venera spacecraft and the U.S. Pioneer Venus missions. An orthographic projection was used, simulating a distant view of one hemisphere of the planet. The Magellan mission was managed for NASA by Jet Propulsion Laboratory (JPL), Pasadena, CA. Data processed by JPL, the Massachusetts Institute of Technology, Cambridge, MA, and the U.S. Geological Survey, Flagstaff, AZ.
Hemispheric View of Venus Ce …
PIA00158
Sol (our sun)
Imaging Radar
Title Hemispheric View of Venus Centered at 90 Degrees East Longitude
Original Caption Released with Image The hemispheric view of Venus, as revealed by more than a decade of radar investigations culminating in the 1990-1994 Magellan mission, is centered at 90 degrees east longitude. The Magellan spacecraft imaged more than 98% of Venus at a resolution of about 100 meters, the effective resolution of this image is about 3 km. A mosaic of the Magellan images (most with illumination from the west) forms the image base. Gaps in the Magellan coverage were filled with images from the Earth-based Arecibo radar in a region centered roughly on 0 degree latitude and longitude, and with a neutral tone elsewhere (primarily near the south pole). The composite image was processed to improve contrast and to emphasize small features, and was color-coded to represent elevation. Gaps in the elevation data from the Magellan radar altimeter were filled with altimetry from the Venera spacecraft and the U.S. Pioneer Venus missions. An orthographic projection was used, simulating a distant view of one hemisphere of the planet. The Magellan mission was managed for NASA by Jet Propulsion Laboratory (JPL), Pasadena, CA. Data processed by JPL, the Massachusetts Institute of Technology, Cambridge, MA, and the U.S. Geological Survey, Flagstaff, AZ.
Hemispheric View of Venus Ce …
PIA00160
Sol (our sun)
Imaging Radar
Title Hemispheric View of Venus Centered at 270 Degrees East Longitude
Original Caption Released with Image The hemispheric view of Venus, as revealed by more than a decade of radar investigations culminating in the 1990-1994 Magellan mission, is centered at 270 degrees east longitude. The Magellan spacecraft imaged more than 98% of Venus at a resolution of about 100 meters, the effective resolution of this image is about 3 km. A mosaic of the Magellan images (most with illumination from the west) forms the image base. Gaps in the Magellan coverage were filled with images from the Earth-based Arecibo radar in a region centered roughly on 0 degree latitude and longitude, and with a neutral tone elsewhere (primarily near the south pole). The composite image was processed to improve contrast and to emphasize small features, and was color-coded to represent elevation. Gaps in the elevation data from the Magellan radar altimeter were filled with altimetry from the Venera spacecraft and the U.S. Pioneer Venus missions. An orthographic projection was used, simulating a distant view of one hemisphere of the planet. The Magellan mission was managed for NASA by Jet Propulsion Laboratory (JPL), Pasadena, CA. Data processed by JPL, the Massachusetts Institute of Technology, Cambridge, MA, and the U.S. Geological Survey, Flagstaff, AZ.
Hemispheric View of Venus Ce …
PIA00007
Sol (our sun)
Imaging Radar
Title Hemispheric View of Venus Centered at the North Pole
Original Caption Released with Image The hemispheric view of Venus, as revealed by more than a decade of radar investigations culminating in the 1990-1994 Magellan mission, is centered on the North Pole. The Magellan spacecraft imaged more than 98% of Venus at a resolution of about 100 meters, the effective resolution of this image is about 3 km. A mosaic of the Magellan images (most with illumination from the west) forms the image base. Gaps in the Magellan coverage were filled with images from the Earth-based Arecibo radar in a region centered roughly on 0 degree latitude and longitude, and with a neutral tone elsewhere (primarily near the south pole). The composite image was processed to improve contrast and to emphasize small features, and was color-coded to represent elevation. Gaps in the elevation data from the Magellan radar altimeter were filled with altimetry from the Venera spacecraft and the U.S. Pioneer Venus missions. An orthographic projection was used, simulating a distant view of one hemisphere of the planet. The Magellan mission was managed for NASA by Jet Propulsion Laboratory (JPL), Pasadena, CA. Data processed by JPL, the Massachusetts Institute of Technology, Cambridge, MA, and the U.S. Geological Survey, Flagstaff, AZ.
Hemispheric View of Venus Ce …
PIA00008
Sol (our sun)
Imaging Radar
Title Hemispheric View of Venus Centered at the South Pole
Original Caption Released with Image The hemispheric view of Venus, as revealed by more than a decade of radar investigations culminating in the 1990-1994 Magellan mission, is centered on the South Pole. The Magellan spacecraft imaged more than 98% of Venus at a resolution of about 100 meters, the effective resolution of this image is about 3 km. A mosaic of the Magellan images (most with illumination from the west) forms the image base. Gaps in the Magellan coverage were filled with images from the Earth-based Arecibo radar in a region centered roughly on 0 degree latitude and longitude, and with a neutral tone elsewhere (primarily near the south pole). The composite image was processed to improve contrast and to emphasize small features, and was color-coded to represent elevation. Gaps in the elevation data from the Magellan radar altimeter were filled with altimetry from the Venera spacecraft and the U.S. Pioneer Venus missions. An orthographic projection was used, simulating a distant view of one hemisphere of the planet. The Magellan mission was managed for NASA by the Jet Propulsion Laboratory (JPL), Pasadena, CA. Data processed by JPL, the Massachusetts Institute of Technology, Cambridge, MA, and the U.S. Geological Survey, Flagstaff, AZ.
Venus
PIA01544
Sol (our sun)
Imaging Science Subsystem - …
Title Venus
Original Caption Released with Image VENUS CLOUD TOPS VIEWED BY HUBBLE. This is a NASA Hubble Space Telescope ultraviolet-light image of the planet Venus, taken on January 24 1995, when Venus was at a distance of 70.6 million miles (113.6 million kilometers) from Earth. Venus is covered with clouds made of sulfuric acid, rather than the water-vapor clouds found on Earth. These clouds permanently shroud Venus' volcanic surface, which has been radar mapped by spacecraft and from Earth-based telescope. At ultraviolet wavelengths cloud patterns become distinctive. In particular, a horizontal "Y"-shaped cloud feature is visible near the equator. Similar features were seen from Mariner 10, Pioneer Venus, and Galileo spacecrafts. This global feature might indicate atmospheric waves, analogous to high and low pressure cells on Earth. Bright clouds toward Venus' poles appear to follow latitude lines. The polar regions are bright, possibly showing a haze of small particles overlying the main clouds. The dark regions show the location of enhanced sulfur dioxide near the cloud tops. From previous missions, astronomers know that such features travel east to west along with the Venus' prevailing winds, to make a complete circuit around the planet in four days. Because Venus is closer to the Sun than Earth, the planet appears to go through phases, like the Moon. When Venus swings close to Earth the planet's disk appears to grow in size, but changes from a full disk to a crescent. The image was taken with the Wide Field Planetary Camera-2, in PC mode. False color has been used enhance cloud features.
Magellan radar image of Danu …
Title Magellan radar image of Danu Montes in Lakshmi Region of Venus
Description This Magellan radar mosaic image is of part of the Danu Montes in the Lakshmi Region of Venus. The area in the image is located at 329.6 degrees east longitude and 58.75 degrees north latitude. This image shows an area 40 kilometers (km) (19.6 miles) wide and 60 km (39.2 miles) long. Danu Montes is a mountain belt located at the southern edge of the Ishtar Terra highland region. It rises one to three kilometers above a flat plain to the north known as Lakshmi Planum. On the basis of Pioneer Venus, Arecibo and Venera data, Danu Montes and the other mountain belts surrounding Lakshmi Planum have been interpreted to be orogenic belts marking the focus of compressional deformation, much like the Appalachian and Andes ranges on Earth. In the upper right part of this image, relatively bright, smooth-textured plains of Lakshmi Planum are seen to embay the heavily deformed mountain range to the south. In the mountain range south of these plains the geology is dominated by abundant faults at mu
Date Taken 1990-10-09
Venus - Computer Simulated G …
PIA00271
Sol (our sun)
Imaging Radar
Title Venus - Computer Simulated Global View of the Northern Hemisphere
Original Caption Released with Image The northern hemisphere is displayed in this global view of the surface of Venus. The north pole is at the center of the image, with 0 degrees, 90 degrees, 180 degrees, 270 degrees east longitudes at the 6, 3, 12, and 9 o'clock positions, respectively, of an imaginary clock face. Magellan synthetic aperture radar mosaics from the three eight-month cycles of Magellan radar mapping are mapped onto a computer-simulated globe to create this image. Magellan obtained coverage of 98 percent of the surface of Venus. Remaining gaps are filled with data from previous missions, (the Soviet Venera 15 and 16 radar and Pioneer Venus Orbiter altimetry) and data from Earth-based radar observations from the Arecibo radio telescope. Simulated color is used to enhance small-scale structures. The simulated hues are based on color images recorded by the Venera 13 and 14 landing craft. Maxwell Montes, the planet's highest mountain at 11 kilometers (6.6 miles) above the average elevation, is the bright feature in the lower center of the image. Other terrain types visible in this image include tessera, ridge belts, lava flows, impact craters and coronae. The image was produced by the Solar System Visualization Project and the Magellan Science team at the Jet Propulsion Laboratory Multimission Image Processing Laboratory. The Magellan mission is managed by JPL for NASA's Office of Space Science.
Hubble Provides Clear Images …
Title Hubble Provides Clear Images of Saturn's Aurora
General Information What is an American Astronomical Society Meeting release? A major news announcement issued at an American Astronomical Society meeting, the premier astronomy conference. Here is the picture of Saturn taken by the Hubble telescope in ultraviolet light. The glowing, swirling material at Saturn's poles is its auroral "curtains," rising more than a thousand miles above the cloud tops. Saturn's auroral displays are caused by an energetic wind from the Sun that sweeps over the planet, much like Earth's aurora, which is occasionally seen in the nighttime sky. The process that triggers these auroras is similar to the phenomenon that causes fluorescent lamps to glow.
Von Braun's Wheel
Title Von Braun's Wheel
Explanation Orbiting 1,075 miles above the Earth, a 250 foot wide, inflated, reinforced nylon "wheel" was conceived in the early 1950s [ http://repos.msfc.nasa.gov/history/mm/sect005.html#Early Space Station Concepts ] to function as a navigational aid, meteorological station, military platform, and way station for space [ http://liftoff.msfc.nasa.gov/station/welcome.html ] exploration by rocket pioneer Wernher von Braun [ http://repos.msfc.nasa.gov/history/mm/vonbio.html ]. The wheel shaped station could be easily rotated creating artificial gravity so that the astronauts would not suffer the effects of prolonged weightlessness. Von Braun and his team favored building a permanently occupied Earth orbiting space station [ http://issa-www.jsc.nasa.gov/ss/spacestation.html ] from which to stage a lunar exploration program [ http://antwrp.gsfc.nasa.gov/apod/ap950909.html ]. But in the 1960s NASA adopted the Apollo Program [ http://antwrp.gsfc.nasa.gov/apod/ap950921.html ], which called for astronauts to transfer to a lunar landing vehicle after achieving lunar orbit, bypassing the construction of von Braun's wheel.
The Voyagers' Message in a B …
Title The Voyagers' Message in a Bottle
Explanation Launched thirty years ago [ http://voyager.jpl.nasa.gov/index.html ], NASA's Voyager 1 and 2 spacecraft are now respectively 15 and 12.5 billion kilometers from the Sun, equivalent to about 14 and 11.5 light-hours distant. Still functioning [ http://voyager.jpl.nasa.gov/mission/ weekly-reports/index.htm ], the Voyagers are being tracked and commanded through the Deep Space Network [ http://deepspace.jpl.nasa.gov/dsn/ ]. Having traveled beyond the outer planets, they are only the third and fourth spacecraft from planet Earth to escape toward [ http://heavens-above.com/solar-escape.asp?/ ] interstellar space, following in the footsteps of Pioneer 10 and 11 [ http://nssdc.gsfc.nasa.gov/planetary/ pioneer10-11.html ]. A 12-inch gold plated copper disk (a phonograph [ http://en.wikipedia.org/wiki/Phonograph_record ] record) containing recorded sounds and images representing human cultures and life on Earth, is affixed to each Voyager - a message in a bottle [ http://voyager.jpl.nasa.gov/spacecraft/goldenrec.html ] cast into the cosmic sea. The recorded material was selected by a committee chaired by astronomer Carl Sagan [ http://www.carlsagan.com/ ]. Simple diagrams [ http://voyager.jpl.nasa.gov/spacecraft/images/ VgrCover.jpg ] on the cover symbolically represent the spacecraft's origin and give instructions for playing the disk. The exotic construction of the disks should provide them with a long lifetime as they coast through interstellar space [ http://voyager.jpl.nasa.gov/mission/ interstellar.html ].
Hubble Uncovers Oldest "Cloc …
Title Hubble Uncovers Oldest "Clocks" in Space to Read Age of Universe
General Information What is a Space Science Update? Major Hubble discoveries on NASA television ... Astronomers explain their Hubble discoveries at a press conference, called a Space Science Update (SSU), broadcast on NASA television. The SSU includes a question and answer session with members of the media. Back to top [ #top ]
Venus - Computer Simulated G …
PIA00270
Sol (our sun)
Imaging Radar
Title Venus - Computer Simulated Global View Centered at 90 Degrees East Longitude
Original Caption Released with Image This global view of the surface of Venus is centered at 90 degrees east longitude. Magellan synthetic aperture radar mosaics from the three eight-month cycles of Magellan radar mapping are mapped onto a computer-simulated globe to create this image. Magellan obtained coverage of 98 percent of the surface of Venus. Remaining gaps are filled with data from previous Venus missions -- the Venera 15 and 16 radar and Pioneer-Venus Orbiter altimetry -- and data from Earth-based radar observations from the Arecibo radio telescope. Simulated color is used to enhance small-scale structures. The simulated hues are based on color images obtained by the Venera 13 and 14 landing craft. The bright feature near the center of the image is Ovda Regio, a mountainous region in the western portion of the great Aphrodite equatorial highland. The dark areas scattered across the Venusian plains consist of extremely smooth deposits associated with large meteorite impacts. The image was produced by the Solar System Visualization Project and the Magellan Science team at the Jet Propulsion Laboratory Multimission Image Processing Laboratory. The Magellan mission is managed by JPL for NASA's Office of Space Science.
Kuiper Crater
PIA02411
Sol (our sun)
Imaging Science Subsystem - …
Title Kuiper Crater
Original Caption Released with Image The Mariner 10 Television-Science Team has proposed the name "Kuiper" for this very conspicuous bright Mercury crater (top center) on the rim of a larger older crater. Prof. Gerard P. Kuiper, a pioneer in planetary astronomy and a member of the Mariner 10 TV team, died December 23, 1973, while the spacecraft was enroute to Venus and Mercury. Mariner took this picture (FDS 27304) from 88,450 kilometers (55,000 miles) some 2 1/2 hours before it passed Mercury on March 29. The bright-floored crater, 41 kilometers (25 miles) in diameter, is the center of a very large bright are which could be seen in pictures sent from Mariner 10 while Mercury was more than two million miles distant. The larger crater is 80 kilometers (50 miles) across. The Mariner 10 mission, managed by the Jet Propulsion Laboratory for NASA's Office of Space Science, explored Venus in February 1974 on the way to three encounters with Mercury-in March and September 1974 and in March 1975. The spacecraft took more than 7,000 photos of Mercury, Venus, the Earth and the Moon. Image Credit: NASA/JPL/Northwestern University
A Step Toward Gravitational …
Title A Step Toward Gravitational Wave Detection
Explanation Accelerate a charge and you'll get electromagnetic radiation [ http://imagine.gsfc.nasa.gov/docs/science/know_l1/emspectrum.html ]: light. But accelerate any mass and you'll get gravitational radiation [ http://math.ucr.edu/home/baez/physics/grav_radiation.html ]. Light is seen all the time, but, so far, a confirmed direct detection of gravitational radiation [ http://www.ncsa.uiuc.edu/Cyberia/NumRel/GravWaves.html ] has yet to be made [ http://sam.phys.lsu.edu/background/history.html ]. When absorbed, gravitational waves [ http://www.ligo.caltech.edu/LIGO_web/about/factsheet.html ] (GWs) create a tiny symmetric jiggle similar to squashing a rubber ball and letting go quickly. Separated detectors can be used to discern GWs [ http://www.sciam.com/askexpert/physics/physics14.html ] from everyday bumps. Powerful astronomical GW sources would coincidentally jiggle even detectors on opposite ends of the Earth. Pictured above [ http://www.ligo.caltech.edu/LIGO_web/firstlock/ ] are the two-kilometer-long arms of one such detector: the LIGO Hanford Observatory [ http://www.ligo-wa.caltech.edu/ ] in Washington [ http://www.state.wa.us/ ], which recently achieved a phase-lock [ http://www.ligo-wa.caltech.edu/news/0010han/G000309-00.pdf ] milestone to future GW detection. When it and its sister interferometer [ http://www.ligo-la.caltech.edu/ ] in Louisiana [ http://www.state.la.us/ ] come online in 2002, they may see a GW [ http://www.ligo.caltech.edu/%7Everonica/Aspen2000/webpages/scripts/ ] sky so strange it won't be immediately understood. APOD mourns the recent passing of Joseph Weber [ http://www.physics.umd.edu/photon/iss006/Weber.html#VTrimble_statement ], a visionary thinker and pioneer in gravitational wave detection.
Near-Shoemaker Views Eros
Title Near-Shoemaker Views Eros
Explanation Orbiting [ http://near.jhuapl.edu/NEAR/NewMissionDesign/ ] asteroid 433 Eros, 145 million miles from Earth, NASA's NEAR spacecraft has been returning stunning views [ http://antwrp.gsfc.nasa.gov/apod/ap000829.html ] as its year long mission of exploration nears completion [ http://www.jhuapl.edu/public/pr/000313.htm ]. A mosaic of NEAR images [ http://near.jhuapl.edu/NEAR/iod/archive.html ] recorded at a range of about 127 miles, this picture [ http://near.jhuapl.edu/NEAR/iod/20000314/index.html ] illustrates some of the amazing contrasts which apparently exist within the domain of this diminutive world. Features as small as 65 feet are visible here, while long shadows [ http://antwrp.gsfc.nasa.gov/apod/ap000224.html ] emphasize the differences in the cratered regions at the left and smooth grooved terrain at right. Up close [ http://antwrp.gsfc.nasa.gov/apod/ap000308.html ], the undulating surface seems flecked with bright deposits and peppered with enormous boulders [ http://antwrp.gsfc.nasa.gov/apod/ap970905.html ]. Last year, NASA changed the spacecraft name from NEAR to NEAR-Shoemaker in honor of the late Dr. Eugene M. Shoemaker [ http://antwrp.gsfc.nasa.gov/apod/ap980115.html ], legendary geologist, comet hunter [ http://antwrp.gsfc.nasa.gov/apod/ap990814.html ], and inspirational pioneer in the field of interplanetary science. Tomorrow [ http://near.jhuapl.edu/media/eom_events/index.html ], NEAR-Shoemaker [ http://near.jhuapl.edu/instruments/ ] will complete [ http://antwrp.gsfc.nasa.gov/apod/ap010206.html ] its scheduled mission as it will be commanded to descend [ http://near.jhuapl.edu/NEAR/iod/20010209/ ] to the surface of the ancient asteroid [ http://www.nineplanets.org/asteroids.html ].
Saturn The Giant
Title Saturn The Giant
Explanation Forty years ago today (May 25, 1961) U.S. president John Kennedy announced [ http://history.nasa.gov/moondec.html ] the goal of landing Americans on the Moon by the end of the decade. Kennedy's ambitious speech triggered [ http://www.wamu.org/special/moon.html ] a nearly unprecedented peacetime technological mobilization and one result was the Saturn V [ http://www.hrw.com/science/si-science/earth/spacetravel/ spacerace/SpaceRace/sec300/sec380.html ] moon rocket [ http://kids.msfc.nasa.gov/Rockets/ ]. Its development directed by rocket pioneer Wernher Von Braun, the three stage Saturn V stood [ http://www.hq.nasa.gov/office/pao/History/SP-350/ch-3-1.html ] over 36 stories tall. It had a cluster of five first stage [ http://grin.hq.nasa.gov/ABSTRACTS/GPN-2000-000559.html ] engines fueled by [ http://users.commkey.net/Braeunig/space/propel.htm ] liquid oxygen and kerosene which together were capable of producing 7.5 million pounds of thrust. Giant Saturn V rockets ultimately hurled [ http://www.hq.nasa.gov/office/pao/History/SP-4204/ contents.html ] nine Apollo missions [ http://history.nasa.gov/apollo.html ] to the Moon and back again [ http://www.literature.org/authors/verne-jules/ round-the-moon/ ] with six landing on the lunar surface [ http://www.hq.nasa.gov/office/pao/History/alsj/ ]. The first landing, by Apollo 11 [ http://history.nasa.gov/ap11ann/ introduction.htm ], occurred on July 20, 1969 achieving Kennedy's goal. Bathed in light, this Saturn V [ http://www.apollosaturn.com/frame-sv.htm ] awaits an April 11, 1970 launch on the third lunar landing mission, Apollo 13 [ http://antwrp.gsfc.nasa.gov/apod/ap010519.html ].
Asteroid 9969 Braille
Title Asteroid 9969 Braille
Explanation NASA probe Deep Space 1 [ http://nmp.jpl.nasa.gov/ds1/ ] zoomed past asteroid 9969 Braille [ http://www2.jpl.nasa.gov/files/misc/ds1asteroid.pdf ] last week as it continued to test its new ion drive [ http://antwrp.gsfc.nasa.gov/apod/ap981203.html ] in the inner Solar System [ http://www.seds.org/nineplanets/nineplanets/overview.html ]. The flyby was the closest approach a spacecraft has ever made to an asteroid [ http://antwrp.gsfc.nasa.gov/apod/ap980712.html ]. Looking back afterwards, DS1 took the above picture [ http://www.jpl.nasa.gov/ds1news/ ]. Formerly known as 1992 KD, the 9969th asteroid discovered was renamed in honor of Louis Braille [ http://www.cnib.ca/braille_information/louis_braille.htm ], a pioneer in written communication for the blind. 9969 Braille [ http://huey.jpl.nasa.gov/~spravdo/1992kd.htm ] is thought by some to have collided with asteroid Vesta [ http://oposite.stsci.edu/pubinfo/pr/95/20.html ] in the distant past and broken up, providing debris for many of the meteorites [ http://www.seds.org/nineplanets/nineplanets/meteorites.html ] that fall to Earth. Asteroid [ http://www.hawastsoc.org/solar/eng/asteroid.htm ] 9969 Braille rotates only once in 9 days, and has an orbit greatly tilted relative to the ecliptic plane [ http://antwrp.gsfc.nasa.gov/apod/ap990529.html ] of the planets.
Hubble Provides Clear Images …
PIA01269
Sol (our sun)
Wide Field Planetary Camera …
Title Hubble Provides Clear Images of Saturn's Aurora
Original Caption Released with Image Propulsion Laboratory and managed by the Goddard Spaced Flight Center for NASA's Office of Space Science. This image and other images and data received from the Hubble Space Telescope are posted on the World Wide Web on the Space Telescope Science Institute home page at URL http://oposite.stsci.edu/pubinfo/, This is the first image of Saturn's ultraviolet aurora taken by the Space Telescope Imaging Spectrograph (STIS) on board the Hubble Space Telescope in October 1997, when Saturn was a distance of 810 million miles (1.3 billion kilometers) from Earth. The new instrument, used as a camera, provides more than ten times the sensitivity of previous Hubble instruments in the ultraviolet. STIS images reveal exquisite detail never before seen in the spectacular auroral curtains of light that encircle Saturn's north and south poles and rise more than a thousand miles above the cloud tops. Saturn's auroral displays are caused by an energetic wind from the Sun that sweeps over the planet, much like the Earths aurora that is occasionally seen in the nighttime sky and similar to the phenomenon that causes fluorescent lamps to glow. But unlike the Earth, Saturn's aurora is only seen in ultraviolet light that is invisible from the Earths surface, hence the aurora can only be observed from space. New Hubble images reveal ripples and overall patterns that evolve slowly, appearing generally fixed in our view and independent of planet rotation. At the same time, the curtains show local brightening that often follow the rotation of the planet and exhibit rapid variations on time scales of minutes. These variations and regularities indicate that the aurora is primarily shaped and powered by a continual tug-of-war between Saturn's magnetic field and the flow of charged particles from the Sun. Study of the aurora on Saturn had its beginnings just seventeen years ago. The Pioneer 11 spacecraft observed a far-ultraviolet brightening on Saturn's poles in 1979. The Saturn flybys of the Voyager 1 and 2 spacecraft in the early 1980s provided a basic description of the aurora and mapped for the first time planets enormous magnetic field that guides energetic electrons into the atmosphere near the north and south poles. The first images of Saturn's aurora were provided in 1994-5 by the Hubble Space Telescopes Wide Field and Planetary Camera (WFPC2). Much greater ultraviolet sensitivity of the new STIS instrument allows the workings of Saturn's magnetosphere and upper atmosphere to be studied in much greater detail. These Hubble aurora investigations provide a framework that will ultimately complement the in situ measurements of Saturn's magnetic field and charged particles by NASA/ ESA's Cassini spacecraft, now en route to its rendezvous with Saturn early in the next decade. Two STIS imaging modes have been used to discriminate between ultraviolet emissions predominantly from hydrogen atoms (shown in red) and emissions due to molecular hydrogen (shown in blue). Hence the bright red aurora features are dominated by atomic hydrogen, while the white traces within them map the more tightly confined regions of molecular hydrogen emissions. The southern aurora is seen at lower right, the northern at upper left. The Wide Field/Planetary Camera 2 was developed by the Jet
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