Search Results: All Fields similar to 'Voyager'

OUTWARD BOUND VOYAGER--A Tit …

Description

OUTWARD BOUND VOYAGER--A Titan-Centaur launch vehicle hurls Voyager 1 from Cape Canaveral toward its rendezvous with Jupiter and Saturn. The launch took place at 5:56 a.m. (PDT) September 5, 1977. Voyager 1 followed Voyager 2 away from Earth, but by the time they reach Jupiter it will be four months ahead of Voyager 2. Voyager 1 will reach Saturn nine months ahead of Voyager 2. The Voyager project is managed by Caltech's Jet Propulsion Laboratory for NASA's Office of Space Science.

Voyager 2 Launch

Title	Voyager 2 Launch
Full Description	Voyager 2 was launched August 20, 1977, sixteen days before Voyager 1 aboard a Titan-Centaur rocket. Their different flight trajectories caused Voyager 2 to arrive at Jupiter four months later than Voyager 1, thus explaining their numbering. The initial mission plan for Voyager 2 specified visits only to Jupiter and Saturn. The plan was augmented in 1981 to include a visit to Uranus, and again in 1985 to include a flyby of Neptune. After completing the tour of the outer planets in 1989, the Voyager spacecraft began exploring interstellar space. The Voyager mission has been managed by NASA's Office of Space Science and the Jet Propulsion Laboratory.
Date	08/20/1977
NASA Center	Kennedy Space Center

Seen here is a full-scale mo …

Description

Seen here is a full-scale model of one of the twin Voyager spacecraft, which was sent to explore the giant outer planets in our solar system. Voyager 2 was launched August 20, 1977 followed by the launch of Voyager 1 sixteen days later. Both spacecraft visited Jupiter and Saturn with Voyager 2 continuing its journey to Uranus and Neptune. In spring 1990, Voyager 2 transmitted images looking back across the span of the entire solar system. Both Voyagers continue to explore interstellar space.

S-1 C & BW -62

Voyager 1 looked back at Sat …

12/4/80

Date	12/4/80
Description	Voyager 1 looked back at Saturn on Nov. 16, 1980, four days after the spacecraft flew past the planet, to observe the appearance of Saturn and its rings from this unique perspective. A few of the spokelike ring features discovered by Voyager appear in the rings as bright patches in this image, taken at a distance of 5.3 million kilometers (3.3 million miles) from the planet. Saturn's shadow falls upon the rings, and the bright Saturn crescent is seen through all but the densest portion of the rings. From Saturn, Voyager 1 is on a trajectory taking the spacecraft out of the ecliptic plane, away from the Sun and eventually out of the solar system (by about 1990). Although its mission to Jupiter and Saturn is nearly over (the Saturn encounter ends Dec. 18, 1980), Voyager 1 will be tracked by the Deep Space Network as far as possible in an effort to determine where the influence of the Sun ends and interstellar space begins. Voyager 1's flight path through interstellar space is in the direction of the constellation Ophiuchus. Voyager 2 will reach Saturn on August 25, 1981, and is targeted to encounter Uranus in 1986 and possibly Neptune in 1989. The Voyager project is managed for NASA by the Jet Propulsion Laboratory, Pasadena, California. #####

Voyager 2 Launch

title	Voyager 2 Launch
date	08.20.1977
description	Voyager 2 was launched August 20, 1977, sixteen days before Voyager 1 aboard a Titan-Centaur rocket. Their different flight trajectories caused Voyager 2 to arrive at Jupiter four months later than Voyager 1, thus explaining their numbering. The initial mission plan for Voyager 2 specified visits only to Jupiter and Saturn. The plan was augmented in 1981 to include a visit to Uranus, and again in 1985 to include a flyby of Neptune. After completing the tour of the outer planets in 1989, the Voyager spacecraft began exploring interstellar space. The Voyager mission has been managed by NASA's Office of Space Science and the Jet Propulsion Laboratory. Image Credit: NASA

Solar System Montage of Voya …

Title	Solar System Montage of Voyager Images
Full Description	This montage of images taken by the Voyager spacecraft of the planets and four of Jupiter's moons is set against a false-color Rosette Nebula with Earth's moon in the foreground. Studying and mapping Jupiter, Saturn, Uranus, Neptune, and many of their moons, Voyager provided scientists with better images and data than they had ever had before or expected from the program. Although launched sixteen days after Voyager 2, Voyager 1's trajectory was a faster path, arriving at Jupiter in March 1979. Voyager 2 arrived about four months later in July 1979. Both spacecraft were then directed to Saturn with Voyager 1 arriving in November 1980 and Voyager 2 in August 1981. Voyager 2 was then diverted to the remaining gas giants, Uranus in January 1986 and Neptune in August 1989. Data collection continues by both Voyager 1 and 2 as the renamed Voyager Interstellar Mission searches for the edge of the solar wind influence (the heliopause) and exits the Solar System. A shortened list of the discoveries of Voyager 1 and 2 include:the discovery of the Uranian and Neptunian magnetospheres (magnetic environments caused by various types of planet cores), the discovery of twenty-two new satellites including three at Jupiter, three at Saturn, ten at Uranus, and six at Neptune, Io was found to have active volcanism (the only other Solar System body than Earth to be confirmed), Triton was found to have active geyser-like structures and an atmosphere, Auroral Zones (where gases become excited after being hit by solar particles) were discovered at Jupiter, Saturn, and Neptune, Jupiter was found to have rings, Neptune, originally thought to be too cold to support such atmospheric disturbances, had large-scale storms.
Date	UNKNOWN
NASA Center	Jet Propulsion Laboratory

First Picture of the Earth and Moon in a Single Frame

First Picture of the Earth a …

Title	First Picture of the Earth and Moon in a Single Frame
Full Description	This picture of the Earth and Moon in a single frame, the first of its kind ever taken by a spacecraft, was recorded September 18, 1977, but NASAs Voyager 1 when it was 7.25 million miles (11.66 million kilometers) from Earth. The moon is at the top of the picture and beyond the Earth as viewed by Voyager. In the picture are eastern Asia, the western Pacific Ocean and part of the Arctic. Voyager 1 was directly above Mt. Everest (on the night side of the planet at 25 degrees north latitude) when the picture was taken. The photo was made from three images taken through color filters, then processed by the Image Processing Lab at Jet Propulsion Laboratory (JPL). Because the Earth is many times brighter than the Moon, the Moon was artificially brightened by a factor of three relative to the Earth by computer enhancement so that both bodies would show clearly in the prints. Voyager 1 was launched September 5, 1977 and Voyager 2 on August 20, 1977. JPL is responsible for the Voyager mission.
Date	09/18/1977
NASA Center	Jet Propulsion Laboratory

Stereo Saturn

Title	Stereo Saturn
Explanation	Get out your red/blue glasses [ http://img.arc.nasa.gov/archive/desert96/redblue.html ] and launch [ http://antwrp.gsfc.nasa.gov/apod/ap971016.html ] yourself into this stereo [ http://cass.jsc.nasa.gov/research/stereo_atlas/SS3D.HTM ] picture of Saturn! The picture is actually composed from two images recorded weeks apart by the Voyager 2 spacecraft [ http://vraptor.jpl.nasa.gov/voyager/voyager_fs.html ] during its visit to [ http://nssdc.gsfc.nasa.gov/planetary/voyager.html ] the Saturnian System in August of 1981. Traveling at about 35,000 miles per hour, the spacecraft's changing viewpoint from one image to the next produced this exaggerated but pleasing stereo effect [ http://antwrp.gsfc.nasa.gov/apod/ap970404.html ]. Saturn is the second largest planet [ http://seds.lpl.arizona.edu/nineplanets/nineplanets/saturn.html ] in the Solar System, after Jupiter. Its spectacular ring system [ http://ringmaster.arc.nasa.gov/saturn/saturn.html ] is so wide that it would span the space between the Earth and Moon. Although they look solid here, Saturn's [ http://antwrp.gsfc.nasa.gov/apod/ap000129.html ] rings consist of individually orbiting bits of ice and rock ranging in size from grains of sand to barn-sized boulders.

Stereo Saturn

Title	Stereo Saturn
Explanation	Get out your red/blue glasses [ http://img.arc.nasa.gov/archive/desert96/redblue.html ] and launch [ http://antwrp.gsfc.nasa.gov/apod/ap981224.html ] yourself into this stereo [ http://cass.jsc.nasa.gov/research/stereo_atlas/SS3D.HTM ] picture of Saturn! The picture is actually composed from two images recorded weeks apart by the Voyager 2 spacecraft [ http://vraptor.jpl.nasa.gov/voyager/voyager_fs.html ] during its visit to the Saturnian System [ http://nssdc.gsfc.nasa.gov/planetary/voyager.html ] in August of 1981. Traveling at about 35,000 miles per hour, the spacecraft's changing viewpoint from one image to the next produced this exaggerated but pleasing stereo effect [ http://antwrp.gsfc.nasa.gov/apod/ap970404.html ]. Saturn is the second largest planet in the Solar System [ http://seds.lpl.arizona.edu/nineplanets/nineplanets/saturn.html ], after Jupiter. Its spectacular ring system [ http://ringmaster.arc.nasa.gov/saturn/saturn.html ] is so wide that it would span the space between the Earth and Moon. Although they look solid here, Saturn's Rings [ http://antwrp.gsfc.nasa.gov/apod/ap981105.html ] consist of individually orbiting bits of ice and rock ranging in size from grains of sand to barn-sized boulders.

Voyager Tour Montage

Title	Voyager Tour Montage
Full Description	This montage of images of the planets visited by Voyager 2 was prepared from an assemblage of images taken by the Voyager 2 spacecraft. The Voyager Project is managed for NASA by the Jet Propulsion Laboratory, Pasadena, California.
Date	08/01/1989
NASA Center	Jet Propulsion Laboratory

S-2 BW-4

Prominent dark spokes are vi …

8/13/81

Date	8/13/81
Description	Prominent dark spokes are visible in the outer half of SaturnÃ¢â‚¬â„¢s broad B-ring in this Voyager 2 photograph taken on Aug. 3, 1981 from a range of about 22 million kilometers (14 million miles). The features appear as filamentary markings about 12,000 kilometers (7,S00 miles) long, which rotate around the planet with the motion of particles in the rings. The nature of these features, discovered by Voyager 1, is not totally understood, but scientists believe the spokes may be caused by dust levitated above the ring plane by electric fields, Voyager 2 photography of the rings edge-on, scheduled for Aug. 25, 1981, will provide an opportunity to test that theory. Because the Sun is now illuminating the rings from a higher angle, Voyager 2Ã¢â‚¬â„¢s photographs reveal ring structure from a greater distance than that seen by Voyager 1 in its November 1980 encounter. The Voyager project is managed for NASA by the Jet Propulsion Laboratory, Pasadena, Calif.

Voyager's Ocean Planet

title	Voyager's Ocean Planet
date	09.18.1977
description	This picture of the Earth and Moon in a single frame, the first of its kind ever taken by a spacecraft, was recorded September 18, 1977, but NASAs Voyager 1 when it was 7.25 million miles (11.66 million kilometers) from Earth. The moon is at the top of the picture and beyond the Earth as viewed by Voyager. In the picture are eastern Asia, the western Pacific Ocean and part of the Arctic. Voyager 1 was directly above Mt. Everest (on the night side of the planet at 25 degrees north latitude) when the picture was taken. The photo was made from three images taken through color filters, then processed by the Image Processing Lab at Jet Propulsion Laboratory (JPL). Because the Earth is many times brighter than the Moon, the Moon was artificially brightened by a factor of three relative to the Earth by computer enhancement so that both bodies would show clearly in the prints. Voyager 1 was launched September 5, 1977 and Voyager 2 on August 20, 1977. JPL is responsible for the Voyager mission. Image Credit: NASA

First Picture of the Earth a …

The picture of the Earth and …

8/1/08

Description	The picture of the Earth and Moon in a single frame, the first of its kind ever taken by a spacecraft, was recorded September 18, 1977, by NASA's Voyager 1 when it was 7.25 million miles (11.66 million kilometers) from Earth.
Date	8/1/08

Jupiter System Montage

Title	Jupiter System Montage
Full Description	Jupiter and its four planet-size moons, called the Galilean satellites, were photographed in early March 1979 by Voyager 1 and assembled into this collage. They are not to scale but are in their relative positions. Startling new discoveries on the Galilean moons and the planet Jupiter made by Voyager l factored into a new mission design for Voyager 2. Reddish Io (upper left) is nearest Jupiter, then Europa (center), Ganymede and Callisto (lower right). Nine other much smaller satellites circle Jupiter, one inside Io's orbit and the other millions of miles from the planet. Not visible is Jupiter's faint ring of particles, seen for the first time by Voyager 1. The Voyager Project is managed for NASA's Office of Space Science by Jet Propulsion Laboratory, California Institute of Technology.
Date	06/22/1979
NASA Center	Jet Propulsion Laboratory

Jupiter and the Galilean Sat …

title	Jupiter and the Galilean Satellites
description	Jupiter and its four planet-size moons, called the Galilean satellites, were photographed in early March by Voyager 1 and assembled into this collage. They are not to scale but are in their relative positions. Startling new discoveries on the Galilean moons and the planet Jupiter made by Voyager 1 have been factored into a new mission design for Voyager 2. Voyager 2 will fly past Jupiter on July 9. Reddish Io (upper left) is nearest Jupiter, then Europa (center), Ganymede and Callisto (lower right). Nine other much smaller satellites circle Jupiter, one inside Io's orbit and the other millions of miles from the planet. Not visible is Jupiter's faint ring of particles, seen for the first time by Voyager 1. The Voyager Project is managed for NASA's Office of Space Science by Jet Propulsion Laboratory, California Institute of Technology. Image Credit: NASA

Neptune and Tritron

Title	Neptune and Tritron
Full Description	This image was returned by the Voyager 2 spacecraft on July 3, 1989, when it was 76 million kilometers (47 million miles) from Neptune. The planet and its largest satellite, Triton, are captured in the field of view of Voyager's narrow-angle camera through violet, clear and orange filters. Triton appears in the lower right corner at about 5 o'clock relative to Neptune. Measurements from Voyager images show Triton to be between 1,400 and 1,800 kilometers (about 870 to 1,100 miles) in radius with a surface that is about as bright as freshly fallen snow. Because Triton is barely resolved in current narrow-angle images, it is too early to see features on its surface. Scientists believe Triton has at least a small atmosphere of methane and possibly other gases. During its closest approach to Triton on August 25, 1989, Voyager provided high-resolution views of the moon's icy surface and reveal whether Triton's atmosphere has clouds. JPL manages the Voyager Project for NASA's Office of Space Science and Applications, Washington, DC.
Date	07/27/1989
NASA Center	Jet Propulsion Laboratory

Voyager Redux

Description	Voyager Redux
Full Description	During Cassini's Dec. 26 flyby of Titan, the spacecraft will be in the same region that NASA's Voyager 1 flew by in 1980. Cassini's path through the tail of Titan's magnetic field will provide scientists new data to compare with what Voyager found 25 years ago. + View Flyby Page
Date	December 21, 2005

Approaching Jupiter

Title	Approaching Jupiter
Explanation	In 1979 the Voyager 1 spacecraft [ http://vraptor.jpl.nasa.gov/voyager/voyager_fs.html ] compiled this view as it approached the gas giant Jupiter [ http://www.seds.org/nineplanets/nineplanets/jupiter.html ]. Snapping a picture every time the Great Red Spot [ http://antwrp.gsfc.nasa.gov/apod/ap960827.html ] was properly aligned, the above time-lapse sequence [ http://photojournal.jpl.nasa.gov/cgi-bin/PIAGenCatalogPage.pl?PIA02259 ] shows not only spot [ http://www.gfdl.gov/~gw/ ] rotation but also the swirling of neighboring clouds [ http://antwrp.gsfc.nasa.gov/apod/ap000429.html ]. Since Jupiter [ http://www.solarviews.com/eng/jupiter.htm ] takes about 10 hours to rotate, this short sequence actually covers several days. Voyager 1 shot past Jupiter [ http://antwrp.gsfc.nasa.gov/apod/jupiter.html ] rapidly taking pictures on which many discoveries [ http://www.solarviews.com/eng/vgrjup.htm ] would be made, including previously unknown cloud patterns [ http://antwrp.gsfc.nasa.gov/apod/ap970920.html ], rings [ http://antwrp.gsfc.nasa.gov/apod/ap980916.html ], moons [ http://www.seds.org/nineplanets/nineplanets/amalthea.html#adrastea ], and active volcanoes [ http://antwrp.gsfc.nasa.gov/apod/ap960805.html ] on Jupiter's moon Io [ http://www.jpl.nasa.gov/galileo/moons/io.html ]. Voyager is moving so fast that it will one day leave [ http://antwrp.gsfc.nasa.gov/apod/ap980620.html ] our Solar System [ http://www.seds.org/nineplanets/nineplanets/overview.html ].

5 Million Miles From Io

Title	5 Million Miles From Io
Explanation	Twenty years ago this month, NASA's Voyager 1 spacecraft [ http://vraptor.jpl.nasa.gov/voyager/sc_instr/I_spacecraft.html ] flew past Jupiter and its moons. This sharp picture of moon Io [ http://www.seds.org/nineplanets/nineplanets/io.html ] against a background of gas giant Jupiter's [ http://www.seds.org/nineplanets/nineplanets/jupiter.html ] diffuse swirling cloud bands was recorded by Voyager's camera from [ http://antwrp.gsfc.nasa.gov/apod/ap980919.html ] a distance of about 5 million miles. Even this early image [ http://photojournal.jpl.nasa.gov/ cgi-bin/PIAGenCatalogPage.pl?PIA00378 ] shows curious round features on Io's surface with dark centers and bright rims more than 40 miles across. Now known to be volcanic in origin [ http://photojournal.jpl.nasa.gov/ cgi-bin/PIAGenCatalogPage.pl?PIA00744 ], these features were then thought likely to be impact craters, commonly seen on rocky bodies throughout the Solar System [ http://antwrp.gsfc.nasa.gov/apod/ap980517.html ]. But as Voyager [ http://vraptor.jpl.nasa.gov/voyager/record.html ] continued to approach Io, close-up pictures revealed a bizarre world devoid of impact craters, frequently resurfaced by [ http://antwrp.gsfc.nasa.gov/apod/ap970321.html ] volcanic activity. In fact, Io's volcanism is [ http://volcano.und.nodak.edu/vwdocs/planet_volcano/Io/Overview.html ] so intense that subsequent Voyager images produced an astounding discovery - the first observed [ http://photojournal.jpl.nasa.gov/ cgi-bin/PIAGenCatalogPage.pl?PIA00379 ] extraterrestrial volcanic eruptions.

Voyager at 90 AU

Title	Voyager at 90 AU
Explanation	Launched in 1977 [ http://voyager.jpl.nasa.gov/science/planetary.html ], Voyager 1 is now about 12 light-hours or 90 astronomical units [ http://voyager.jpl.nasa.gov/ ] (AU [ http://einstein.stcloudstate.edu/Dome/clicks/ au.html ]) from the Sun, making this spacecraft humanity's most distant ambassador [ http://antwrp.gsfc.nasa.gov/apod/ap020831.html ] to the cosmos. Well beyond the orbits of the outer planets, Voyager 1 is believed to be entering the realm of deep space [ http://www.gsfc.nasa.gov/topstory/2003/1105voyager.html ] near the edge of the heliosphere [ http://science.msfc.nasa.gov/ssl/pad/solar/heliosph.htm ], the region dominated by the solar wind and magnetic field. Causing some debate [ http://www.jpl.nasa.gov/webcast/voyager/ ], new results from instruments still operating have given indications that the spacecraft could finally be encountering a fluctuating boundary known as the solar wind's termination shock. Illustrated above, the bubble-shaped termination shock is produced when the wind from the Sun [ http://antwrp.gsfc.nasa.gov/apod/ap000318.html ] slows dramatically and piles up as it runs in to the tenuous interstellar gas. Still farther out, beyond the heliopause [ http://antwrp.gsfc.nasa.gov/apod/ap020624.html ], solar wind and interstellar gas begin to mix, while the heliosphere's motion through interstellar space creates a bow shock [ http://antwrp.gsfc.nasa.gov/apod/ap031115.html ], analogous to a boat moving through water. Estimates are that both Voyager 1 and 2 [ http://nssdc.gsfc.nasa.gov/planetary/ voyager.html ] have enough power and fuel to operate until about the year 2020. The spacecraft continue to coast toward interstellar space at over 3 AU per year.

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.

Titan's thick haze layer

PIA02238

Saturn

Imaging Science Subsystem - …

Title	Titan's thick haze layer
Original Caption Released with Image	Titan's thick haze layer is shown in this enhanced Voyager 1 image taken Nov. 12, 1980 at a distance of 435,000 kilometers (270,000 miles). Voyager images of Saturn's largest moon show Titan completely enveloped by haze that merges with a darker "hood" or cloud layer over the north pole. Such a mantle is not present at the south pole. At Voyager's closest approach to Titan on Nov. 11, 1980, spacecraft instruments found that the moon has a substantial atmosphere, far denser than that of Mars and possibly denser than Earth's. The Voyager Project is managed for NASA by the Jet Propulsion Laboratory, Pasadena, Calif.

Voyager Tour Montage

PIA01483

Sol (our sun)

Title	Voyager Tour Montage
Original Caption Released with Image	This montage of images of the planets visited by Voyager 2was prepared from an assemblage of images taken by the 2 Voyager spacecraft. The Voyager Project is managed for NASA by the Jet Propulsion Laboratory, Pasadena, California.

Nereid

PIA00054

Neptune

Title	Nereid
Original Caption Released with Image	Nereid, the last satellite of Neptune to be discovered before Voyager's recent discoveries, was first seen by Gerard Kuiper in 1949. Until this Voyager 2 image was obtained, all that was known about Nereid was its orbital parameters and intrinsic brightness. This Voyager view of Nereid was obtained on Aug. 24, 1989 at a distance of 4.7 million kilometers (2.9 million miles). With a resolution of 43 kilometers (26.6 miles) per pixel, this image has sufficient detail to show the overall size and albedo. Nereid is about 170 kilometers (105 miles) across and reflects about 12 percent of the incident light. The Voyager Mission is conducted by JPL for NASA's Office of Space Science and Applications.

Voyager 1-121

This picture of Io, Jupiter' …

3/9/79

Date	3/9/79
Description	This picture of Io, Jupiter's innermost Galilean satellite, was taken by Voyager 1 on the morning of March 5, 1979 at a range of 128,500 kilometers (77,100 miles). It is centered at 8 south latitude and 317 longitude. The width of the picture is about 1000 kilometeters (600 miles). The diffuse reddish and orangish colorations are probably surface deposits of sulfer compounds, salts and possibly other volcanic sublimates. The dark spot with the irregular radiating pattern near the bottom of the picture may be a volcanic crater with radiating lava flows.

Voyager 2-N76

This dramatic view of the cr …

8/29/89

Date	8/29/89
Description	This dramatic view of the crescents of Neptune and Triton was acquired by Voyager 2 approximately 3 days, 6 and one-half hours after its closest approach to Neptune. The spacecraft is now plunging southward at an angle of 48 degrees to the plane of the ecliptic. This direction, combined with the current season of southern summer in the Neptune system, gives this picture its unique geometry. The spacecraft was at a distance of 4.86 million kilometers (3 million miles) from Neptune when these images were shuttered so the smallest detail discernible is approximately 90 kilometers (56 miles). Color was produced using images taken through the narrow-angle camera's clear, orange and green filters. Neptune does not appear as blue from this viewpoint because the forward scattering nature of its atmosphere is more important than its absorption of red light at this high phase angle (134 degrees).The Voyager Mission is conducted by JPL for NASA's Office of Space Science and Applications.

Voyager 2-N77

Voyager 2 obtained this high …

8/29/89

Date	8/29/89
Description	Voyager 2 obtained this high-resolution color image of Neptune's large satellite Triton during its close flyby on Aug. 25, 1989. Approximately a dozen individual images were combined to produce this comprehensive view of the Neptune-facing hemisphere of Triton. Fine detail is provided by high-resolution, clear-filter images, with color information added from lower-resolution frames. The large south polar cap at the bottom of the image is highly reflective and slightly pink in color, it may consist of a slowly evaporating layer of nitrogen ice deposited during the previous winter. From the ragged edge of the polar cap northward the satellite's face is generally darker and redder in color. This coloring may be produced by the action of ultraviolet light and magnetospheric radiation upon methane in the atmosphere and surface. Running across this darker region, approximately parallel to the edge of the polar cap, is a band of brighter white material that is almost bluish in color. The underlying topography in this bright band is similar, however to that in the darker, redder regions surrounding it. The Voyager Mission is conducted by JPL for NASA's Office of Space Science and Applications. #####

Voyager 2

This picture of Neptune was …

4/2/90

Date	4/2/90
Description	This picture of Neptune was produced from the last whole planet images taken through the green and orange filters on the Voyager 2 narrow angle camera. The images were taken at a range of 4.4 million miles from the planet, 4 days and 20 hours before closest approach. The picture shows the Great Dark Spot and its companion bright smudge, on the west limb the fast moving bright feature called Scooter and the little dark spot are visible. These clouds were seen to persist for as long as Voyager's cameras could resolve them. North of these, a bright cloud band similar to the south polar streak may be seen. The Voyager Mission is conducted by JPL for NASA's Office of Space Science and Applications.

Launch of Titan III-Centaur, …

Name of Image	Launch of Titan III-Centaur, Voyager 1
Date of Image	1977-09-05
Full Description	The Voyager 1 aboard the Titan III/Centaur lifted off on September 5, 1977, joining its sister spacecraft, the Voyager 2, on a mission to the outer planets.

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 ].

Uranus

Title	Uranus
Full Description	This computer enhancement of a Voyager 2 image, emphasizes the high-level haze in Uranus' upper atmosphere. Clouds are obscured by the overlying atmosphere. JPL manages and controls the Voyager project for NASA's Office of Space Science, Washington, DC.
Date	01/01/1986
NASA Center	Jet Propulsion Laboratory

Surface Changes on Io

PIA00713

Jupiter

Solid-State Imaging

Title	Surface Changes on Io
Original Caption Released with Image	Four views of an unnamed volcanic center (latitude 11, longitude 337) on Jupiter's moon Io showing changes seen on June 27th, 1996 by the Galileo spacecraft as compared to views seen by the Voyager spacecraft during the 1979 flybys. Clockwise from upper left is a Voyager 1 high resolution image, a Voyager 1 color image, a Galileo color image, and a Voyager 2 color image. North is to the top of the picture. This area has experienced many changes in appearance since Voyager images were acquired, including new dark and bright deposits. This region was a hot spot during Voyager 1. Images are 762 km wide. The Jet Propulsion Laboratory, Pasadena, CA manages the mission for NASA's Office of Space Science, Washington, DC. This image and other images and data received from Galileo are posted on the World Wide Web, on the Galileo mission home page at URL http://galileo.jpl.nasa.gov. Background information and educational context for the images can be found at URL http://www.jpl.nasa.gov/galileo/sepo

Io

PIA01362

Jupiter

Imaging Science Subsystem - …

Title	Io
Original Caption Released with Image	Voyager 2 took this picture of Io on the evening of July 9, 1979, from a range of 1.2 million kilometers. On the limb of Io are two blue volcanic eruption plumes about 100 kilometers high. These two plumes were first seen by Voyager 1 in March, 1979, and are designated Plume 5 (upper) and Plume 6 (lower). They have apparently been erupting for a period of at least 4 months and probably longer. A total of six plumes have been seen by Voyager 2, all of which were first seen by Voyager 1. The largest plume viewed by Voyager 1 (Plume 1) is no longer erupting. Plume 4 was not viewed on the edge of the moon's disc by Voyager 2 and therefore it is not known whether or not it is still erupting. This picture is one of a series taken to monitor the eruptions over a 6 hour period.

Jupiter System Montage

PIA01481

Sol (our sun)

Title	Jupiter System Montage
Original Caption Released with Image	Jupiter and its four planet-size moons, called the Galilean satellites, were photographed in early March by Voyager 1 and assembled into this collage. They are not to scale but are in their relative positions. Startling new discoveries on the Galilean moons and the planet Jupiter made by Voyager 1 have been factored into a new mission design for Voyager 2. Voyager 2 will fly past Jupiter on July 9. Reddish Io (upper left) is nearest Jupiter, then Europa (center), Ganymede and Callisto (lower right). Nine other much smaller satellites circle Jupiter, one inside Io's orbit and the other millions of miles from the planet. Not visible is Jupiter's faint ring of particles, seen for the first time by Voyager 1. The Voyager Project is managed for NASA's Office of Space Science by Jet Propulsion Laboratory, California Institute of Technology.

Crescent Earth and Moon

PIA00013

Sol (our sun)

Title	Crescent Earth and Moon
Original Caption Released with Image	This picture of a crescent-shaped Earth and Moon -- the first of its kind ever taken by a spacecraft -- was recorded Sept. 18, 1977, by NASA's Voyager 1 when it was 7.25 million miles (11.66 million kilometers) from Earth. The Moon is at the top of the picture and beyond the Earth as viewed by Voyager. In the picture are eastern Asia, the western Pacific Ocean and part of the Arctic. Voyager 1 was directly above Mt. Everest (on the night side of the planet at 25 degrees north latitude) when the picture was taken. The photo was made from three images taken through color filters, then processed by the Jet Propulsion Laboratory's Image Processing Lab. Because the Earth is many times brighter than the Moon, the Moon was artificially brightened by a factor of three relative to the Earth by computer enhancement so that both bodies would show clearly in the print. Voyager 2 was launched Aug. 20, 1977, followed by Voyager 1 on Sept. 5, 1977, en route to encounters at Jupiter in 1979 and Saturn in 1980 and 1981. JPL manages the Voyager mission for NASA's Office of Space Science.

Saturn's B-ring

PIA02274

Saturn

Imaging Science Subsystem - …

Title	Saturn's B-ring
Original Caption Released with Image	Prominent dark spokes are visible in the outer half of Saturn?s broad B-ring in this Voyager 2 photograph taken on Aug. 3, 1981 from a range of about 22 million kilometers (14 million miles). The features appear as filamentary markings about 12,000 kilometers (7,S00 miles) long, which rotate around the planet with the motion of particles in the rings. The nature of these features, discovered by Voyager 1, is not totally understood, but scientists believe the spokes may be caused by dust levitated above the ring plane by electric fields, Voyager 2 photography of the rings edge-on, scheduled for Aug. 25, 1981, will provide an opportunity to test that theory. Because the Sun is now illuminating the rings from a higher angle, Voyager 2's photographs reveal ring structure from a greater distance than that seen by Voyager 1 in its November 1980 encounter. The Voyager project is managed for NASA by the Jet Propulsion Laboratory, Pasadena, Calif.

Crescent-shaped Earth and Mo …

PIA01967

Sol (our sun)

Imaging Science Subsystem - …

Title	Crescent-shaped Earth and Moon
Original Caption Released with Image	This picture of a crescent-shaped Earth and Moon -- the first of its kind ever taken by a spacecraft -- was recorded Sept. 18, 1977, by NASA's Voyager 1 when it was 7.25 million miles (11.66 million kilometers) from Earth. The Moon is at the top of the picture and beyond the Earth as viewed by Voyager. In the picture are eastern Asia, the western Pacific Ocean and part of the Arctic. Voyager 1 was directly above Mt. Everest (on the night side of the planet at 25 degrees north latitude) when the picture was taken. The photo was made from three images taken through color filters, then processed by the Jet Propulsion Laboratory's Image Processing Lab. Because the Earth is many times brighter than the Moon, the Moon was artificially brightened by a factor of three relative to the Earth by computer enhancement so that both bodies would show clearly in the print. Voyager 2 was launched Aug. 20, 1977, followed by Voyager 1 on Sept. 5, 1977, en route to encounters at Jupiter in 1979 and Saturn in 1980 and 1981. JPL manages the Voyager mission for NASA.

Neptune Hurricanes

title	Neptune Hurricanes
date	08.24.1989
description	Voyager 2 sent back this stunning image of storms at work in Neptune's windy atmosphere in August 1989. This photograph of Neptune was reconstructed from two images taken by Voyager 2's narrow-angle camera, through the green and clear filters. The image shows three of the features that Voyager 2 photographed during its Neptune flyby. At the north (top) is the Great Dark Spot, accompanied by bright, white clouds that undergo rapid changes in appearance. To the south of the Great Dark Spot is the bright feature that Voyager scientists nicknamed "Scooter." Still farther south is the feature called "Dark Spot 2," which has a bright core. Each feature moves eastward at a different velocity, so it is only occasionally that they appear close to each other, such as at the time this picture was taken. Voyager 2 is the only spacecraft to visit Neptune. Image Credit: NASA

Uranus Ring System

title	Uranus Ring System
description	This dramatic Voyager 2 picture reveals a continuous distribution of small particles throughout the Uranus ring system. Voyager took this image while in the shadow of Uranus, at a distance of 236,000 kilometers (142,000 miles and a resolution of about 33 km (20 ml). This unique geometry -- the highest phase angle at which Voyager imaged the rings -- allows us to see lanes of fine dust particles not visible from other viewing angles. All the previously known rings are visible here, however, some of the brightest features in the image are bright dust lanes not previously seen. The combination of this unique geometry and a long, 96 second exposure allowed this spectacular observation, acquired through the clear filter of Voyager's wide-angle camera. The long exposure produced a noticeable, non-uniform smear as well as streaks due to trailed stars. The Voyager project is managed for NASA by the Jet Propulsion Laboratory. Image Credit: JPL

Saturn's Shadow

title	Saturn's Shadow
date	11.16.1980
description	Voyager 1 looked back at Saturn on Nov. 16, 1980, four days after the spacecraft flew past the planet, to observe the appearance of Saturn and its rings from this unique perspective. A few of the spokelike ring features discovered by Voyager appear in the rings as bright patches in this image, taken at a distance of 5.3 million kilometers (3.3 million miles) from the planet. Saturn's shadow falls upon the rings and the bright Saturn crescent is seen through all but the densest portion of the rings. From Saturn, Voyager 1 is on a trajectory taking the spacecraft out of the ecliptic plane, away from the Sun and eventually out of the solar system (by about 1990). Although its mission to Jupiter and Saturn is nearly over (the Saturn encounter ends Dec. 18, 1980), Voyager 1 will be tracked by the Deep Space Network as far as possible in an effort to determine where the influence of the Sun ends and interstellar space begins. Voyager 1's flight path through interstellar space is in the direction of the constellation Ophiuchus. Image Credit: NASA

Io

PIA01989

Jupiter

Imaging Science Subsystem - …

Title	Io
Original Caption Released with Image	This Voyager 2 picture of Io was taken in ultraviolet light on the evening of July 4, 1979, at a range of 4.7 million kilometers (2.9 million miles). The bright spot on the right limb is one of the volcanic eruption plumes first photographed by Voyager 1. The plume is more than 200 kilometers (124 miles) high. The volcano apparently has been erupting since it was observed by Voyager 1 in March. This suggests that the volcanos on Io probably are in continuous eruption.

Artist's Concept of Voyager

PIA04495

Title	Artist's Concept of Voyager
Original Caption Released with Image	This artist's concept of the Voyager spacecraft with its antenna pointing to Earth. The identical Voyager spacecraft are three-axis stabilized systems that use celestial or gyro referenced attitude control to maintain pointing of the high-gain antennas toward Earth. The prime mission science payload consisted of 10 instruments (11 investigations including radio science). Only five investigator teams are still supported, though data are collected for two additional instruments.

Saturn's faint inner D-ring

PIA01388

Saturn

Imaging Science Subsystem - …

Title	Saturn's faint inner D-ring
Original Caption Released with Image	Voyager 2 took this picture of Saturn's faint inner D-ring Aug. 25 about 1 hour 48 minutes before the spacecraft's closest approach to Saturn. The range was 195,400 kilometers (121,300 miles) and phase angle was 166`. This view includes the sun's shadow across the ring. Voyager 1 saw this region in a similar view last fall, but this higher-resolution image shows many more ringlets and gaps. The D-ring is very tenuous and has an extremely small optical depth. The Voyager project is managed for NASA by the Jet Propulsion Laboratory, Pasadena, Calif.

Exploring Saturn's Rings

Title	Exploring Saturn's Rings
Explanation	By watching a star flicker and fade as it passed behind Saturn's rings, NASA's Voyager 2 [ http://nssdc.gsfc.nasa.gov/planetary/voyager.html ] spacecraft was able explore the ring system in amazing detail. Data produced by Voyager's instruments as the star Delta Scorpii was occulted by some of the outer rings was used to reconstruct this image which shows details almost 1000 times smaller than normally possible with Voyager's cameras. For more information about the picture see the NASA, JPL press release [ http://nssdc.gsfc.nasa.gov/photo_gallery/caption/saturn_f_ring.txt ]. Tomorrow's picture: Crossing the Ring Plane

Voyager

title	Voyager
description	An artist's impression of the Voyager spacecraft. Image Credit: NASA

First Close-up Image of Jupiter from Voyager 1

First Close-up Image of Jupi …

PIA00029

Sol (our sun)

Title	First Close-up Image of Jupiter from Voyager 1
Original Caption Released with Image	NASA'S Voyager 1 took this picture of the planet Jupiter on Saturday, Jan. 6, the first in its three-month-long, close-up investigation of the largest planet. The spacecraft, flying toward a March 5 closest approach, was 35.8 million miles (57.6 million kilometers) from Jupiter and 371.7 million miles (598.2 million kilometers) from Earth when the picture was taken. As the Voyager cameras begin their meteorological surveillance of Jupiter, they reveal a dynamic atmosphere with more convective structure than had previously been thought. While the smallest atmospheric features seen in this picture are still as large as 600 miles (1,000 kilometers) across, Voyager will be able to detect individual storm systems as small as 3 miles (5 kilometers) at closest approach. The Great Red Spot can be seen near the limb at the far right. Most of the other features are too small to be seen in terrestrial telescopes. This picture is really a combination of three images taken through color filters, then transmitted to Jet Propulsion Laboratory through the Deep Space Network's antennas, and assembled by JPL's Image Processing Lab. The Voyager Project is managed for NASA by Caltech's Jet Propulsion Laboratory.

Voyager 2 Looks at Saturn's …

title	Voyager 2 Looks at Saturn's Rings
date	08.17.1981
description	Voyager 2 false-color image of Saturn's rings. Subtle color variations due to differences in surface composition of the particles making up the rings are enhanced in this image produced by combining ultraviolet, clear, and orange frames. The frame was taken from a distance of 8.9 million km on August 17, 9 days before closest approach, and measures about 68,000 km from top to bottom. (Voyager 2, P-23953) Image Credit: NASA

Voyager 2 Launch

title	Voyager 2 Launch
date	08.20.1977
description	Voyager 2 was launched on August 20, 1977, from the NASA Kennedy Space Center at Cape Canaveral in Florida, propelled into space on a Titan/Centaur rocket. JPL manages and controls the Voyager project for NASA's Office of Space Science. Image Credit: NASA

Launch of Titan III-Centaur, …

Name of Image	Launch of Titan III-Centaur, Voyager 2
Date of Image	1977-08-20
Full Description	The Voyager 2 aboard Titan III-Centaur launch vehicle lifted off on August 20, 1977. The Voyager 2 was a scientific satellite to study the Jupiter and the Saturn planetary systems including their satellites and Saturn's rings.

Neptune - partial rings

Title	Neptune - partial rings
Description	One of two new ring arcs, or partial rings, discovered today by NASA's Voyager 2 spacecraft, is faintly visible here just outside the orbit of the Neptunian moon 1989N4, also discovered by Voyager 2 earlier this month. The 155 second exposure taken by Voyager's narrow-angle camera shows the glare of an overexposed Neptune to the right of the moon and ring arc. The two bright streaks below the moon and ring arc are stars. The ring arc is approximately 50,000 kilometers (or 30,000 miles) long. (The second ring arc, not apparent here, is approximately 10,000 kilometers (6,000 miles) long and is associated with the moon 1989N3.) The ring arc, along with 1989N4, orbits about 62,000 kilometers (38,000 miles) from the planet's center, or about 37,000 kilometers (23,000 miles) from the planet's cloud tops. Astronomers have long suspected the existence of such an irregular ring system around Neptune. Data from repeated ground based observations hinted at the existence of irregular strands of partial rings orbiting Neptune. Voyager's photographs of the ring arcs are the first photographic evidence that such a ring system exists. Voyager scientists said the ring arcs may be comprised of debris associated with the nearby moons, or may be the remnants of moons that have been torn apart or ground down through collisions. Close-up studies of the ring arcs by Voyager 2 in coming days should help determine their composition. The Voyager mission is conducted by the Jet Propulsion Laboratory for NASA's Office of Space Science and Applications.
Date	08.11.1989

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