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Viking Lander 1's U.S. Flag
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PIA00565
Sol (our sun)
Camera 1
| Title |
Viking Lander 1's U.S. Flag on Mars Surface |
| Original Caption Released with Image |
The flag of the United States with the rocky Martian surface in the background is seen in this color picture taken on the sixth day of Viking Lander 1 on Mars (July 26). The flag is on the RTG (Radioisotope Thermoelectric Generator) wind screen. Below the flag is the bicentennial logo and the Viking symbol which shows an ancient Viking ship. This Viking symbol was designed by Peter Purol of Baltimore, winner of the Viking logo contest open to high school science students. To the right is the Reference Test Chart used for color balancing of the color images. At the bottom is the GCMS Processor Distribution Assembly with the wind screens unfurled demonstrating that the GCMS cover was deployed properly. The scene in the background is looking almost due west on Mars. The lighter zone at the far horizon is about 3 km (nearly 2 miles) from the Lander. The darker line below this is a hill crest much closer to the Lander (about 200 m or about 650 feet). The picture was taken at local Mars Time of 7:18 A.M., hence the relatively dark sky and the far horizon illuminated by the sun just rising behind the Lander. |
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Viking 2's 30th!
PIA08723
Sol (our sun)
Mars Orbiter Camera
| Title |
Viking 2's 30th! |
| Original Caption Released with Image |
3 September 2006 Viking 2 landed 30 years ago today, on 3 September 1976. It was the second of the two Viking landings on Mars. Viking 1 touched down on 20 July 1976. Since the Viking missions of the 1970s, only 3 additional spacecraft have successfully landed and conducted their scientific investigations: Mars Pathfinder (1997), Mars Exploration Rover Spirit (2004-present), and Mars Exploration Rover Opportunity (2004-present). Two new U.S. Mars landed missions are currently in the works: Phoenix, launching in August 2007, and MSL (Mars Science Laboratory), launching in 2009. As with the 30th anniversary of the Viking 1 landing in July (see PIA08616 [ http://photojournal.jpl.nasa.gov/catalog/PIA08616 ]), for the Viking 2 30th anniversary, we show here the best Mars Global Surveyor (MGS) Mars Orbiter Camera (MOC) view of the landing site. On that day 30 years ago, Viking 2 landed in Utopia Planitia, west of Mie Crater, near 48.0°N, 225.7°W. At the time, it was considered that this might be a good place to look for evidence of life in the martian regolith. This middle north latitude site is often obscured by clouds in the winter and dust hazes in the spring. The surface was observed by the lander to be dusted by thin coatings of frost during the winter months. The exact location of the Viking 2 lander was uncertain until MOC obtained the high resolution view, shown above, in 2004. These images were previously released by the MOC team on 5 May 2005, along with what was then considered to be the best candidate for the Mars Polar Lander site (see "MGS Finds Viking 2 Lander and Mars Polar Lander (Maybe)" [ http://www.msss.com/mars_images/moc/2005/05/05/ ]). The candidate Polar Lander site was further imaged in 2005 and found not to be the lander (see PIA03044 [ http://photojournal.jpl.nasa.gov/catalog/PIA03044 ]). Figure 1 shows (A) a mosaic of Viking Orbiter images obtained in the 1970s at a resolution of 75 m/pixel, (B) a typical MGS MOC narrow angle camera view at about 3 meters/pixel (25x higher resolution than the Viking images), and (C, D) sections of a MOC image obtained at ~0.5 m/pixel. Figure 2 shows an extreme enlargement of the feature identified as Viking Lander 2, compared to a schematic drawing of the lander in the orientation determined during the Viking mission. |
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Viking 2's 30th!
PIA08723
Sol (our sun)
Mars Orbiter Camera
| Title |
Viking 2's 30th! |
| Original Caption Released with Image |
3 September 2006 Viking 2 landed 30 years ago today, on 3 September 1976. It was the second of the two Viking landings on Mars. Viking 1 touched down on 20 July 1976. Since the Viking missions of the 1970s, only 3 additional spacecraft have successfully landed and conducted their scientific investigations: Mars Pathfinder (1997), Mars Exploration Rover Spirit (2004-present), and Mars Exploration Rover Opportunity (2004-present). Two new U.S. Mars landed missions are currently in the works: Phoenix, launching in August 2007, and MSL (Mars Science Laboratory), launching in 2009. As with the 30th anniversary of the Viking 1 landing in July (see PIA08616 [ http://photojournal.jpl.nasa.gov/catalog/PIA08616 ]), for the Viking 2 30th anniversary, we show here the best Mars Global Surveyor (MGS) Mars Orbiter Camera (MOC) view of the landing site. On that day 30 years ago, Viking 2 landed in Utopia Planitia, west of Mie Crater, near 48.0°N, 225.7°W. At the time, it was considered that this might be a good place to look for evidence of life in the martian regolith. This middle north latitude site is often obscured by clouds in the winter and dust hazes in the spring. The surface was observed by the lander to be dusted by thin coatings of frost during the winter months. The exact location of the Viking 2 lander was uncertain until MOC obtained the high resolution view, shown above, in 2004. These images were previously released by the MOC team on 5 May 2005, along with what was then considered to be the best candidate for the Mars Polar Lander site (see "MGS Finds Viking 2 Lander and Mars Polar Lander (Maybe)" [ http://www.msss.com/mars_images/moc/2005/05/05/ ]). The candidate Polar Lander site was further imaged in 2005 and found not to be the lander (see PIA03044 [ http://photojournal.jpl.nasa.gov/catalog/PIA03044 ]). Figure 1 shows (A) a mosaic of Viking Orbiter images obtained in the 1970s at a resolution of 75 m/pixel, (B) a typical MGS MOC narrow angle camera view at about 3 meters/pixel (25x higher resolution than the Viking images), and (C, D) sections of a MOC image obtained at ~0.5 m/pixel. Figure 2 shows an extreme enlargement of the feature identified as Viking Lander 2, compared to a schematic drawing of the lander in the orientation determined during the Viking mission. |
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Viking 2's 30th!
PIA08723
Sol (our sun)
Mars Orbiter Camera
| Title |
Viking 2's 30th! |
| Original Caption Released with Image |
3 September 2006 Viking 2 landed 30 years ago today, on 3 September 1976. It was the second of the two Viking landings on Mars. Viking 1 touched down on 20 July 1976. Since the Viking missions of the 1970s, only 3 additional spacecraft have successfully landed and conducted their scientific investigations: Mars Pathfinder (1997), Mars Exploration Rover Spirit (2004-present), and Mars Exploration Rover Opportunity (2004-present). Two new U.S. Mars landed missions are currently in the works: Phoenix, launching in August 2007, and MSL (Mars Science Laboratory), launching in 2009. As with the 30th anniversary of the Viking 1 landing in July (see PIA08616 [ http://photojournal.jpl.nasa.gov/catalog/PIA08616 ]), for the Viking 2 30th anniversary, we show here the best Mars Global Surveyor (MGS) Mars Orbiter Camera (MOC) view of the landing site. On that day 30 years ago, Viking 2 landed in Utopia Planitia, west of Mie Crater, near 48.0°N, 225.7°W. At the time, it was considered that this might be a good place to look for evidence of life in the martian regolith. This middle north latitude site is often obscured by clouds in the winter and dust hazes in the spring. The surface was observed by the lander to be dusted by thin coatings of frost during the winter months. The exact location of the Viking 2 lander was uncertain until MOC obtained the high resolution view, shown above, in 2004. These images were previously released by the MOC team on 5 May 2005, along with what was then considered to be the best candidate for the Mars Polar Lander site (see "MGS Finds Viking 2 Lander and Mars Polar Lander (Maybe)" [ http://www.msss.com/mars_images/moc/2005/05/05/ ]). The candidate Polar Lander site was further imaged in 2005 and found not to be the lander (see PIA03044 [ http://photojournal.jpl.nasa.gov/catalog/PIA03044 ]). Figure 1 shows (A) a mosaic of Viking Orbiter images obtained in the 1970s at a resolution of 75 m/pixel, (B) a typical MGS MOC narrow angle camera view at about 3 meters/pixel (25x higher resolution than the Viking images), and (C, D) sections of a MOC image obtained at ~0.5 m/pixel. Figure 2 shows an extreme enlargement of the feature identified as Viking Lander 2, compared to a schematic drawing of the lander in the orientation determined during the Viking mission. |
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Trench Left By Sampler Scoop
PIA00526
Sol (our sun)
Camera 1
| Title |
Trench Left By Sampler Scoop |
| Original Caption Released with Image |
A shallow 12-inch-long trench was dug by Viking 2 s surface sampler scoop yesterday (September 12) on Mars. The trench is difficult to see in this photo because it is in the shadow of a rock (out of view to the right). The sampler scoop stopped operating sometime after soil was excavated from the trench and delivered to Viking 2 s biology instrument. |
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Viking Lander 1's U.S. Flag
| title |
Viking Lander 1's U.S. Flag |
| Description |
The flag of the United States with the rocky Martian surface in the background is seen in this color picture taken on the sixth day of Viking Lander 1 on Mars (July 26). The flag is on the RTG (Radioisotope Thermoelectric Generator) wind screen. Below the flag is the bicentennial logo and the Viking symbol which shows an ancient Viking ship. This Viking symbol was designed by Peter Purol of Baltimore, winner of the Viking logo contest open to high school science students. To the right is the Reference Test Chart used for color balancing of the color images. At the bottom is the GCMS Processor Distribution Assembly with the wind screens unfurled demonstrating that the GCMS cover was deployed properly. The scene in the background is looking almost due west on Mars. The lighter zone at the far horizon is about 3 km (nearly 2 miles) from the Lander. The darker line below this is a hill crest much closer to the Lander (about 200 m or about 650 feet). The picture was taken at local Mars Time of 7:18 A.M., hence the relatively dark sky and the far horizon illuminated by the sun just rising behind the Lander. |
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Viking Lander 2's First Pict
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PIA00396
Sol (our sun)
Camera 1
| Title |
Viking Lander 2's First Picture On The Surface Of Mars |
| Original Caption Released with Image |
Viking 2 s first picture on the surface of Mars was taken within minutes after the spacecraft touched down on September 3. The scene reveals a wide variety of rocks littering a surface of fine-grained deposit. Boulders in the 10 to 20-centimeter (4 to 8-inch) size range-- some vesicular (holes) and some apparently fluted by wind--are common. Many of the pebbles have tabular or platy shapes, suggesting that they may be derived from layered strata. The fluted boulder just above the Lander s footpad displays a dust-covered or scraped surface, suggesting it was overturned or altered by the foot at touchdown. Just as occurred with Viking l s first picture on July 20, brightness variations at the beginning of the picture scan (left edge) probably are due to dust settling after landing. A substantial amount of fine-grained material kicked up by the descent engines has accumulated in the concave interior of the footpad. Center of the image is about 1.4 meters (5 feet) from the camera. Field of view extends 70 from left to right and 20 from top to bottom. Viking 2 landed at a region called Utopia in the northern latitudes about 7500 kilometers (4600 miles) northeast of Viking l s landing on the Chryse plain 45 days earlier. |
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Afternoon on Chryse Planitia
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PIA03165
Sol (our sun)
Camera 1
| Title |
Afternoon on Chryse Planitia - Viking Lander 1 Camera 1 Mosaic |
| Original Caption Released with Image |
During the Viking Mission, the Viking Lander Camera System acquired many high-resolution images of the scene at Chryse Planitia. Using individual camera events, which occurred on many days throughout the mission, computer mosaics have been created for the site as viewed by each of the two cameras on the spacecraft. Two sets of mosaics were produced of Chryse Planitia, one pair for camera 1 and 2 images acquired in the early morning and one pair for camera 1 and 2 images acquired in the mid-afternoon. Each complete mosaiced scene extends 342.5 degrees in azimuth, and from approximately 5 degrees above the horizon to 60 degrees below. A complete mosaic incorporated approximately 15 million picture elements (pixels). This mosaic was produced in the early morning (14:00-15:30) by the Camera 1 system on Viking Lander 1. See PIA03166 [ http://photojournal.jpl.nasa.gov/catalog/PIA03166 ]for the afternoon Camera 2 mosaic and PIA03163 [ http://photojournal.jpl.nasa.gov/catalog/PIA03163 ]and PIA03164 [ http://photojournal.jpl.nasa.gov/catalog/PIA03164 ]for the morning mosaics. |
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Morning on Chryse Planitia -
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PIA03164
Sol (our sun)
Camera 1
| Title |
Morning on Chryse Planitia - Viking Lander 1 Camera 2 Mosaic |
| Original Caption Released with Image |
During the Viking Mission, the Viking Lander Camera System acquired many high-resolution images of the scene at Chryse Planitia. Using individual camera events, which occurred on many days throughout the mission, computer mosaics have been created for the site as viewed by each of the two cameras on the spacecraft. Two sets of mosaics were produced of Chryse Planitia, one pair for camera 1 and 2 images acquired in the early morning and one pair for camera 1 and 2 images acquired in the mid-afternoon. Each complete mosaiced scene extends 342.5 degrees in azimuth, and from approximately 5 degrees above the horizon to 60 degrees below. A complete mosaic incorporated approximately 15 million picture elements (pixels). This mosaic was produced in the early morning (7:00-8:00) by the Camera 2 system on Viking Lander 1. See PIA03163 [ http://photojournal.jpl.nasa.gov/catalog/PIA03163 ]for the morning Camera 1 mosaic and PIA03165 [ http://photojournal.jpl.nasa.gov/catalog/PIA03165 ]and PIA03166 [ http://photojournal.jpl.nasa.gov/catalog/PIA03166 ]for the afternoon mosaics. |
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Morning on Chryse Planitia -
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PIA03163
Sol (our sun)
Camera 1
| Title |
Morning on Chryse Planitia - Viking Lander 1 Camera 1 Mosaic |
| Original Caption Released with Image |
During the Viking Mission, the Viking Lander Camera System acquired many high-resolution images of the scene at Chryse Planitia. Using individual camera events, which occurred on many days throughout the mission, computer mosaics have been created for the site as viewed by each of the two cameras on the spacecraft. Two sets of mosaics were produced of Chryse Planitia, one pair for camera 1 and 2 images acquired in the early morning and one pair for camera 1 and 2 images acquired in the mid-afternoon. Each complete mosaiced scene extends 342.5 degrees in azimuth, and from approximately 5 degrees above the horizon to 60 degrees below. A complete mosaic incorporated approximately 15 million picture elements (pixels). This mosaic was produced in the early morning (7:00-8:00) by the Camera 1 system on Viking Lander 1. See PIA03164 [ http://photojournal.jpl.nasa.gov/catalog/PIA03164 ]for the morning Camera 2 mosaic and PIA03165 [ http://photojournal.jpl.nasa.gov/catalog/PIA03165 ]and PIA03166 [ http://photojournal.jpl.nasa.gov/catalog/PIA03166 ]for the afternoon mosaics. |
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Afternoon on Chryse Planitia
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PIA03166
Sol (our sun)
Camera 1
| Title |
Afternoon on Chryse Planitia - Viking Lander 1 Camera 2 Mosaic |
| Original Caption Released with Image |
During the Viking Mission, the Viking Lander Camera System acquired many high-resolution images of the scene at Chryse Planitia. Using individual camera events, which occurred on many days throughout the mission, computer mosaics have been created for the site as viewed by each of the two cameras on the spacecraft. Two sets of mosaics were produced of Chryse Planitia, one pair for camera 1 and 2 images acquired in the early morning and one pair for camera 1 and 2 images acquired in the mid-afternoon. Each complete mosaiced scene extends 342.5 degrees in azimuth, and from approximately 5 degrees above the horizon to 60 degrees below. A complete mosaic incorporated approximately 15 million picture elements (pixels). This mosaic was produced in the early morning (14:00-15:30) by the Camera 2 system on Viking Lander 1. See PIA03165 [ http://photojournal.jpl.nasa.gov/catalog/PIA03165 ]for the afternoon Camera 1 mosaic and PIA03163 [ http://photojournal.jpl.nasa.gov/catalog/PIA03163 ]and PIA03164 [ http://photojournal.jpl.nasa.gov/catalog/PIA03164 ]for the morning mosaics. |
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Dust storm in the Thaumasia
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PIA02985
Sol (our sun)
| Title |
Dust storm in the Thaumasia region of Mars |
| Original Caption Released with Image |
This Viking Orbiter 2 image shows a large dust storm over the Thaumasia region on Mars. This large disturbance soon grew into the first global dust storm observed by the Viking Orbiters. This image was taken at 9:00 local time near perihelion when heating of Mars is at a maximum. The image is at 1400 km across and north is at 1:00. (Viking Orbiter 176B02) |
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Viking Phase III
PIA00531
Sol (our sun)
Camera 2
| Title |
Viking Phase III |
| Original Caption Released with Image |
VIKING PHASE III - With the incredible success of the Viking missions on Mars, mission operations have progressed though a series of phases - each being funded as mission success dictated its potential. The Viking Primary Mission phase was concluded in November, 1976, when the reins were passed on to the second phase - the Viking Extended Mission. The Extended Mission successfully carried spacecraft operations through the desired period of time needed to provided a profile of a full Martian year, but would have fallen a little short of connecting and overlapping a full Martian year of Viking operations which scientists desired as a means of determining the degree of duplicity in the red planet's seasons - at least for the summer period. Without this continuation of spacecraft data acquisitions to and beyond the seasonal points when the spacecraft actually began their Mars observations, there would be no way of knowing whether the changing environmental values - such as temperatures and winds atmospheric dynamics and water vapor, surface thermal dynamics, etc. - would match up with those acquired as the spacecraft began investigations during the summer and fall of 1976. This same broad interest can be specifically pursued at the surface - where hundreds of rocks, soil drifts and other features have become extremely familiar during long-term analysis. This picture was acquired on the 690th Martian day of Lander 1 operations - 4009th picture sequence commanded of the two Viking Landers. As such, it became the first picture acquired as the third phase of Viking operations got under way - the Viking Continuation Mission. Between the start of the Continuation Mission in April, 1978, until spacecraft operations are concluded in November, the landers will acquire an additional 200 pictures. These will be used to monitor the two landscaped for the surface changes. All four cameras, two on Lander 1 and two on Lander 2, continue to operate perfectly. Both landers will also continue to monitor weather conditions - recording atmospheric pressure and its variations, daily temperature extremes, and wind behavior at the two lander locations. |
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High Resolution Image From V
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PIA00385
Sol (our sun)
Camera 2
| Title |
High Resolution Image From Viking Lander 1 |
| Original Caption Released with Image |
Viking 1 took this high-resolution picture today, its third day on Mars. Distance from the camera to the nearfield (bottom) is about 4 meters (13 feet), to the horizon, about 3 kilometers (1.8 miles). The photo shows numerous angular blocks ranging in size from a few centimeters to several meters. The surface between the blocks is composed of fine-grained material. Accumulation of some fine-grained material behind blocks indicates wind deposition of dust and sand downwind of obstacles. The large block on the horizon is about 4 meters (13 feet) wide. Distance across the horizon is about 34 meters (110 feet). |
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Viking Lander's Buried Footp
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PIA00390
Sol (our sun)
Camera 1
| Title |
Viking Lander's Buried Footpad #3 |
| Original Caption Released with Image |
One of Viking l's three feet, which should be visible in this view, lies buried beneath a cover of loose Martian soil. This picture, taken Sunday (August 1), is the first to show the buried footpad #3. If not buried, the edge of the foot would be seen extending across the picture about midway between top and bottom. The foot sank about five inches, and fine-grained soil slumped into the depression and over the foot. The cracked nature of the surface near the slump area and the small, steep cliff at left indicates that the material is weakly cohesive. The surface material here is very similar mechanically to lunar soil. |
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The Collector Head Of Viking
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PIA00395
Sol (our sun)
Camera 2
| Title |
The Collector Head Of Viking Lander 1's Surface Sampler |
| Original Caption Released with Image |
The collector head of Viking l's surface sampler is full of Martian soil destined for the gas chromatograph mass spectrometer, the instrument which analyzes the surface material for the presence of organic molecules. The material was scooped out of the surface on August 3, but the sampler arm stopped operating while transporting it to the instrument. The Martian soil will be deposited into the instrument's processor today. The surface sampler is operating properly, but the cause of last week's problem is not yet known. This picture, taken Monday (August 9), was made for operational purposes, focusing on the collector head. Hence, the out-of-focus view of the Martian surface. |
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The Meteorology Instrument o
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PIA00392
Sol (our sun)
Camera 1
| Title |
The Meteorology Instrument on Viking Lander 1 |
| Original Caption Released with Image |
Those Martian weather reports, received here daily from more than 200 million miles away, start right here at Viking l's meteorology instrument. Mounted atop the extended boom, the meteorology sensors face away from the spacecraft. They stand about four feet above the surface and measure atmospheric pressure, temperature, wind velocity and wind direction. The cable parallel to the boom is connected inside the spacecraft body with the electronics for operating the sensors, reading the data and preparing it for transmission to Earth. A second Mars weather station will begin operation next month when Viking 2 lands somewhere in the planet's northern latitude Viking 2 arrives at Mars and goes into orbit tomorrow (August 7). |
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First Color Image of the Vik
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PIA00568
Sol (our sun)
Camera 2
| Title |
First Color Image of the Viking Lander 2 Site |
| Original Caption Released with Image |
The first color picture taken by Viking 2 on the Martian surface shows a rocky reddish surface much like that seen by Viking 1 more than 4000 miles away. The planned location for the collection of soil for on-board analysis is seen in the lower part of the photo. The Lander s camera #2 is looking approximately to the northeast. The right edge of the picture is due east of the spacecraft. The sun is behind the camera in the Martian afternoon. As at Chryse Planitia where Viking 1 landed in July, the sky over Utopia is pink. Colors of the rocks and soil also are almost identical at the two landing sites. Because the spacecraft is tilted about 8 to the west, the horizon appears tilted. In fact, it is nearly level. |
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VL1 Digs A Deep Hole On Mars
PIA00529
Sol (our sun)
Camera 1
| Title |
VL1 Digs A Deep Hole On Mars |
| Original Caption Released with Image |
VIKING LANDER DIGS A DEEP HOLE ON MARS -- This six-inch-deep, 12- inch-wide, 29-inch-long hole was dug Feb. 12 and 14 by Viking Lander 1 as the first sequence in an attempt to reach a foot beneath the surface of the red planet. The activity is in the same area where Lander 1 acquired its first soil samples last July. The trench was dug by repeatedly backhoeing in a left-right-center pattern. The backhoe teeth produced the small parallel ridges at the far end of the trench (upper left). The larger ridges running the length of the trench are material left behind during the backhoe operation. What appears to be small rocks along the ridges and in the soil at the near end of the trench are really small dirt clods. The clods and the steepness of the trench walls indicate the material is cohesive and behaves something like ordinary flour. After a later sequence, to be performed March 1 and 2, a soil sample will be taken from the bottom of the trench for inorganic soil analysis and later for biology analysis. Information about the soil taken from the bottom of the trench may help explain the weathering process on Mars and may help resolve the dilemma created by Viking findings that first suggest but then cast doubt on the possibility of life in the Martian soil. The trench shown here is a result of one of the most complex command sequences yet performed by the lander. Viking l has been operating at Chryse Planitia on Mars since it landed July 20, 1976. |
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Viking 2 Image of Mars Utopi
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PIA01522
Sol (our sun)
Camera 1
| Title |
Viking 2 Image of Mars Utopian Plain |
| Original Caption Released with Image |
The boulder-strewn field of red rocks reaches to the horizon nearly two miles from Viking 2 on Mars' Utopian Plain. Scientists believe the colors of the Martian surface and sky in this photo represent their true colors. Fine particles of red dust have settled on spacecraft surfaces. The salmon color of the sky is caused by dust particles suspended in the atmosphere. Color calibration charts for the cameras are mounted at three locations on the spacecraft. Note the blue star field and red stripes of the flag. The circular structure at top is the high-gain antenna, pointed toward Earth. Viking 2 landed September 3,1976, some 4600 miles from its twin, Viking 1, which touched down on July 20. |
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Photomosiac of the Tharsis R
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PIA02987
Sol (our sun)
| Title |
Photomosiac of the Tharsis Region |
| Original Caption Released with Image |
Viking 1 Orbiter color mosaic of the eastern Tharsis region on Mars. At left, from top to bottom, are the three 25 km high volcanic shields, Ascraeus Mons, Pavonis Mons, and Arsia Mons. The shield at upper right is Tharsis Tholus. The canyon system at lower right is Noctis Labyrinthus, the westernmost extension of Valles Marineris. The smooth area at bottom center is Syria Planum. The distance between the calderas of Ascraeus and Pavonis Mons is 800 km. North is up. The images used to produce this mosaic were taken during orbit 1334 on 22 February 1980. (Viking 1 Orbiter MG01N104-334S0) |
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Color Mosaic of Olympus Mons
PIA02982
Sol (our sun)
| Title |
Color Mosaic of Olympus Mons |
| Original Caption Released with Image |
Color mosaic of Olympus Mons volcano on Mars from the Viking 1 Orbiter. The mosaic was created using images from orbit 735 taken 22 June 1978. Olympus Mons is about 600 km in diameter and the summit caldera is 24 km above the surrounding plains. The complex aureole terrain is visible at the top of the frame. North is up. (Viking 1 Orbiter MH20N133-735A) |
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The United States Flag Stand
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PIA00388
Sol (our sun)
Camera 1
| Title |
The United States Flag Stands On The Surface Of Mars |
| Original Caption Released with Image |
The flag of the United States stands on the surface of Mars. It is mounted on the housing of Viking 1's nuclear power system. Also seen are the U.S. Bicentennial symbol and a student designed Viking emblem. The bright flat surface near the center is the seismometer container. This picture was taken on July 23 at about 2:30 p.m. Mars time. The view is west of the spacecraft and includes a series of low hills. The blocky hill in the center appears to be part of a crater rim. The dark, rocky stripes may be material ejected from the crater. The light areas are dune-like and may be accumulations of windblown sand or dust. |
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Viking Lander 2 (Gerald A. S
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PIA01882
Sol (our sun)
HiRISE
| Title |
Viking Lander 2 (Gerald A. Soffen Memorial Station) Imaged from Orbit |
| Original Caption Released with Image |
Annotated Version NASA's Viking Lander 2 landed on Mars on Sept. 3, 1976, in Utopia Planitia. The lander, which has a diameter of about 3 meters (10 feet), has been precisely located in this image from the High Resolution Imaging Science Experiment on NASA's Mars Reconnaissance Orbiter. Also, likely locations have been found for the heat shield and back shell. The lander location has been confirmed by overlaying the lander-derived topographic contours on the high-resolution camera's image, which provides an excellent match. Viking Lander 2 was one element of an ambitious mission to study Mars, with a four-spacecraft flotilla consisting of two orbiters and two landers. Four cutouts from this image are shown. The first is an overview showing the relative locations of the lander and candidate back shell and heat shield, and the others are enlargements of each of these components. Large boulders, dunes, and other features visible in Viking Lander 2 images can be located in the high-resolution camera's image. The polygonal pattern of the surface is typical at these latitudes and may be due to the presence of deep subsurface ice. As chance would have it, this image is blurred in some places due to the abrupt motion associated with the restart of the orbiter's high-gain antenna tracking during the very short image exposure. This is the first time after acquiring hundreds of pictures that a High Resolution Imaging Science Experiment image has been unintentionally smeared, overall performance has been excellent. A prime motivation for early viewing of the Viking sites is to calibrate imagery taken from orbit with the data previously acquired by the landers. In particular, determining what sizes of rocks can be seen from Mars Reconnaissance Orbiter aids the interpretation of data now being taken to characterize sites for future landers, such as the Phoenix Mars Lander mission to be launched in 2007. Images from the High Resolution Imaging Science Experiment and additional information about the Mars Reconnaissance Orbiter are available online at: http://www.nasa.gov/mro [ http://www.nasa.gov/mro ] or http://HiRISE.lpl.arizona.edu [ http://HiRISE.lpl.arizona.edu ]. For information about NASA and agency programs on the Web, http://www.nasa.gov [ http://www.nasa.gov ]. NASA's Jet Propulsion Laboratory, a division of the California Institute of Technology in Pasadena, manages the Mars Reconnaissance Orbiter for NASA's Science Mission Directorate, Washington. Lockheed Martin Space Systems is the prime contractor for the project and built the spacecraft. The High Resolution Imaging Science Experiment camera was built by Ball Aerospace Corporation and is operated by the University of Arizona. |
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Viking Lander 2 (Gerald A. S
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PIA01882
Sol (our sun)
HiRISE
| Title |
Viking Lander 2 (Gerald A. Soffen Memorial Station) Imaged from Orbit |
| Original Caption Released with Image |
Annotated Version NASA's Viking Lander 2 landed on Mars on Sept. 3, 1976, in Utopia Planitia. The lander, which has a diameter of about 3 meters (10 feet), has been precisely located in this image from the High Resolution Imaging Science Experiment on NASA's Mars Reconnaissance Orbiter. Also, likely locations have been found for the heat shield and back shell. The lander location has been confirmed by overlaying the lander-derived topographic contours on the high-resolution camera's image, which provides an excellent match. Viking Lander 2 was one element of an ambitious mission to study Mars, with a four-spacecraft flotilla consisting of two orbiters and two landers. Four cutouts from this image are shown. The first is an overview showing the relative locations of the lander and candidate back shell and heat shield, and the others are enlargements of each of these components. Large boulders, dunes, and other features visible in Viking Lander 2 images can be located in the high-resolution camera's image. The polygonal pattern of the surface is typical at these latitudes and may be due to the presence of deep subsurface ice. As chance would have it, this image is blurred in some places due to the abrupt motion associated with the restart of the orbiter's high-gain antenna tracking during the very short image exposure. This is the first time after acquiring hundreds of pictures that a High Resolution Imaging Science Experiment image has been unintentionally smeared, overall performance has been excellent. A prime motivation for early viewing of the Viking sites is to calibrate imagery taken from orbit with the data previously acquired by the landers. In particular, determining what sizes of rocks can be seen from Mars Reconnaissance Orbiter aids the interpretation of data now being taken to characterize sites for future landers, such as the Phoenix Mars Lander mission to be launched in 2007. Images from the High Resolution Imaging Science Experiment and additional information about the Mars Reconnaissance Orbiter are available online at: http://www.nasa.gov/mro [ http://www.nasa.gov/mro ] or http://HiRISE.lpl.arizona.edu [ http://HiRISE.lpl.arizona.edu ]. For information about NASA and agency programs on the Web, http://www.nasa.gov [ http://www.nasa.gov ]. NASA's Jet Propulsion Laboratory, a division of the California Institute of Technology in Pasadena, manages the Mars Reconnaissance Orbiter for NASA's Science Mission Directorate, Washington. Lockheed Martin Space Systems is the prime contractor for the project and built the spacecraft. The High Resolution Imaging Science Experiment camera was built by Ball Aerospace Corporation and is operated by the University of Arizona. |
|
Viking Lander 2 (Gerald A. S
…
PIA01882
Sol (our sun)
HiRISE
| Title |
Viking Lander 2 (Gerald A. Soffen Memorial Station) Imaged from Orbit |
| Original Caption Released with Image |
Annotated Version NASA's Viking Lander 2 landed on Mars on Sept. 3, 1976, in Utopia Planitia. The lander, which has a diameter of about 3 meters (10 feet), has been precisely located in this image from the High Resolution Imaging Science Experiment on NASA's Mars Reconnaissance Orbiter. Also, likely locations have been found for the heat shield and back shell. The lander location has been confirmed by overlaying the lander-derived topographic contours on the high-resolution camera's image, which provides an excellent match. Viking Lander 2 was one element of an ambitious mission to study Mars, with a four-spacecraft flotilla consisting of two orbiters and two landers. Four cutouts from this image are shown. The first is an overview showing the relative locations of the lander and candidate back shell and heat shield, and the others are enlargements of each of these components. Large boulders, dunes, and other features visible in Viking Lander 2 images can be located in the high-resolution camera's image. The polygonal pattern of the surface is typical at these latitudes and may be due to the presence of deep subsurface ice. As chance would have it, this image is blurred in some places due to the abrupt motion associated with the restart of the orbiter's high-gain antenna tracking during the very short image exposure. This is the first time after acquiring hundreds of pictures that a High Resolution Imaging Science Experiment image has been unintentionally smeared, overall performance has been excellent. A prime motivation for early viewing of the Viking sites is to calibrate imagery taken from orbit with the data previously acquired by the landers. In particular, determining what sizes of rocks can be seen from Mars Reconnaissance Orbiter aids the interpretation of data now being taken to characterize sites for future landers, such as the Phoenix Mars Lander mission to be launched in 2007. Images from the High Resolution Imaging Science Experiment and additional information about the Mars Reconnaissance Orbiter are available online at: http://www.nasa.gov/mro [ http://www.nasa.gov/mro ] or http://HiRISE.lpl.arizona.edu [ http://HiRISE.lpl.arizona.edu ]. For information about NASA and agency programs on the Web, http://www.nasa.gov [ http://www.nasa.gov ]. NASA's Jet Propulsion Laboratory, a division of the California Institute of Technology in Pasadena, manages the Mars Reconnaissance Orbiter for NASA's Science Mission Directorate, Washington. Lockheed Martin Space Systems is the prime contractor for the project and built the spacecraft. The High Resolution Imaging Science Experiment camera was built by Ball Aerospace Corporation and is operated by the University of Arizona. |
|
Viking Lander 2 (Gerald A. S
…
PIA01882
Sol (our sun)
HiRISE
| Title |
Viking Lander 2 (Gerald A. Soffen Memorial Station) Imaged from Orbit |
| Original Caption Released with Image |
Annotated Version NASA's Viking Lander 2 landed on Mars on Sept. 3, 1976, in Utopia Planitia. The lander, which has a diameter of about 3 meters (10 feet), has been precisely located in this image from the High Resolution Imaging Science Experiment on NASA's Mars Reconnaissance Orbiter. Also, likely locations have been found for the heat shield and back shell. The lander location has been confirmed by overlaying the lander-derived topographic contours on the high-resolution camera's image, which provides an excellent match. Viking Lander 2 was one element of an ambitious mission to study Mars, with a four-spacecraft flotilla consisting of two orbiters and two landers. Four cutouts from this image are shown. The first is an overview showing the relative locations of the lander and candidate back shell and heat shield, and the others are enlargements of each of these components. Large boulders, dunes, and other features visible in Viking Lander 2 images can be located in the high-resolution camera's image. The polygonal pattern of the surface is typical at these latitudes and may be due to the presence of deep subsurface ice. As chance would have it, this image is blurred in some places due to the abrupt motion associated with the restart of the orbiter's high-gain antenna tracking during the very short image exposure. This is the first time after acquiring hundreds of pictures that a High Resolution Imaging Science Experiment image has been unintentionally smeared, overall performance has been excellent. A prime motivation for early viewing of the Viking sites is to calibrate imagery taken from orbit with the data previously acquired by the landers. In particular, determining what sizes of rocks can be seen from Mars Reconnaissance Orbiter aids the interpretation of data now being taken to characterize sites for future landers, such as the Phoenix Mars Lander mission to be launched in 2007. Images from the High Resolution Imaging Science Experiment and additional information about the Mars Reconnaissance Orbiter are available online at: http://www.nasa.gov/mro [ http://www.nasa.gov/mro ] or http://HiRISE.lpl.arizona.edu [ http://HiRISE.lpl.arizona.edu ]. For information about NASA and agency programs on the Web, http://www.nasa.gov [ http://www.nasa.gov ]. NASA's Jet Propulsion Laboratory, a division of the California Institute of Technology in Pasadena, manages the Mars Reconnaissance Orbiter for NASA's Science Mission Directorate, Washington. Lockheed Martin Space Systems is the prime contractor for the project and built the spacecraft. The High Resolution Imaging Science Experiment camera was built by Ball Aerospace Corporation and is operated by the University of Arizona. |
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Viking Lander 2 (Gerald A. S
…
PIA01882
Sol (our sun)
HiRISE
| Title |
Viking Lander 2 (Gerald A. Soffen Memorial Station) Imaged from Orbit |
| Original Caption Released with Image |
Annotated Version NASA's Viking Lander 2 landed on Mars on Sept. 3, 1976, in Utopia Planitia. The lander, which has a diameter of about 3 meters (10 feet), has been precisely located in this image from the High Resolution Imaging Science Experiment on NASA's Mars Reconnaissance Orbiter. Also, likely locations have been found for the heat shield and back shell. The lander location has been confirmed by overlaying the lander-derived topographic contours on the high-resolution camera's image, which provides an excellent match. Viking Lander 2 was one element of an ambitious mission to study Mars, with a four-spacecraft flotilla consisting of two orbiters and two landers. Four cutouts from this image are shown. The first is an overview showing the relative locations of the lander and candidate back shell and heat shield, and the others are enlargements of each of these components. Large boulders, dunes, and other features visible in Viking Lander 2 images can be located in the high-resolution camera's image. The polygonal pattern of the surface is typical at these latitudes and may be due to the presence of deep subsurface ice. As chance would have it, this image is blurred in some places due to the abrupt motion associated with the restart of the orbiter's high-gain antenna tracking during the very short image exposure. This is the first time after acquiring hundreds of pictures that a High Resolution Imaging Science Experiment image has been unintentionally smeared, overall performance has been excellent. A prime motivation for early viewing of the Viking sites is to calibrate imagery taken from orbit with the data previously acquired by the landers. In particular, determining what sizes of rocks can be seen from Mars Reconnaissance Orbiter aids the interpretation of data now being taken to characterize sites for future landers, such as the Phoenix Mars Lander mission to be launched in 2007. Images from the High Resolution Imaging Science Experiment and additional information about the Mars Reconnaissance Orbiter are available online at: http://www.nasa.gov/mro [ http://www.nasa.gov/mro ] or http://HiRISE.lpl.arizona.edu [ http://HiRISE.lpl.arizona.edu ]. For information about NASA and agency programs on the Web, http://www.nasa.gov [ http://www.nasa.gov ]. NASA's Jet Propulsion Laboratory, a division of the California Institute of Technology in Pasadena, manages the Mars Reconnaissance Orbiter for NASA's Science Mission Directorate, Washington. Lockheed Martin Space Systems is the prime contractor for the project and built the spacecraft. The High Resolution Imaging Science Experiment camera was built by Ball Aerospace Corporation and is operated by the University of Arizona. |
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Valles Marineris
PIA00422
Sol (our sun)
| Title |
Valles Marineris |
| Original Caption Released with Image |
A color image of Valles Marineris, the great canyon of Mars, north toward top. The scene shows the entire canyon system, over 3,000 km long and averaging 8 km deep, extending from Noctis Labyrinthus, the arcuate system of graben to the west, to the chaotic terrain to the east. This image is a composite of Viking medium-resolution images in black and white and low-resolution images in color, Mercator projection. The image extends from latitude 0 degrees to 20 degrees S. and from longitude 45 degrees to 102.5 degrees. The connected chasma or valleys of Valles Marineris may have formed from a combination of erosional collapse and structural activity. Layers of material in the eastern canyons might consist of carbonates deposited in ancient lakes. Huge ancient river channels began from Valles Marineris and from adjacent canyons and ran north. Many of the channels flowed north into Chryse Basin, which contains the site of the Viking 1 Lander and the future site of the Mars Pathfinder Lander. |
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First Color Image From Vikin
…
PIA00563
Sol (our sun)
Camera 2
| Title |
First Color Image From Viking Lander 1 |
| Original Caption Released with Image |
This color picture of Mars was taken July 21--the day following Viking l's successful landing on the planet. The local time on Mars is approximately noon. The view is southeast from the Viking. Orange-red surface materials cover most of the surface, apparently forming a thin veneer over darker bedrock exposed in patches, as in the lower right. The reddish surface materials may be limonite (hydrated ferric oxide). Such weathering products form on Earth in the presence of water and an oxidizing atmosphere. The sky has a reddish cast, probably due to scattering and reflection from reddish sediment suspended in the lower atmosphere. The scene was scanned three times by the spacecraft's camera number 2, through a different color filter each time. To assist in balancing the colors, a second picture was taken of z test chart mounted on the rear of the spacecraft. Color data for these patches were adjusted until the patches were an appropriate color of gray. The same calibration was then used for the entire scene. |
|
Mars: Just The Facts
| Title |
Mars: Just The Facts |
| Explanation |
Mars [ http://www.challenger.org/marsl.html ], the freeze-dried planet [ http://nssdc.gsfc.nasa.gov/planetary/factsheet/marsfact.html ], orbits 137 million miles from the Sun or at about 1.5 times the Earth-Sun distance [ http://antwrp.gsfc.nasa.gov/apod/ap960727.html ]. It has two diminutive moons [ http://antwrp.gsfc.nasa.gov/apod/ap961222.html ], towering extinct volcanos [ http://antwrp.gsfc.nasa.gov/apod/ap950719.html ], an immense canyon system [ http://antwrp.gsfc.nasa.gov/apod/ap950720.html ], a thin atmosphere chiefly composed of carbon dioxide (CO2), a frigid average surface temperature of -63 degrees Celsius [ http://www.unidata.ucar.edu/staff/blynds/tmp.html ], and permanent frozen CO2 polar caps which contain some water ice. Mars' surface presently lacks liquid water [ http://antwrp.gsfc.nasa.gov/apod/ap970316.html ] and has a reddish color because of an abundance of oxidized iron compounds (rust). A small terrestrial planet [ http://www.seds.org/nineplanets/nineplanets/mars.html ], fourth from the Sun [ http://antwrp.gsfc.nasa.gov/apod/ap970528.html ], Mars has only about 3/8 the surface gravity of Earth. So for example, if you tip the scale at a hefty 200 pounds on Earth you'd be a 75 pound featherweight on Mars [ http://quest.arc.nasa.gov/mars/ ]. The low martian gravity will be good for NASA's Mars Pathfinder [ http://mpfwww.jpl.nasa.gov/ ] spacecraft scheduled to land on Mars [ http://bang.lanl.gov/solarsys/mars.htm ] next Friday, July 4th [ http://www.lpl.arizona.edu/imp/mission.success.html ]. Using rockets, parachutes, and airbags [ http://mars.sgi.com/mpf/realtime/edlpage.html ], Mars Pathfinder [ http://mpfwww.arc.nasa.gov/mpf/mission_ops.html ] will be the first spacecraft to touchdown on the planet since the Viking landers [ http://antwrp.gsfc.nasa.gov/apod/ap960722.html ] in 1976. Pathfinder is also scheduled to begin the first ever mobile surface exploration [ http://cmex-www.arc.nasa.gov/ ] by releasing the robot rover [ http://ranier.hq.nasa.gov/telerobotics_page/coolrobots96.html ], "Mars Sojourner" [ http://mars.sgi.com/rover/about.html ]. |
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Ejected Shroud on the Martia
…
PIA00527
Sol (our sun)
Camera 2
| Title |
Ejected Shroud on the Martian Surface |
| Original Caption Released with Image |
Shining on the Martian surface near the Viking 2 spacecraft is the aluminum shroud, or cover, which protected the collector head of the surface sampler instrument during Viking's year-long journey from Earth. On September 5, two days after Viking 2 landed, the surface sampler was rotated from its parked position atop the spacecraft and pointed downward about 40 degrees. The shroud was then ejected by a set of eight springs positioned around its base. It struck the porous rock at the bottom of the picture, bounced about 20 inches, hit the surface again and bounced another 20 inches. The scar left by the second bounce is faintly visible halfway between the shroud and the rock it struck. The shroud is 12 inches long and 4 1/2 inches in diameter. The large rock just beyond it is about 2 feet long and about a foot thick. At lower right is the support structure of one of the spacecraft s three landing legs. |
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Rocky Martian Plain
PIA00364
Sol (our sun)
Camera 2
| Title |
Rocky Martian Plain |
| Original Caption Released with Image |
The rocky Martian plain surrounding Viking 2 is seen in high resolution in this 85-degree panorama sweeping from north at the left to east at right during the Martian afternoon on September 5. Large blocks litter the surface. Some are porous, sponge-like rocks like the one at the left edge (size estimate: 1 1/2 to 2 feet), others are dense and fine-grained, such as the very bright rounded block (1 to 1 1/2 feet across) toward lower right. Pebbled surface between the rocks is covered in places by small drifts of very fine material similar to drifts seen at the Viking 1 landing site some 4600 miles to the southwest. The fine-grained material is banked up behind some rocks, but wind tails seen by Viking 1 are not well-developed here. On the right horizon, flat-topped ridges or hills are illuminated by the afternoon sun. Slope of the horizon is due to the 8-degree tilt of the spacecraft. |
|
Martian Dune Field
PIA00393
Sol (our sun)
Camera 1
| Title |
Martian Dune Field |
| Original Caption Released with Image |
This spectacular picture of the Martian landscape by the Viking 1 Lander shows a dune field with features remarkably similar to many seen in the deserts of Earth. The dramatic early morning lighting - 7:30 a.m. local Mars time--reveals subtle details and shading. Taken yesterday (August 3) by the Lander s camera #1, the picture covers 100 , looking northeast at left and southeast at right. Viking scientists have studied areas very much like the one in this view in Mexico and in California (Kelso, Death Valley, Yuma). The sharp dune crests indicate the most recent wind storms capable of moving sand over the dunes in the general direction from upper left to lower right. Small deposits downwind of rocks also indicate this wind direction. Large boulder at left is about eight meters (25 feet) from the spacecraft and measures about one by three meters (3 by 10 feet). The meteorology boom, which supports Viking s miniature weather station, cuts through the picture s center. The sun rose two hours earlier and is about 30 above the horizon near the center of the picture. |
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Surface Changes in Chryse Pl
…
PIA00532
Sol (our sun)
Camera 1
| Title |
Surface Changes in Chryse Planitia |
| Original Caption Released with Image |
At the conclusion of the Viking Continuation Mission (May to November, 1978), all four cameras on the Viking Landers - two on each spacecraft - continued to function normally. During the two and one-half years since the landers touched down on Mars, images totaled 2,255 for Viking Lander 1 and 2,016 for Viking Lander 2. The surface around the landers was completely photographed by the end of 1976, subsequent images acquired during 1977-1978 have concentrated on searching for changes in the scene - changes which can be used to infer both the types of erosive processes which modify the landscape around the landers and the rates at which these processes may occur. The major surface changes have included the water-ice snow seen by Lander 2 during the winter at Utopia Planitia, and a thin dust layer deposited at both sites during the dust storms of 1977. The most recently identified change occurred at Chryse Planitia between VL-1 sols 767 (Sept. 16, 1978) and 771 (Sept. 20, 1978) as seen in the lower photo. Picture at top, selected to show similar lighting conditions, was taken during sol 25 (August 15, 1976). The change (A) appears as a small circle-like formation on the side of a drift in the lee, or downwind, side of Whale Rock. This is believed to have been a small-scale landslide of an unstable dust layer which had accumulated behind the rock. Interpretation of this feature would be difficult without an earlier change (B) near Big Joe, a slump which occurred between sols 74 and 183. The new slump is approximately 25- 35 meters from the lander, and just under a meter across. The slumping probably was initiated by the daily heating and cooling of the surface by solar radiation. More importantly, it is now believed that, based on the repeated occurrence of such slumping features, a dust layer which overlies the surface may in fact be redistributed fairly regularly during periods of high wind activity. There are no obvious indications of fossil slump features, therefore similar features must be destroyed on a regular basis. After the end of February, when Viking operations essentially terminate, Lander 1 will continue preselected observations over a period of possibly up to 10 years, following the instructions stored in its computer memory. Earth commands will be required only to initiate data transmission to Earth. During this time, it is now anticipated that one of the yearly planetwide global dust storms may reach an intensity necessary to shift the dust cover around the lander significantly. |
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The Target
PIA04304
Sol (our sun)
Visual Imaging Subsystem - C
…
| Title |
The Target |
| Original Caption Released with Image |
This mosaic of Mars is a compilation of images captured by the Viking Orbiter 1. The center of the scene shows the entire Valles Marineris canyon system, over 3,000 km long and up to 8 km deep, extending from Noctis Labyrinthus, the arcuate system of graben to the west, to the chaotic terrain to the east. |
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Gusev Crater
PIA04274
Sol (our sun)
Visual Imaging Subsystem
| Title |
Gusev Crater |
| Original Caption Released with Image |
Released April 11, 2003 The designated landing site for the first Mars Exploration Rover mission is Gusev Crater, seen here in its geological context from NASA Viking images. Details of the Gusev Crater designated landing site are added with topographic information and higher-resolution imaging from instruments on the Mars Global Surveyor and Mars Odyssey orbiters. |
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Meridiani Planum
PIA04275
Sol (our sun)
Visual Imaging Subsystem
| Title |
Meridiani Planum |
| Original Caption Released with Image |
Released April 11, 2003 The designated landing site for the second Mars Exploration Rover mission is Meridiani Planum, seen here in its geological context from NASA Viking images Details of the Meridiani Planum designated landing site are added with topographic information and higher-resolution imaging from instruments on the Mars Global Surveyor and Mars Odyssey orbiters. |
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Photomosiac of Olympus Mons
PIA02984
Sol (our sun)
| Title |
Photomosiac of Olympus Mons |
| Original Caption Released with Image |
Viking Orbiter 1 photomosaic of Olympus Mons summit caldera. The caldera comprises a series of craters formed by repeated collapses after eruptions. |
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Example of Weathering And Su
…
PIA00386
Sol (our sun)
Camera 1
| Title |
Example of Weathering And Sun Angle |
| Original Caption Released with Image |
The letter 'B' or perhaps the figure '8' appears to have been etched into the Mars rock at the left edge of this picture taken yesterday by the Viking 1 Lander. It is believed to be an illusion caused by weathering processes and the angle of the sun as it illuminated the scene for the spacecraft camera. The object at lower left is the housing containing the surface sampler scoop. |
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Magnetic Particles Are Found
…
PIA00394
Sol (our sun)
Camera 2
| Title |
Magnetic Particles Are Found In The Martian Atmosphere |
| Original Caption Released with Image |
The dark bullseye pattern seen at the top of Viking l's camera calibration chart indicates the presence of magnetic particles in the fine dust in the Martian atmosphere. A tiny magnet is mounted at that spot to catch wind-borne magnetic particles. The particles may have been tossed into the atmosphere surrounding the spacecraft at the time of landing and during the digging and delivery of the Mars soil sample by the surface sampler scoop. This picture was taken August 4. |
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Bright Summer Afternoon on t
…
PIA00569
Sol (our sun)
Camera 2
| Title |
Bright Summer Afternoon on the Mars Utopian Planitia |
| Original Caption Released with Image |
A UTOPIAN BRIGHT SUMMER AFTERNOON ON MARS--Looking south from Viking 2 on September 6, the orange-red surface of the nearly level plain upon which the spacecraft sits is seen strewn with rocks as large as three feet across. Many of these rocks are porous and sponge-like, similar to some of Earth's volcanic rocks. Other rocks are coarse-grained such as the large rock at lower left. Between the rocks, the surface is blanketed with fine-grained material that, in places, is piled into small drifts and banked against some of the larger blocks. The cylindrical mast with the orange cable is the low-gain antenna used to receive commands from Earth. |
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Geologic 'Face on Mars' Form
…
PIA01141
Sol (our sun)
Visual Imaging Subsystem - C
…
| Title |
Geologic 'Face on Mars' Formation |
| Original Caption Released with Image |
NASA's Viking 1 Orbiter spacecraft photographed this region in the northern latitudes of Mars on July 25, 1976 while searching for a landing site for the Viking 2 Lander. The speckled appearance of the image is due to missing data, called bit errors, caused by problems in transmission of the photographic data from Mars to Earth. Bit errors comprise part of one of the 'eyes' and 'nostrils' on the eroded rock that resembles a human face near the center of the image. Shadows in the rock formation give the illusion of a nose and mouth. Planetary geologists attribute the origin of the formation to purely natural processes. The feature is 1.5 kilometers (one mile) across, with the sun angle at approximately 20 degrees. The picture was taken from a range of 1,873 kilometers (1,162 miles). |
|
Frost at the Viking Lander 2
…
PIA00573
Sol (our sun)
Camera 2
| Title |
Frost at the Viking Lander 2 Site |
| Original Caption Released with Image |
Photo from Viking Lander 2 shows late-winter frost on the ground on Mars around the lander. The view is southeast over the top of Lander 2, and shows patches of frost around dark rocks. The surface is reddish-brown, the dark rocks vary in size from 10 centimeters (four inches) to 76 centimeters (30 inches) in diameter. This picture was obtained Sept. 25, 1977. The frost deposits were detected for the first time 12 Martian days (sols) earlier in a black-and-white image. Color differences between the white frost and the reddish soil confirm that we are observing frost. The Lander Imaging Team is trying to determine if frost deposits routinely form due to cold night temperatures, then disappear during the warmer daytime. Preliminary analysis, however, indicates the frost was on the ground for some time and is disappearing over many days. That suggests to scientists that the frost is not frozen carbon dioxide (dry ice) but is more likely a carbon dioxide clathrate (six parts water to one part carbon dioxide). Detailed studies of the frost formation and disappearance, in conjunction with temperature measurements from the lander?s meteorology experiment, should be able to confirm or deny that hypothesis, scientists say. |
|
Vivid Colors of the Viking L
…
PIA00564
Sol (our sun)
Camera 1
| Title |
Vivid Colors of the Viking Lander 1 Scene |
| Original Caption Released with Image |
Viking 1 obtained this color picture of the Martian surface and sky on July 24. Camera Number 1 facing southeast, captured part of the spacecraft's gray structure in the foreground. A bright orange cable leads to one of the descent rocket engines. Orange-red surface materials cover most of the surface, apparently forming a thin veneer over darker bedrock. A zone of large dark boulders is present in the far-field. The sky has a reddish cast, which is probably due to scattering and reflection from reddish sediment suspended in the lower atmosphere. This picture has been radiometrically calibrated, using information on camera performance acquired before launch. Although the colors are very vivid, the fidelity with which the bright orange cable is reproduced suggests that the intense colors of the Martian surface are, in fact, real. |
|
Debris Kicked Up By Impact o
…
PIA00384
Sol (our sun)
Camera 2
| Title |
Debris Kicked Up By Impact of A Protective Cover from Viking Lander 1 |
| Original Caption Released with Image |
The patch of dark material toward the top of this picture (arrow) taken by the Viking 1 Lander is the debris kicked up by the impact of a protective cover ejected from the spacecraft at 1 a.m. today. The cylindrical cover, which bounced out of view of the camera, protects the scoop at the end of the soil sampler arm. (The scoop will dig into the Martian surface for the first time on July 28). Dust and debris atop the footpad remains as it was seen in the Lander's first picture taken immediately after landing two days ago. No wind modification is apparent. On the surface, a variety of block sizes, shapes and tones are seen, and some rocks are Partially buried. |
|
Sunset at the Viking Lander
…
PIA00567
Sol (our sun)
Camera 2
| Title |
Sunset at the Viking Lander 1 Site |
| Original Caption Released with Image |
This color image of the Martian surface in the Chryse area was taken by Viking Lander 1, looking southwest, about 15 minutes before sunset on the evening of August 21. The sun is at an elevation angle of 3 or 4 degrees above the horizon and about 50 degrees clockwise from the right edge of the frame. Local topographic features are accentuated by the low lighting angle. A depression is seen near the center of the picture, just above the Lander?s leg support structure, which was not evident in previous pictures taken at higher sun angles. Just beyond the depression are large rocks about 30 centimeters (1 foot) across. The diffuse shadows are due to the sunlight that has been scattered by the dusty Martian atmosphere as a result of the long path length from the setting sun. Toward the horizon, several bright patches of bare bedrock are revealed. |
|
Ice On Mars
PIA00533
Sol (our sun)
Camera 2
| Title |
Ice On Mars |
| Original Caption Released with Image |
ICE ON MARS AGAIN -- This high-resolution photo of the surface of Mars was taken by Viking Lander 2 at its Utopia Planitia landing site on May 18, 1979 and relayed to Earth by Viking Orbiter 1 on June 7. It shows a thin coating of water ice on the rocks and soil. The time the frost appeared corresponds almost exactly with the buildup of frost one Martian year (23 Earth months) ago. Then it remained on the surface for about 100 days. Scientists believe dust particles in the atmosphere pick up bits of solid water. That combination is not heavy enough to settle to the ground. But carbon dioxide, which makes up 95 percent of the Martian atmosphere, freezes and adheres to the particles and they become heavy enough to sink. Warmed by the Sun the surface evaporates the carbon dioxide and returns it to the atmosphere leaving behind the water and dust. The ice seen in this picture, like that which formed one Martian year ago is extremely thin perhaps no more than one-thousandth of an inch thick. |
|
Mars: Just The Fiction
| Title |
Mars: Just The Fiction |
| Explanation |
For centuries, astronomers have observed Mars [ http://humbabe.arc.nasa.gov/mgcm/fun/mars_chro.html ], patiently compiling many facts [ http://nssdc.gsfc.nasa.gov/planetary/factsheet/marsfact.html ] and theories. Like a distant mirror of Earth dwellers' hopes and fears for the future, Mars, the fourth planet from the sun [ http://esther.la.asu.edu:80/asu_tes/TES_Editor/ CURRIC_GUIDES/95_96GUIDE/read_list.html ], has inspired profound works of fiction [ http://www.reston.com/astro/mars/fiction.html ] as well. Classics of the science fiction genre with visions [ http://www-personal.engin.umich.edu/~cerebus/mars/bib1.html ] of Earth's alluring planetary neighbor include H.G. Wells' [ http://www.wsu.edu:8080/~brians/science_fiction/warofworlds.html ] terrifying [ http://antwrp.gsfc.nasa.gov/apod/ap951031.html ]"War of the Worlds" [ http://www.literature.org/Works/H-G-Wells/war-of-the-worlds/ ], Edgar Rice Buroughs' [ http://www.wowdesign.com/erb/ ] John Carter adventure series (Thuvia, Maid of Mars [ http://www.literature.org/Works/Edgar-Rice-Burroughs/ thuvia-maid-of-mars/ ], The Gods of Mars [ http://www.literature.org/Works/Edgar-Rice-Burroughs/gods-of-mars/ ], A Princess of Mars [ http://www.literature.org/Works/Edgar-Rice-Burroughs/princess-of-mars/ ], The Warlord of Mars [ http://www.literature.org/Works/Edgar-Rice-Burroughs/warlord-of-mars/ ]), Robert Heinlein's [ http://home.t-online.de/home/herb.sev./rah.htm ] youthful "Podkayne of Mars" [ http://www.acdev.com/~fabrice/crit/mars.htm ], and Ray Bradbury's reflective and philosophical [ http://humbabe.arc.nasa.gov/mgcm/fun/pop.html ]"The Martian Chronicles" [ http://www.wsu.edu:8000/~brians/science_fiction/ martian_chronicles.html ]. Through the years scientific theories about Mars have been disproven [ http://www.mk.net/~dt/Bibliomania/NonFiction/Lowell/Mars/index.html ], but the sense of wonder and adventure embodied in these works of fiction remain with us. As two spacecraft [ http://ic-www.arc.nasa.gov/ic/projects/bayes-group/ Atlas/Mars/VSC/views/entrance/entrance.html ] from Earth now draw close to the red planet- in dreams, desires [ http://www-personal.engin.umich.edu/~cerebus/mars/index.html ], and a quest for knowledge [ http://cmex-www.arc.nasa.gov/ ] - we are once again bound for Mars [ http://antwrp.gsfc.nasa.gov/apod/ap970522.html ]. |
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Viking 1's 30th!
PIA08616
Sol (our sun)
Mars Orbiter Camera
| Title |
Viking 1's 30th! |
| Original Caption Released with Image |
20 July 2006 Viking 1 landed 30 years ago today, on 20 July 1976. It was the first U.S. landing on Mars and a very exciting time for Mars exploration. Since that time, four additional spacecraft have successfully landed on Mars and conducted their science investigations. Today, new missions to the martian surface are in the works, with landings expected in 2008 (Phoenix) and 2010 (Mars Science Laboratory). The Viking 1 lander is difficult to see in Mars Global Surveyor (MGS) Mars Orbiter Camera (MOC) images. The western Chryse Planitia landing site is often obscured by dust hazes and occasional storms, especially during northern winter, which would otherwise be the best time to look for the lander from orbit because the sun casts longer shadows in winter. When the atmosphere is clearest, in portions of the spring and summer, the sun is higher in the sky as seen from MGS's orbit. The spacecraft always passes over the landing site region around 2 p.m. in the afternoon. The suite of pictures shown here describes the best MOC view of the landing site. These were previously released in May 2005 [ http://www.msss.com/mars_images/moc/2005/05/09/ ], but the MOC team felt that 20 July 2006 is an appropriate time to review this story. The first figure (left) visually tells how the lander was found. The initial observations of the location of Viking 1, as originally determined by members of the Viking science team based on sightlines to various crater rims seen in the lander images (black lines), did not show the detailed features we knew from the lander pictures (middle) to be in the area. Using geodetic measurements, the late Merton Davies of the RAND Corporation, a MGS MOC Co-Investigator, suggested that we should image areas to the east and north of where Viking 1 was thought to be. Timothy J. Parker of the Jet Propulsion Laboratory (Pasadena, California), using sightlines to crater rims seen in the lander images (white lines), deduced a location very close to that suggested by Davies. The MOC image of that location, acquired in 2003, showed additional near-field features (rocks associated with a nearby crater) that closely matched the Viking 1 images (center and right frame, where B denotes "Volkswagen Rock"). The inset (upper right) is an enlargement that shows the location of the Viking 1 lander. The MOC image of the Viking 1 lander site (right) was acquired during a test of the MGS Pitch and Roll Observation (PROTO) technique conducted on 11 May 2003. (Following initial tests, the "c" part of "cPROTO" was begun by adding compensation for the motion of the planet to the technique). The PROTO or cPROTO approach allows MOC to obtain images with better than its nominal 1.5 meters (5 ft) per pixel resolution. The image shown here (right) was map projected at 50 centimeters (~20 inches) per pixel. The full 11 May 2003 image can be viewed in the MOC Gallery [ http://www.msss.com/moc_gallery/ ], it is image, R05-00966 [ http://www.msss.com/moc_gallery/r03_r09/images/R05/R0500966.html ]. In addition to celebrating the 30th anniversary of the first U.S. robotic Mars landing, we note that 20 July is also the 37th anniversary of the first human landing on the Moon, on 20 July 1969. There are two dates that are most sacred in the space business (three, if you count the 4 October 1957 launch of Sputnik 1). The other date is 12 April, which celebrates the 1961 launch of the first human in space, and the 1981 launch of the first space shuttle orbiter. |
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