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Browse All : MISR

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More Los Angeles Fire Images
More Los Angeles Fire I...
9/1/09
NASA
 
Year 2009
NASA/JPL-Caltech
 
NASA/JPL-Caltech
 
7/31/99
NASA/JPL-Caltech
 
Year 1999
Dust clouds over eastern China
Dust clouds over easter...
5/9/01
NASA/JPL-Caltech
 
Year 2001
Hawaiian Islands MISR
Hawaiian Islands MISR
12/8/00
NASA/JPL-Caltech
 
Year 2000
HURRICANE CARLOTTA SPINS IN STEREO
HURRICANE CARLOTTA SPIN...
7/7/00
NASA/JPL-Caltech
 
Year 2000
Hurricane Debby and Appalachian Mountains
Hurricane Debby and App...
10/25/00
NASA/JPL-Caltech
 
Year 2000
LOS ALAMOS FIRE IMAGED BY NASA SATELLITE
LOS ALAMOS FIRE IMAGED ...
5/19/00
NASA/JPL-Caltech
 
Year 2000
MISR View of Liquefaction Effects from the Bhuj, India, Earthquake
MISR View of Liquefacti...
4/26/01
NASA/JPL-Caltech
 
Year 2001
MISR Views of Montana fires, Hurricane Hector
MISR Views of Montana f...
8/18/00
NASA/JPL-Caltech
 
Year 2000
Multi-angle Images of Hudson Bay and James Bay, Canada
Multi-angle Images of H...
NASA/JPL-Caltech
 
Multi-Angle View of the Canary Islands
Multi-Angle View of the...
NASA/JPL-Caltech
 
Pine Island Glacier, Antarctica
Pine Island Glacier, An...
4/3/01
NASA/JPL-Caltech
 
Year 2001
South Florida
South Florida
11/15/00
NASA/JPL-Caltech
 
Year 2000
Red Tide Strands South African Rock Lobsters
Red Tide Strands South ...
Although some red tides...
Terra- MISR
 
Fires and Heavy Smoke in Sumatra
Fires and Heavy Smoke i...
<b>Fires and Heavy Smoke i...</b><a href="http://earthobservatory.nasa.gov/cgi-bin/redirect?http://www-misr.jpl.nasa.gov/" target="outlink"></a>
Terra- MISR
 
Tornado Hits La Plata, Maryland
Tornado Hits La Plata, ...
This pair of images fro...<a href="http://www-misr.jpl.nasa.gov/"></a>
Terra- MISR
 
MISR Looks at Yugoslavia
MISR Looks at Yugoslavi...
These Multi-angle Imagi...<A HREF="http://earthobservatory.nasa.gov/cgi-bin/redirect?http://www-misr.jpl.nasa.gov/" TARGET="outlink"></A>
 
MISR Instrument Animations
MISR Instrument Animati...
Animation of MISR orbit...</a></a><A HREF="http://earthobservatory.nasa.gov/cgi-bin/redirect?http://www-misr.jpl.nasa.gov/"></A>
 
Exploration Imagery
2007-05-15 0:0:0
 
Description S93-50646 (1993) --- (Artist's concept of possible exploration programs.) The Mars In-Situ Resource Utilization (ISRU) Sample Return (MISR; pronounced "miser") mission will send a small, robotic lander to Mars in order to collect Martian rock, soil and atmospheric samples, and then return those samples to Earth. The key to a low-cost mission is to send as small a mass as possible to Mars. Consequently, the two-meter-tall MISR lander will set down on the Mars surface with empty propellant tanks for its return trip home. Utilizing ISRU technology, a propellant production facility will take in carbon dioxide from the Martian atmosphere and manufacture the needed Mars-ascent and Earth-return propellants. During the approximate 300 day stay required to manufacture the propellants, two small micro-rovers - each the size of a big shoe box - will be teleoperated from Earth to collect the rock and soil samples. By the time the appropriate Earth-Mars planetary alignment occurs, the Martian samples will have been safely stowed in the return capsule and the propellant tanks will be fully fueled. The vehicle ascends off from Mars and begins its voyage to bring the Martian treasures back to Earth. These images produced for NASA by John Frassanito and Associates. Technical concepts from NASA's Planetary Projects Office, Johnson Space Center (JSC).
Exploration Imagery
2007-05-15 0:0:0
 
Description S93-50645 (1993) --- (Artist's concept of possible exploration programs.) The Mars In-Situ Resource Utilization (ISRU) Sample Return (MISR; pronounced "miser") mission will send a small, robotic lander to Mars in order to collect Martian rock, soil and atmospheric samples, and then return those samples to Earth. The key to a low-cost mission is to send as small a mass as possible to Mars. Consequently, the two-meter-tall MISR lander will set down on the Mars surface with empty propellant tanks for its return trip home. Utilizing ISRU technology, a propellant production facility will take in carbon dioxide from the Martian atmosphere and manufacture the needed Mars-ascent and Earth-return propellants. During the approximate 300 day stay required to manufacture the propellants, two small micro-rovers - each the size of a big shoe box - will be teleoperated from Earth to collect the rock and soil samples. By the time the appropriate Earth-Mars planetary alignment occurs, the Martian samples will have been safely stowed in the return capsule and the propellant tanks will be fully fueled. The vehicle ascends off from Mars and begins its voyage to bring the Martian treasures back to Earth. These images produced for NASA by John Frassanito and Associates. Technical concepts from NASA's Planetary Projects Office, Johnson Space Center (JSC).
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