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Opportunity, also known as MER-B (Mars Exploration Rover – B) or MER-1, is a robotic rover active on Mars since 2004.[1] Launched on July 7, 2003 as part of NASA's Mars Exploration Rover program, it landed in Meridiani Planum on January 25, 2004, three weeks after its twin Spirit (MER-A) touched down on the other side of the planet.[2] With a planned 90 sol duration of activity, Spirit functioned until getting stuck in 2009 and ceased communications in 2010, while Opportunity remains active as of 2016, having already exceeded its operating plan by Template:Age in years and days/key (in Earth time). Opportunity has continued to move, gather scientific observations, and report back to Earth for over 48 times its designed lifespan.

Mission highlights include the initial 90 sol mission, finding extramartian meteorites such as Heat Shield Rock (Meridiani Planum meteorite), and over two years studying Victoria crater. It survived dust-storms and reached Endeavour crater in 2011, which has been described as a "second landing site".[3]

The Jet Propulsion Laboratory (JPL), a division of the California Institute of Technology in Pasadena, California, manages the Mars Exploration Rover project for NASA's Science Mission Directorate in Washington, D.C.



Delta II Heavy (7925H-9.5) lifting off from pad 17-B carrying MER-B in 2003 with Opportunity rover.

The scientific objectives of the Mars Exploration Rover mission are to:[4]

  • Search for and characterize a variety of rocks and soils that hold clues to past water activity. In particular, samples sought will include those that have minerals deposited by water-related processes such as precipitation, evaporation, sedimentary cementation or hydrothermal activity.
  • Determine the distribution and composition of minerals, rocks, and soils surrounding the landing sites.
  • Determine what geologic processes have shaped the local terrain and influenced the chemistry. Such processes could include water or wind erosion, sedimentation, hydrothermal mechanisms, volcanism, and cratering.
  • Perform calibration and validation of surface observations made by Mars Reconnaissance Orbiter instruments. This will help determine the accuracy and effectiveness of various instruments that survey Martian geology from orbit.
  • Search for iron-containing minerals, identify and quantify relative amounts of specific mineral types that contain water or were formed in water, such as iron-bearing carbonates.
  • Characterize the mineralogy and textures of rocks and soils and determine the processes that created them.
  • Search for geological clues to the environmental conditions that existed when liquid water was present.
  • Assess whether those environments were conducive to life.

During the next two decades, NASA will continue to conduct missions to address whether life ever arose on Mars. The search begins with determining whether the Martian environment was ever suitable for life. Life, as we understand it, requires water, so the history of water on Mars is critical to finding out if the Martian environment was ever conducive to life. Although the Mars Exploration Rovers do not have the ability to detect life directly, they are offering very important information on the habitability of the environment in the planet's history.

Design and constructionEdit

Main article: Mars Exploration Rover
MER Pancam

Pancam Mast Assembly (PMA)

Opportunity (along with its twin, Spirit) is a six-wheeled, solar-powered robot standing 1.5 meters (Template:Convert/round ft) high, 2.3 meters (Template:Convert/round ft) wide, and 1.6 meters (Template:Convert/round ft) long and weighing 180 kilograms (Template:Convert/round lb). Six wheels on a rocker-bogie system enable mobility. Each wheel has its own motor, the vehicle is steered at front and rear and is designed to operate safely at tilts of up to 30 degrees. Maximum speed is 5 centimeters per second (Template:Convert/in/s) although average speed is about a fifth of this (0.89 centimeters per second (Template:Convert/in/s)). Both Spirit and Opportunity have pieces of the fallen World Trade Center's metal on them that were "turned into shields to protect cables on the drilling mechanisms".[5][6]

Solar arrays generate about 140 watts for up to four hours per Martian day (sol) while rechargeable lithium ion batteries store energy for use at night. Opportunity's onboard computer uses a 20 MHz RAD6000 CPU with 128 MB of DRAM, 3 MB of EEPROM, and 256 MB of flash memory. The rover's operating temperature ranges from −Template:Str right to +40 °C (Template:Exprsign to Template:Exprsign °F) and radioisotope heaters provide a base level of heating, assisted by electrical heaters when necessary.[7] A gold film and a layer of silica aerogel provide insulation.

Communications depends on an omnidirectional low-gain antenna communicating at a low data rate and a steerable high-gain antenna, both in direct contact with Earth. A low gain antenna is also used to relay data to spacecraft orbiting Mars.

Fixed science/engineering instruments include:

The rover arm holds the following instruments:

  • Mössbauer spectrometer (MB) MIMOS II – used for close-up investigations of the mineralogy of iron-bearing rocks and soils.
  • Alpha particle X-ray spectrometer (APXS) – close-up analysis of the abundances of elements that make up rocks and soils.
  • Magnets – for collecting magnetic dust particles
  • Microscopic Imager (MI) – obtains close-up, high-resolution images of rocks and soils.
  • Rock Abrasion Tool (RAT) – exposes fresh material for examination by instruments on board.

The cameras produce 1024-pixel by 1024-pixel images, the data is compressed with ICER, stored, and transmitted later.

The rover's name was chosen through a NASA sponsored student essay competition.

Mission overviewEdit

MOLA opportunity

Opportunity's landing site (denoted with a star).

PIA05229 label

Mars Global Surveyor orbiter's photograph of landing site showing "hole in one." (See also: simulation of Opportunity's trajectory on arrival at Mars in January 2004).

The primary surface mission for Opportunity was planned to last 90 sols (92 Earth days). The mission has received several extensions and has been operating for Expression error: Unrecognised punctuation character "[". days since landing. An archive of weekly updates on the rover's status can be found at the Opportunity Update Archive.[8]

From its initial landing, by chance, into an impact crater amidst an otherwise generally flat plain, Opportunity has successfully investigated soil and rock samples and taken panoramic photos of its landing site. Its sampling allowed NASA scientists to make hypotheses concerning the presence of hematite and past presence of water on the surface of Mars. Following this, it was directed to travel across the surface of Mars to investigate another crater site, Endurance crater, which it investigated from June – December 2004. Subsequently, Opportunity examined the impact site of its own heat shield and discovered an intact meteorite, now known as Heat Shield Rock, on the surface of Mars.

From late April 2005 to early June of that year, Opportunity was perilously lodged in a sand dune, with several wheels buried in the sand. Over a six-week period Earth-based physical simulations were performed to decide how best to extract the rover from its position without risking a permanent immobilization of the valuable vehicle. Successful maneuvering a few centimeters at a time eventually freed the rover, which resumed its travels.

Opportunity was directed to proceed in a southerly direction to Erebus crater, a large, shallow, partially buried crater and a stopover on the way south towards Victoria crater, between October 2005 and March 2006. It experienced some mechanical problems with its robotic arm.

In late September 2006, Opportunity reached Victoria crater and explored along the rim in a clockwise direction. In June 2007 it returned to Duck Bay, its original arrival point; in September 2007 it entered the crater to begin a detailed study. In August 2008, Opportunity left Victoria crater for Endeavour crater, which it reached on August 9, 2011.[9]

Meridiani Planum PIA13704

This map, color-coded for minerals and annotated, shows the rover's traverse up to about 2010 with some nearby features noted

Driving Distances on Mars and the Moon

Opportunity rover - Driving Distance "Off-World" Record (NASA; July 28, 2014).[10][11]

Here at the rim of the Endeavour crater the rover moved around a geographic feature named Cape York. The Mars Reconnaissance Orbiter had detected phyllosilicates there, and the rover analyzed the rocks with its instruments to check this sighting on the ground. This structure was analyzed in depth until summer 2013. At May 2013 the rover was heading south to a hill named Solander Point.

Opportunity's total odometry as of June 27, 2016 (sol 4417) was 26.63 miles (42.85 kilometers), while the dust factor is 0.725. [12] Since January 2013, the solar array dust factor (one of the determinants of solar power production) varied from a relatively dusty 0.467 on December 5, 2013 (sol 3507) to a relatively clean 0.964 on May 13, 2014 (sol 3662).[13]

In December 2014, NASA reported that Opportunity was suffering from "amnesia" events in which the rover fails to write data, e.g. telemetry information, to non-volatile memory. The hardware failure is believed to be due to an age-related fault in one of the rover's seven memory banks. As a result, NASA had aimed to force the rover's software to ignore the failed memory bank,[14] however amnesia events continued to occur which eventually resulted in vehicle resets. In light of this, on Sol 4027 (May 23, 2015), the rover was configured to operate in RAM-only mode, completely avoiding the use of non-volatile memory for storage.[15]

Mission timelineEdit

Main article: Opportunity mission timeline
Template:Magnify iconOpportunity rover traverse map updated to March 24, 2015 (Sol 3968 in days on Mars for this Mission).

Scientific findingsEdit

Main article: Scientific information from the Mars Exploration Rover mission

Opportunity has provided substantial evidence in support of the mission's primary scientific goals: to search for and characterize a wide range of rocks and soils that hold clues to past water activity on Mars. In addition to investigating the water, Opportunity has also obtained astronomical observations and atmospheric data.


Opportunity's launch was managed by NASA's Launch Services Program. This was the first launch of the Delta II Heavy. The launch period went from June 25 to July 15, 2003. The first launch attempt occurred on June 28, 2003, but the spacecraft launched nine days later on July 7, 2003 due to delays for range safety and winds, then later to replace items on the rocket (insulation and a battery). Each day had two instantaneous launch opportunities. On the day of launch, the launch was delayed to the second opportunity (11:18 p.m. EDT) in order to fix a valve.[16]


Examples of watt-hours per sol collected by the rover.[17] The rover uses combination of solar cells and a rechargeable chemical battery.

Opportunity solar array energy production (2013-2014)
Date Watt-hours
Sol 3376 (July 23, 2013) Template:Bar chart/bar
Sol 3384 (July 31, 2013) Template:Bar chart/bar
Sol 3390 (August 6, 2013) Template:Bar chart/bar
Sol 3430 (September 16, 2013) Template:Bar chart/bar
Sol 3452 (October 9, 2013) Template:Bar chart/bar
Sol 3472 (October 30, 2013) Template:Bar chart/bar
Sol 3478 (November 5, 2013) Template:Bar chart/bar
Sol 3494 (November 21, 2013) Template:Bar chart/bar
Sol 3507 (December 5, 2013) Template:Bar chart/bar
Sol 3534 (January 1, 2014) Template:Bar chart/bar
Sol 3602 (March 12, 2014) Template:Bar chart/bar
Sol 3606 (March 16, 2014) Template:Bar chart/bar
Sol 3621 (April 1, 2014) Template:Bar chart/bar
Sol 3676 (May 27, 2014) Template:Bar chart/bar
Sol 3710 (July 1, 2014) Template:Bar chart/bar
Sol 3744 (Aug. 5, 2014) Template:Bar chart/bar
Sol 3771 (Sept. 2, 2014) Template:Bar chart/bar
Sol 3805 (Oct. 7, 2014) Template:Bar chart/bar
Sol 3834 (Nov. 6, 2014) Template:Bar chart/bar
Sol 3859 (Dec. 1, 2014) Template:Bar chart/bar
Opportunity solar array energy production (2015-2016)
Date Watt-hours
Sol 3894 (Jan. 6, 2015) Template:Bar chart/bar
Sol 3921 (Feb. 3, 2015) Template:Bar chart/bar
Sol 3948 (Mar. 3, 2015) Template:Bar chart/bar
Sol 3982 (Apr. 7, 2015) Template:Bar chart/bar
Sol 4010 (May 5, 2015) Template:Bar chart/bar
Sol 4055 (Jun. 21, 2015) Template:Bar chart/bar
Sol 4084 (Jul. 20, 2015) Template:Bar chart/bar
Sol 4119 (Aug. 25, 2015) Template:Bar chart/bar
Sol 4153 (Sept. 29, 2015) Template:Bar chart/bar
Sol 4180 (Oct. 27, 2015) Template:Bar chart/bar
Sol 4201 (Nov. 18, 2015) Template:Bar chart/bar
Sol 4221 (Dec. 8, 2015) Template:Bar chart/bar
Sol 4377 (May. 16, 2016) Template:Bar chart/bar


Honoring Opportunity's great contribution to the exploration of Mars, an asteroid was named Opportunity

  1. REDIRECT Template:--

[{Category:Template redirects]] 39382 Opportunity.[18] The name was proposed by Ingrid van Houten-Groeneveld who, along with Cornelis Johannes van Houten and Tom Gehrels, discovered the asteroid on September 24, 1960. Opportunity's lander is Challenger Memorial Station.[19]

On July 28, 2014, it was announced that Opportunity, having traversed over Template:Convert/round km (25 mi), had become the rover achieving the longest off-world distance, surpassing the previous record of 39 km (Template:Convert/round mi) on the Moon by Lunokhod 2.[10][11]

On March 24, 2015, NASA celebrated Opportunity having traveled the distance of a Marathon race, 42.195 kilometers, from the start of Opportunity's landing and travelling on Mars.[20]


The rover can take pictures with its different cameras, but only the PanCam camera has the ability to photograph a scene with different color filters. The panorama views are usually built up from PanCam images. As of November 20, 2013, Opportunity had returned 186,246 pictures.[21]




Naturaliste crater site A47 cyl-med.jpg
Template:Magnify iconPanorama at crater triplet, all three craters in right half of image, Naturaliste Crater in foreground.
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Template:Magnify iconPanorama taken on the rim of Erebus crater. The rover's solar panels are seen on the lower half
Template:Magnify iconOpportunity's view from Cape Tribulation on the rim of Endeavour Crater, January 22, 2015.

Microscopic imagesEdit


From orbitEdit




Template:Mars map indicating landers

See alsoEdit


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  7. "MER - Batteries and Heaters". Jet Propulsion Laboratory. NASA. Retrieved August 13, 2012. 
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  9. Cite error: Invalid <ref> tag; no text was provided for refs named NASA_-_NASA_Mars_Rover_Arrives_at_New_Site_on_Martian_Surface
  10. 10.0 10.1 Webster, Guy; Brown, Dwayne (July 28, 2014). "NASA Long-Lived Mars Opportunity Rover Sets Off-World Driving Record". NASA. Retrieved July 29, 2014. 
  11. 11.0 11.1 Knapp, Alex (July 29, 2014). "NASA's Opportunity Rover Sets A Record For Off-World Driving". Forbes. Retrieved July 29, 2014. 
  13. Cite error: Invalid <ref> tag; no text was provided for refs named Opportunity_Updates
  14. O'Neill, Ian (29 December 2014). "Mars Rover Opportunity Suffers Worrying Bouts of 'Amnesia'". Web article. Discovery News. Retrieved 31 December 2014. 
  15. "Opportunity Update Archive, sols 4024-4029, May 20, 2015-May 25, 2015". 
  16. Harwood, William (July 8, 2003). "Opportunity launched to Mars". Retrieved 18 December 2015. 
  17. "All Opportunity Status Updates". Retrieved July 1, 2015. 
  18. Cite error: Invalid <ref> tag; no text was provided for refs named nasa12
  19. "Space Shuttle Challenger Crew Memorialized on Mars". Retrieved July 24, 2008. 
  20. "The First Martian Marathon - NASA Science". Retrieved 2015-05-15. 
  21. Truong, Brian. "Mars Exploration Rover". 

External linksEdit

NASA linksEdit

MSSS and WUSTL linksEdit

Other linksEdit

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