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| COSPAR_ID = 2003-032A
| COSPAR_ID = 2003-032A
| SATCAT =
| SATCAT =
| mission_duration = Planned: 90 [[Timekeeping_on_Mars#Sols|sols]] (92.5&nbsp;days)<br />At End-of-mission: {{age in sols|2004|01|25}} [[Timekeeping on Mars|sols]] ({{age in days|2004|01|25}}&nbsp;days) since landing <!-- at mission end, replace with "{{age in days|2004|01|25|year|month|day}}&nbsp;days from landing to mission end" -->
| mission_duration = Planned: 90 [[Timekeeping_on_Mars#Sols|sols]] (92.5&nbsp;days)<br />Final: 5352 [[Timekeeping on Mars|sols]] ({{age in days|2004|01|25|2019|02|13}}&nbsp;days from landing to mission end)


| spacecraft_type = Rover
| spacecraft_type = Rover

Revision as of 23:09, 13 February 2019

For the latest updates, see Opportunity mission timeline.

Opportunity
An artist's concept portrays Opportunity on the surface of Mars.
Mission typeMars rover
OperatorNASA
COSPAR ID2003-032A Edit this at Wikidata
SATCAT no.27849Edit this on Wikidata
WebsiteJPL's Mars Exploration Rover
Mission durationPlanned: 90 sols (92.5 days)
Final: 5352 sols (5498 days from landing to mission end)
Spacecraft properties
Spacecraft typeRover
Launch massTotal: 1,063 kg
rover: 185 kg
lander: 348 kg
backshell/parachute: 209 kg
heat shield: 78 kg
Cruise Stage: 193 kg
propellant: 50 kg[1]
Start of mission
Launch dateJuly 7, 2003 03:18 UTC (2003-07-07UTC03:18)[2][1]
RocketDelta II 7925H-9.5[1][3][4]
Launch siteCape Canaveral SLC-17B
ContractorBoeing
End of mission
DeclaredFebruary 13, 2019 (2019-02-14)
Last contactJune 10, 2018
Mars rover
Landing dateJanuary 25, 2004,[2] 05:05 UTC SCET
MSD 46236 14:35 AMT
Landing site1°56′46″S 354°28′24″E / 1.9462°S 354.4734°E / -1.9462; 354.4734 (Opportunity rover)[5]
Distance driven45.16 km (28.06 mi)[6]

The launch patch for Opportunity, featuring Duck Dodgers (Daffy Duck)  

Opportunity, also known as MER-B (Mars Exploration Rover – B) or MER-1, is a robotic rover that was active on Mars from 2004 to 2018.[2] 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.[7] With a planned 90 sol duration of activity (slightly more than 90 earth days), Spirit functioned until getting stuck in 2009 and ceased communications in 2010, while Opportunity was able to stay operational for 7216 sols since landing, exceeding its operating plan by 20 years, 17 days (in Earth Time), 55 times its designed lifespan. As of June 10, 2018, when contact was lost, the rover had traveled a distance of 45.16 kilometers (28.06 miles).[6]

Mission highlights included the initial 90 sol mission, finding extramartian meteorites such as Heat Shield Rock (Meridiani Planum meteorite), and over two years studying Victoria crater. The rover survived dust-storms and in 2011 reached Endeavour crater, which has been described as a "second landing site".[8]

Due to the 2018 dust storms on Mars, Opportunity ceased communications on June 10 and entered hibernation on June 12, 2018. It was hoped it would reboot once the atmosphere cleared,[9] but it did not, suggesting either a catastrophic failure or that a layer of dust has covered its solar panels. NASA hoped to reestablish contact with the rover, citing a windy period that could potentially clean off the solar panels of the rover.[10] NASA officials declared that the Opportunity mission was complete on February 13, 2019 after it failed to wake from repeated signals sent since August 2018.[11]

Mission overview

See also: Opportunity mission timeline
Opportunity's first self-portrait on Mars
(February 14–20, 2018 / sols 4998−5004)
Opportunity's landing site (denoted with a star)

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 7414 days since landing. An archive of weekly updates on the rover's status can be found at the Opportunity Update Archive.[12]

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 to early June 2005, 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.[13]

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.

Lifetime progress map with Washington, D.C. overlay for size and distance comparison

Opportunity's total odometry as of June 27, 2016 (sol 4417) was 42.85 km (26.63 mi), while the dust factor is 0.725. [14] 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).[15]

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,[16] 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.[17]

As of May 2018 into the early days of June, Opportunity was still functioning on the surface of Mars, and engaged in further scientific exploration.[18]

End of mission

In early June 2018, a large global-scale dust storm developed and within a few days the rover's solar panels were not generating enough power to maintain communications, with last contact on June 10, 2018. NASA stated they did not expect to resume communication until after the global dust storm subsided,[19] but the rover kept silent even after the storm ended in early-October,[19] suggesting either a catastrophic failure or a layer of dust covered its solar panels.[20] The team remained hopeful that a windy period between November 2018 and January 2019 might clear the dust from its solar panels, as had happened before.[20] On January 8, 2019, wind was detected near the rover's site which could possibly wake it up after 7 months of silence. On January 26, the Opportunity mission team announced a plan to begin broadcasting a new set of commands to the rover in case its radio receiver failed.[21] By February 6, 2019 over 835 recovery commands were transmitted to Opportunity with no response.[22] A final attempt to make contact occurred on February 12, 2019.[23] NASA officials held a press conference on February 13, 2019, declaring that the Opportunity mission was officially over. NASA associate adminstrator Thomas Zurbuchen stated "It is therefore that I am standing here with a deep sense of appreciation and gratitude that I declare the Opportunity mission is complete."[24]

Mars dust stormoptical depth tau – May to September 2018
(Mars Climate Sounder; Mars Reconnaisance Orbiter)
(1:38; animation; October 30, 2018; file description)
Opportunity solar array energy production (2018 dust storm)
Date Watt-hours[19]
Sol 5079 (May 8, 2018)
667
Sol 5100 (May 29, 2018)
652
Sol 5105 (June 3, 2018)
468
Sol 5106 (June 4, 2018)
345
Sol 5107 (June 6, 2018)
133
Sol 5111 (June 10, 2018)
22

Objectives

HiRise image from MRO, was laid over 3-D topographic map of the terrain, with 5-fold vertical exaggeration; view looking west on to Perseverance Valley on the western rim of Endeavour crater (February 15, 2018)[25]

The scientific objectives of the Mars Exploration Rover mission were to:[26]

  • Search for and characterize a variety of rocks and soils that hold clues to past water activity. In particular, samples sought 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 did not the ability to detect life directly, they offered very important information on the habitability of the environment in the planet's history.

Design and construction

Main article: Mars Exploration Rover
See also: Comparison of embedded computer systems on board the Mars rovers
Pancam Mast Assembly (PMA)

Opportunity (along with its twin, Spirit) was a six-wheeled, solar-powered robot standing 1.5 meters (4.9 ft) high, 2.3 meters (7.5 ft) wide, and 1.6 meters (5.2 ft) long and weighing 180 kilograms (400 lb). Six wheels on a rocker-bogie system enable mobility. Each wheel had its own motor, the vehicle was steered at front and rear and was designed to operate safely at tilts of up to 30 degrees. Maximum speed was 5 centimeters per second (2.0 in/s) although average speed is about a fifth of this (0.89 centimeters per second (0.35 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".[27][28]

Solar arrays generated about 140 watts for up to fourteen hours per Martian day (sol) while rechargeable lithium ion batteries stored energy for use at night. Opportunity's onboard computer used 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 ranged from −40 to +40 °C (−40 to 104 °F) and radioisotope heaters provided a base level of heating, assisted by electrical heaters when necessary.[29] A gold film and a layer of silica aerogel provided insulation.

Communications depended 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 was also used to relay data to spacecraft orbiting Mars.

Fixed science/engineering instruments included:

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 produced 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.

Power

Main article: Mars Exploration Rover § Power and electronic systems
MER-B NavCam image Sol 4959[30] Start of January 2018, looking along rim of Endeavour crater

Examples of watt-hours per sol collected by the rover.[31][clarification needed] The rover used a combination of solar cells and a rechargeable chemical battery.[32] This class of rover has two rechargeable lithium batteries, each composed of 8 cells with 8 amp-hour capacity.[33] At the start of the mission the solar panels could provide up to around 900 watt-hours to recharge the battery and power system in one Sol, but this could vary due to a variety of factors.[32] In Eagle crater the cells were producing about 840 watt-hours, but by Sol 319 in December 2004, it had dropped to 730 watt-hours.[34]

Like Earth, Mars has seasonal variations that reduce sunlight during winter. However, since the Martian year is longer than that of the Earth, the seasons fully rotate roughly once every 2 Earth years.[35] By 2016, MER-B had endured seven Martian winters, during which times power levels drop which can mean the rover avoids doing activities that use a lot of power.[35] During its first winter power levels dropped to under 300 watt-hours per day for two months, but some later winters were not as bad.[35]

Another factor that can reduce received power is dust in the atmosphere, especially dust storms.[36] Dust storms have occurred quite frequently when Mars is closest to the Sun.[36] Global dust storms in 2007 reduced power levels for Opportunity and Spirit so much they could only run for a few minutes each day.[36] Due to the 2018 dust storms on Mars, Opportunity entered hibernation mode on June 12,[37][38] but it remained silent after the storm subsided in early-October.[19]

Examples

Solar array energy production throughout mission graphs
Opportunity solar array energy production (2013–2014)
Date Watt-hours
Sol 3376 (July 23, 2013)
431
Sol 3384 (July 31, 2013)
395
Sol 3390 (August 6, 2013)
385
Sol 3430 (September 16, 2013)
346
Sol 3452 (October 9, 2013)
325
Sol 3472 (October 30, 2013)
299
Sol 3478 (November 5, 2013)
311
Sol 3494 (November 21, 2013)
302
Sol 3507 (December 5, 2013)
270
Sol 3534 (January 1, 2014)
371
Sol 3602 (March 12, 2014)
498
Sol 3606 (March 16, 2014)
615
Sol 3621 (April 1, 2014)
661
Sol 3676 (May 27, 2014)
764
Sol 3710 (July 1, 2014)
745
Sol 3744 (August 5, 2014)
686
Sol 3771 (September 2, 2014)
713
Sol 3805 (October 7, 2014)
640
Sol 3834 (November 6, 2014)
505
Sol 3859 (December 1, 2014)
468
Opportunity solar array energy production (2015–2016)
Date Watt-hours
Sol 3894 (January 6, 2015)
438
Sol 3921 (February 3, 2015)
484
Sol 3948 (March 3, 2015)
545
Sol 3982 (April 7, 2015)
559
Sol 4010 (May 5, 2015)
508
Sol 4055 (June 21, 2015)
477
Sol 4084 (July 20, 2015)
432
Sol 4119 (August 25, 2015)
404
Sol 4153 (September 29, 2015)
352
Sol 4180 (October 27, 2015)
332
Sol 4201 (November 18, 2015)
376
Sol 4221 (December 8, 2015)
407
Sol 4246 (January 3, 2016)
449
Sol 4275 (February 2, 2016)
498
Sol 4303 (March 1, 2016)
585
Sol 4337 (April 5, 2016)
650
Sol 4377 (May. 16, 2016)
672
Sol 4398 (June 7, 2016)
637
Sol 4425 (July 5, 2016)
644
Sol 4457 (August 7, 2016)
607
Sol 4486 (September 5, 2016)
476
Sol 4514 (October 4, 2016)
472
Sol 4541 (November 1, 2016)
390
Sol 4575 (December 6, 2016)
372
Opportunity solar array energy production (2017-2018)
Date Watt-hours
Sol 4602 (January 3, 2017)
520
Sol 4636 (February 7, 2017)
414
Sol 4663 (March 6, 2017)
441
Sol 4691 (April 4, 2017)
415
Sol 4718 (May. 2, 2017)
405
Sol 4752 (June 6, 2017)
362
Sol 4786 (July 11, 2017)
352
Sol 4814 (August 8, 2017)
319
Sol 4841 (September 5, 2017)
285
Sol 4875 (October 10, 2017)
339
Sol 4909 (November 14, 2017)
393
Sol 4934 (December 10, 2017)
408
Sol 4970 (January 16, 2018)
525
Sol 4991 (February 8, 2018)
628
Sol 5025 (March 13, 2018)
679
Sol 5052 (April 10, 2018)
694
Sol 5079 (May 8, 2018)
667
Sol 5100 (May 29, 2018)
652
Sol 5105 (June 3, 2018)
468
Sol 5106 (June 4, 2018)
345
Sol 5107 (June 6, 2018)
133
Sol 5111 (June 10, 2018)
22

Launch

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

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.[39]

Animation of Opportunity trajectory from 2003-Jul-09 to 2004-Jan-25
   Sun ·    Earth ·    Mars ·    Opportunity

Landing

Annotated elevation map of Opportunity landing site and some surrounding craters including Endeavour and Airy
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).

On January 25, 2004 the airbag-protected landing craft settled onto the surface of Mars in the Eagle crater.

Heat shield impact site

In late December 2004, Opportunity reached the impact site of its heat shield, and took a panorama around Sol 325.[40]

Area around the heat shield, including the resulting shield impact crater. The heat shield was released before the rover landed and impacted the surface on its own, and the rover later roved to the impact site. Near this location it discovered the first meteorite found on Mars, Heat Shield Rock

Scientific findings

Main article: Scientific information from the Mars Exploration Rover mission
Heat Shield Rock turned out to be the first meteorite discovered on Mars

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.

Honors

Honoring Opportunity's great contribution to the exploration of Mars, an asteroid was named Opportunity: 39382 Opportunity.[41] 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.[42]

On July 28, 2014, it was announced that Opportunity, having traversed over 40 km (25 mi), had become the rover achieving the longest off-world distance, surpassing the previous record of 39 km (24 mi) on the Moon by Lunokhod 2.[43][44]

On March 24, 2015, NASA celebrated Opportunity having traveled the distance of a marathon race, 42.195 kilometers (26.219 mi), from the start of Opportunity's landing and traveling on Mars.[45]

Superlatives

Steepest slope
In March 2016, while trying to reach target on the slope of Marathon Valley in Cape Tribulation, the Mars rover attained a slope of 32 degrees, the highest angle yet for the rover since its mission began. This was so steep that dust that had accumulated on its top panels began to flow downward.[46]
Highest elevation
Opportunity's view from the top of Cape Tribulation on the rim of Endeavour Crater, January 22, 2015.

On Sol 3894 (January 6, 2015) Opportunity reached the summit of "Cape Tribulation," which is 443 feet (135 meters) above "Botany Bay" level and the highest point yet reached by the rover on western rim of Endeavour Crater according to NASA.[19]

Driving distance
Opportunity rover "off-world" driving distance record, compared to other rovers[43][44]

Images

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 February 3, 2018, Opportunity had returned 224,642 pictures.[47][48]

Views

  • Opportunity images the empty lander, the Challenger Memorial Station
    Opportunity images the empty lander, the Challenger Memorial Station
  • Pancam view from August 2012 (Sol 3058)
    Pancam view from August 2012 (Sol 3058)
  • Solander Point is visible on the horizon; foreground shows Botany Bay[49]
    Solander Point is visible on the horizon; foreground shows Botany Bay[49]
  • Opportunity in Endurance crater (simulated view based on actual imagery)
    Opportunity in Endurance crater (simulated view based on actual imagery)
  • BackTrack view (August 2010)
    BackTrack view (August 2010)

Panoramas

A selection of panoramas from the mission:

Panorama of Fram crater (Sol 88, April 23, 2004)
Panorama of Naturaliste crater, in foreground (March 1, 2005)
Panorama taken on the rim of Erebus crater. The rover's solar panels are seen on the lower half (December 5, 2005).
Panorama of the rim of Endeavour crater from Cape Tribulation (January 22, 2015)
Panorama of Spirit of St. Louis crater, a shallow crater about 34 meters (110 ft) long and 24 meters (80 ft) across. In its center is Lindbergh Mound, about 2 to 3 meters (yards) high. (annotated; false color; May 2015).[50]
Panorama of Orion crater (enhanced color; April 26, 2017)[51]
Opportunity looks north as it departs Cape Tribulation, its southern end shown here (April 2017)[52]
Panorama above Perseverance Valley (June 19, 2017)

Microscopic images

  • "Blueberries" (hematite spheres) on a rocky outcrop at Eagle Crater. Note the merged triplet in the upper left.
    "Blueberries" (hematite spheres) on a rocky outcrop at Eagle Crater. Note the merged triplet in the upper left.
  • "Newberries": This view displays an area about 6 centimeters across. It was taken at an outcrop named "Kirkwood" at the Cape York on the rim of Endeavour crater on Mars. The spheres seen here are about 3 millimeters in diameter. The Microscopic Imager took this image at the 3064 sol.
    "Newberries": This view displays an area about 6 centimeters across. It was taken at an outcrop named "Kirkwood" at the Cape York on the rim of Endeavour crater on Mars. The spheres seen here are about 3 millimeters in diameter. The Microscopic Imager took this image at the 3064 sol.

From orbit

  • Opportunity landing site, lander, as imaged by MRO (November 29, 2006)
    Opportunity landing site, lander, as imaged by MRO
    (November 29, 2006)
  • Opportunity landing site, parachute and backshell, as imaged by MRO (November 29, 2006)
    Opportunity landing site, parachute and backshell, as imaged by MRO (November 29, 2006)
  • Opportunity landing site, heat shield, as imaged by MRO (November 29, 2006)
    Opportunity landing site, heat shield, as imaged by MRO
    (November 29, 2006)
  • Opportunity (circled) as seen by HiRISE on January 29, 2009. Endeavour Crater is 17 km (11 mi) away.
    Opportunity (circled) as seen by HiRISE on January 29, 2009. Endeavour Crater is 17 km (11 mi) away.

Area maps

  • Opportunity landing ellipse in Meridiani Planum, near Endeavour crater
    Opportunity landing ellipse in Meridiani Planum, near Endeavour crater
  • This geological map created from MRO's CRISM instrument data from orbit, gives an overview of some of the geology in the area MER-B is exploring
    This geological map created from MRO's CRISM instrument data from orbit, gives an overview of some of the geology in the area MER-B is exploring
This map, color-coded for minerals (CRISM) and annotated, shows the rover's traverse up to about 2010 with some nearby features noted.

Traverse maps

An example of a rover traverse map featuring a line showing path of the rover, and mission sols, which are Mars days counted from its landing and typical of Mars surface mission time reporting. Topographic lines and various feature names are also common

Opportunity arrives at Endeavour crater
  • Opportunity traverse map, from Sol 405 to 528 (2005)
    Opportunity traverse map, from Sol 405 to 528 (2005)
  • Opportunity traverse map, from sol 1 (2004) through sol 2055 (2009)
    Opportunity traverse map, from sol 1 (2004) through sol 2055 (2009)
  • Annotated Opportunity traverse map as of December 8, 2010 (Sol 2442)
    Annotated Opportunity traverse map as of December 8, 2010 (Sol 2442)
  • Annotated Opportunity traverse map as of June 11, 2014 (Sol 3689)
    Annotated Opportunity traverse map as of June 11, 2014 (Sol 3689)
  • Opportunity's traverse on Cape York from Sol 2678 to Sol 3317 with some additional annotations of the main features.
    Opportunity's traverse on Cape York from Sol 2678 to Sol 3317 with some additional annotations of the main features.
Traverse map up to 4836 (September 12, 2017)[53]

See also

References

  1. ^ a b c "Launch Event Details – When did the Rovers Launch?". Archived from the original on February 18, 2009. Retrieved April 25, 2009. {{cite web}}: Unknown parameter |dead-url= ignored (|url-status= suggested) (help)
  2. ^ a b c Nelson, Jon. "Mars Exploration Rover – Opportunity". NASA. Archived from the original on January 24, 2014. Retrieved February 2, 2014. {{cite web}}: Unknown parameter |dead-url= ignored (|url-status= suggested) (help)
  3. ^ "Mars Exploration Rover project, NASA/JPL document NSS ISDC 2001 27/05/2001" (PDF). p. 5. Archived from the original (PDF) on May 27, 2010. Retrieved April 28, 2009. {{cite web}}: Unknown parameter |deadurl= ignored (|url-status= suggested) (help)
  4. ^ McDowell, Jonathan (July 15, 2003). "Jonathan's Space Report No. 504". Jonathan's Space Report. Archived from the original on August 26, 2009. Retrieved April 28, 2009. {{cite web}}: Unknown parameter |dead-url= ignored (|url-status= suggested) (help)
  5. ^ Staff. "Mapping the Mars Rovers' Landing Sites". Esri. Archived from the original on May 4, 2014. Retrieved May 4, 2014. {{cite web}}: Unknown parameter |dead-url= ignored (|url-status= suggested) (help)
  6. ^ a b "Mars Exploration Rover Mission: All Opportunity Updates". nasa.gov. Archived from the original on August 30, 2015. Retrieved September 18, 2018. {{cite web}}: Unknown parameter |dead-url= ignored (|url-status= suggested) (help)
  7. ^ Spirit landed on January 4, 2004.
  8. ^ "Opportunity on verge of new discovery". wustl.edu. Archived from the original on September 24, 2011. Retrieved September 17, 2011. {{cite web}}: Unknown parameter |dead-url= ignored (|url-status= suggested) (help)
  9. ^ Greicius, Tony (September 24, 2018). "Opportunity Emerges in a Dusty Picture". NASA. Archived from the original on October 15, 2018. Retrieved November 30, 2018. {{cite news}}: Unknown parameter |dead-url= ignored (|url-status= suggested) (help)
  10. ^ Greicius, Tony (August 30, 2018). "Update on Opportunity Rover Recovery Efforts". NASA. Archived from the original on November 3, 2018. Retrieved November 30, 2018. {{cite news}}: Unknown parameter |dead-url= ignored (|url-status= suggested) (help)
  11. ^ "NASA's Opportunity Rover Mission on Mars Comes to End". NASA. February 13, 2019. Retrieved February 13, 2019.
  12. ^ "Opportunity Update Archive". NASA/JPL. Archived from the original on May 7, 2009. Retrieved May 4, 2009. {{cite web}}: Unknown parameter |dead-url= ignored (|url-status= suggested) (help)
  13. ^ "NASA – NASA Mars Rover Arrives at New Site on Martian Surface". Nasa.gov. Archived from the original on June 6, 2012. Retrieved July 15, 2012. {{cite web}}: Unknown parameter |dead-url= ignored (|url-status= suggested) (help)
  14. ^ "Mars Exploration Rover Mission: All Opportunity Updates". nasa.gov. Archived from the original on August 30, 2015. Retrieved January 5, 2017. {{cite web}}: Unknown parameter |dead-url= ignored (|url-status= suggested) (help)
  15. ^ "Opportunity Updates". Archived from the original on October 18, 2012. Retrieved November 20, 2014. {{cite web}}: Unknown parameter |dead-url= ignored (|url-status= suggested) (help)
  16. ^ O'Neill, Ian (December 29, 2014). "Mars Rover Opportunity Suffers Worrying Bouts of 'Amnesia'". Web article. Discovery News. Archived from the original on December 30, 2014. Retrieved December 31, 2014. {{cite web}}: Unknown parameter |dead-url= ignored (|url-status= suggested) (help)
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External links

Wikimedia Commons has media related to Mars Exploration Rover.

NASA links

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Other links


Map of Mars
Interactive image map of the global topography of Mars, overlaid with the position of Martian rovers and landers. Coloring of the base map indicates relative elevations of Martian surface.
Clickable image: Clicking on the labels will open a new article.
Legend:   Active (white lined, ※)  Inactive  Planned (dash lined, ⁂)
Bradbury Landing
Deep Space 2
Mars Polar Lander
Perseverance
Schiaparelli EDM
Spirit
Viking 1
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