NationMaster - Encyclopedia: Mars Polar Lander

The Mars Polar Lander was part of the NASA Mars Surveyor '98 program, which consisted of two spacecraft launched separately, the Mars Climate Orbiter (formerly the Mars Surveyor '98 Orbiter) and the Mars Polar Lander (formerly the Mars Surveyor '98 Lander). Mars Polar Lander also conveyed the Deep Space 2 surface-penetrator mission to Mars. The two missions were designed to study the Martian weather, climate, water and carbon dioxide levels, in order to understand the reservoirs, behavior, and atmospheric role of volatiles and to search for evidence of long-term and episodic climate changes. Communication with the lander was lost prior to atmospheric entry. Mars Polar Lander from [1] File history Legend: (cur) = this is the current file, (del) = delete this old version, (rev) = revert to this old version. ... Mars Polar Lander from [1] File history Legend: (cur) = this is the current file, (del) = delete this old version, (rev) = revert to this old version. ... The National Aeronautics and Space Administration (NASA) is an agency of the United States federal government, responsible for the nations public space program. ... The Mars Surveyor 98 program comprised two spacecraft launched separately, the Mars Climate Orbiter (formerly the Mars Surveyor 98 Orbiter) and the Mars Polar Lander (formerly the Mars Surveyor 98 Lander); on board the Mars Polar Lander spacecraft were two surface-penetrator probes (Deep Space 2). ... Mars Climate Orbiter during tests The Mars Climate Orbiter (formerly the Mars Surveyor 98 Orbiter) was one of two spacecraft in the Mars Surveyor 98 program, the other being the Mars Polar Lander (formerly the Mars Surveyor 98 Lander). ... The Deep Space 2 mission, which launched in January 1999 as part of NASAs New Millennium Program, consisted of two highly advanced miniature probes to Mars. ... Adjectives: Martian Atmosphere Surface pressure: 0. ... Mars is the fourth planet from the Sun in the solar system, named after the Roman god of war (the counterpart of the Greek Ares), on account of its blood red color as viewed in the night sky. ... Weather is a term that encompasses phenomena in the atmosphere of a planet. ... Impact from a water drop causes an upward rebound jet surrounded by circular capillary waves. ... Carbon dioxide is a chemical compound composed of one carbon and two oxygen atoms. ... Atmosphere is the general name for a layer of gases that may surround a material body of sufficient mass. ...

Scientific objectives

The Mars Polar Lander was to touch down on the southern polar layered terrain, between 73°S and 76°S in a region called Planum Australe, less than 1000 km from the south pole, near the edge of the carbon dioxide ice cap in Mars' late southern spring. The terrain appears to be composed of alternating layers of clean and dust-laden ice, and may represent a long-term record of the climate, as well as an important volatile reservoir. The mission had as its primary science objectives to: Planum Australe, taken by Mars Global Surveyor. ...

These goals were to be accomplished using a number of scientific instruments, including a Mars Volatiles and Climate Surveyor (MVACS) instrument package which was comprised of a robotic arm and attached camera, mast-mounted surface stereo imager and meteorology package, and a gas analyzer. In addition, a Mars Descent Imager (MARDI) was planned to capture regional views from parachute deployment at about 8 km altitude down to the landing. The Russian Space Agency provided a laser ranger (LIDAR) package for the lander, which would be used to measure dust and haze in the Martian atmosphere. A miniature microphone would also be on board to record sounds on Mars. Attached to the lander spacecraft were a pair of small probes, the Deep Space 2 Mars Microprobes, which were to be deployed to fall and penetrate beneath the martian surface when the spacecraft reached Mars. Satellite image of Hurricane Hugo with a polar low visible at the top of the image. ... The Russian Federal Space Agency, formerly the Russian Aviation and Space Agency (RKA) (in Russian: Российское авиационно-космическое аге&#1085... This article or section does not adequately cite its references or sources. ...

Spacecraft and subsystems

The Mars Polar Lander consisted of a hexagonal base composed of aluminum honeycomb with composite graphite epoxy face sheets supported on three aluminum landing legs. The lander, when fully deployed stood 1.06 m tall and approximately 3.6 m wide. The launch mass of the spacecraft was approximately 583 kg, including 64 kg of fuel, an 82 kg cruise stage, a 140 kg aeroshell/heatshield, and the two 3.5 kg microprobes. A thermally regulated interior component deck held temperature-sensitive electronic components and batteries and the thermal control system. Two solar panels extended out from opposite sides of the base. Mounted on top of the base were the robotic arm, the stereo imager and mast, a UHF antenna, the LIDAR, the MVACS electronics, the meteorology mast, and the medium-gain dish antenna. The MARDI was mounted at the base of the lander, and the propellant tanks were affixed to the sides. During cruise, the lander was attached to the cruise stage and enclosed in the 2.4 m diameter aeroshell. Image File history File links Download high-resolution version (813x668, 81 KB) from Ger wiki File history Legend: (cur) = this is the current file, (del) = delete this old version, (rev) = revert to this old version. ... Image File history File links Download high-resolution version (813x668, 81 KB) from Ger wiki File history Legend: (cur) = this is the current file, (del) = delete this old version, (rev) = revert to this old version. ...

The spacecraft was three-axis stabilized during cruise using star cameras and sun sensors in conjunction with inertial measurement units. Four hydrazine cruise reaction engine modules, each consisting of one 5-lb_f (22 N) trajectory correction maneuver thruster and one canted 1-lb_f (4 N) reaction control system thruster, provided attitude control. The descent and landing propulsion system consisted of three groups of four pulse-modulated 266 N hydrazine engines. Control and knowledge for descent and landing was provided by a four-beam Doppler radar system and an AACS subsystem. The hydrazine was stored in two diaphragm tanks with a total capacity of 64 kg for both cruise and descent systems. An crap is a closed system that is used to detect altitude, location, and motion. ...

Communications between Earth and the spacecraft during cruise to Mars were via X band using two solid state power amplifiers and a fixed medium-gain antenna mounted on the cruise stage and backed up by a receive-only low-gain antenna. During surface operations communications (downlink and uplink) would have been via the UHF antenna on the lander to the Mars Climate Orbiter, which would function as a relay to Earth. Eight to ten relay passes over the lander would have been available from the orbiter each day, but the number of communications sessions would be limited by power demands. Uplink-only communications to Earth were to be provided by the medium-gain DTE (direct to Earth) two-axis articulated antenna. Image File history File links Download high-resolution version (960x674, 87 KB) from Ger wiki File history Legend: (cur) = this is the current file, (del) = delete this old version, (rev) = revert to this old version. ... Image File history File links Download high-resolution version (960x674, 87 KB) from Ger wiki File history Legend: (cur) = this is the current file, (del) = delete this old version, (rev) = revert to this old version. ... The X band (3-cm radar spot-band) of the microwave band of the electromagnetic spectrum roughly ranges from 5. ... This article is about the radio frequency. ... Mars Climate Orbiter during tests The Mars Climate Orbiter (formerly the Mars Surveyor 98 Orbiter) was one of two spacecraft in the Mars Surveyor 98 program, the other being the Mars Polar Lander (formerly the Mars Surveyor 98 Lander). ...

Power was provided during cruise phase by two gallium arsenide solar array wings with a total area of 3.1 m² attached to the cruise stage. After landing, two gallium arsenide solar array wings with a total area of 2.9 m² would have been deployed. Power is stored in 16 A·h nickel metal hydride common pressure vessel batteries for peak load operations and night time heating. The payload is allocated 25 W of continuous power when operating. This article is about the chemical compound. ... Modern, high capacity NiMH rechargeable batteries A nickel metal hydride (or NiMH) battery is a type of rechargeable battery similar to a nickel-cadmium (NiCad) battery but which does not contain expensive (and environmentally risky) cadmium. ...

Mission profile

Mars Polar Lander and the attached Deep Space 2 probes were launched on a Delta 7425 (a Delta II Lite launch vehicle with four strap-on solid-rocket boosters and a Star 48 (PAM-D) third stage) which placed them into a low-Earth parking orbit. The third stage fired for 88 seconds at 20:57 UT 3 January 1999 to put the spacecraft into a Mars transfer trajectory and the spacecraft and third stage separated at 21:03 UT. Trajectory correction maneuvers were performed on 21 January, 15 March, 1 September, 30 October, and 30 November 1999. A Delta II rocket launches from Cape Canaveral carrying a GPS satellite The Boeing IDS Delta II family of launch vehicles has been in service since 1989. ... January 3 is the 3rd day of the year in the Gregorian calendar. ... Year 1999 (MCMXCIX) was a common year starting on Friday (link will display full 1999 Gregorian calendar). ... January 21 is the 21st day of the year in the Gregorian calendar. ... March 15 is the 74th day of the year in the Gregorian calendar (75th in leap years). ... September 1 is the 244th day of the year (245th in leap years). ... October 30 is the 303rd day of the year (304th in leap years) in the Gregorian calendar, with 62 days remaining. ... November 30 is the 334th day of the year (335th in leap years) in the Gregorian calendar. ... Year 1999 (MCMXCIX) was a common year starting on Friday (link will display full 1999 Gregorian calendar). ...

After an 11-month hyperbolic transfer cruise, the Mars Polar Lander reached Mars on 3 December 1999. A final 30 minute tracking session begins at 12:45 UT (7:45 a.m. EST) and was used to determine if a final thruster correction was necessary. Final contact to retrieve data on the status of the propulsion system was made from 19:45 UT to 20:00 UT. At 20:04, 6 minutes before atmospheric entry, an 80 second thruster firing was to turn the craft to its entry orientation. The Star 48 upper cruise stage was to be jettisoned at about 20:05 UT, and about 18 seconds later the microprobes were to be dropped from the cruise stage into the martian atmosphere (also targeted at the southern polar layered terrain). The lander was to make a direct entry into Mars' atmosphere at 6.8 km/s at about 20:10 UT (3:10 p.m. EST). Due to lack of communication, it is not known at this time whether all these steps following final contact were executed, nor whether any of the descent plan described below took place as designed. December 3 is the 337th (in leap years the 338th) day of the year in the Gregorian calendar. ... Year 1999 (MCMXCIX) was a common year starting on Friday (link will display full 1999 Gregorian calendar). ... A time zone is a region of the Earth that has adopted the same standard time, usually referred to as the local time. ...

Initial deceleration would be simple aerobraking using the 2.4 m ablation heat shield. The maximum time from atmospheric entry to landing would be 4 minutes 33 seconds. The inertial measurement unit would estimate the velocity throughout the entry and descent phase and the thrusters would keep the craft aligned. At an altitude of about 7.3 km at 500 m/s the parachute would be deployed by a mortar followed by heat shield separation. Just before heat shield separation, the descent imager (MARDI) would turn on. The landing legs would be deployed 70 to 100 seconds before landing and the descent engines warmed up with short pulses. Then the parachute would be jettisoned and the descent engines fired, regulated by the spacecraft control system and the Doppler radar. The backshell would separate from the lander at about 1.4 km altitude at 80 m/s and the descent engines turned on to slow the descent and turn the flight path to vertical. In aeronautics, a heat shield is a protective layer on a spacecraft or ballistic missile that is designed to protect it from high temperatures, usually those that result from aerobraking during entry into a planets atmosphere. ... Doppler Effect Doppler radar uses the Doppler effect to measure the radial velocity of targets in the antennas directional beam. ...

At 12 meters altitude the 2.4 m/s terminal descent phase was to begin. Engine shutoff would occur when one of the landing legs touched the ground. The horizontal landing velocity would be less than 2.4 m/s vertical and 1 m/s horizontal. The orientation of the lander is controlled by the AACS subsystem to maximize solar array efficiency and minimize obstruction of the DTE antenna. The lander would have touched down at 20:15 UT Earth received time (3:15 p.m. EST) in the late southern spring season, during which the Sun will always be above the horizon at the landing site. The other times listed above are also Earth received times, light travel time from Mars at that point was approximately 14 minutes.

Immediately after landing the solar panels were to be deployed. The first signal from the lander was to reach Earth at 20:39 UT (3:39 p.m. EST), but was never received. This was to be the start of a 45 minute communications session. After this session the lander was to recharge its batteries for about six hours. On 4 December at 04:30 UT (11:30 p.m. EST December 3) a communications session was to begin which would have lasted about 2¼ hours. This session would have included images, including pictures from the Mars Descent Imager, but again no transmission was received. The first sounds from the Mars Microphone were to be released as early as 4 December and the first robot arm dig was to occur on 7 December. Science experiments would continue over the 90-day primary mission, with an extended mission to follow based on lander performance. December 4th redirects here. ... December 3 is the 337th (in leap years the 338th) day of the year in the Gregorian calendar. ... December 4th redirects here. ... December 7 is the 341st day (342nd in leap years) of the year in the Gregorian calendar. ...

Loss of lander

The last telemetry from Mars Polar Lander was sent just prior to atmospheric entry on December 3, 1999. No further signals have been received from the lander. The cause of this loss of communication is unknown. December 3 is the 337th (in leap years the 338th) day of the year in the Gregorian calendar. ... Year 1999 (MCMXCIX) was a common year starting on Friday (link will display full 1999 Gregorian calendar). ...

According to the investigation that followed, the most likely cause of the failure of the mission was a software error that mistakenly identified the vibration caused by the deployment of the lander's legs as being caused by the vehicle touching down on the Martian surface, resulting in the vehicle's descent engines being cut off while it was still 40 meters above the surface, rather than on touchdown as planned. Another possible reason for failure was inadequate preheating of catalysis beds for the pulsing rocket thrusters: hydrazine fuel decomposes on the beds to make hot gases that throttle out the rocket nozzles; cold catalysis beds caused misfiring and instability in crash review tests. Hydrazine is the chemical compound with formula N2H4. ...

Attempts were made in late 1999 and early 2000 to search for the remains of the Mars Polar Lander using images from the Mars Global Surveyor. These attempts were unsuccessful, but re-examination of the images in 2005 led to a tentative identification described in the July 2005 issue of Sky and Telescope.^[1] However, higher resolution photos taken later in 2005 revealed that this identification was incorrect, and that Mars Polar Lander remains lost.^[2] NASA is hoping that the higher resolution cameras of the Mars Reconnaissance Orbiter, currently in Martian orbit, will finally locate the lander's remains. The Mars Global Surveyor (MGS) was a US spacecraft developed by NASA and the Jet Propulsion Laboratory and launched November 1996. ... 2005 (MMV) was a common year starting on Saturday of the Gregorian calendar. ... NASAs Mars Reconnaissance Orbiter (MRO) is a multipurpose spacecraft designed to conduct reconnaissance and exploration of Mars from orbit. ...

The Phoenix lander is planned to carry some instruments derived from those on Mars Polar Lander.
For the Star Trek spacecraft, see Phoenix (Star Trek). ...

See also

Computer generated image of one of the two Mars Exploration Rovers which touched down on Mars in 2004. ... Space exploration is the physical exploration of outer space, both by human spaceflights and by robotic spacecraft. ... It has been suggested that Space probe be merged into this article or section. ... For the Star Trek spacecraft, see Phoenix (Star Trek). ...

References

Categories: Mars spacecraft | NASA probes | Software engineering disasters June 17 is the 168th day of the year (169th in leap years) in the Gregorian calendar. ... 2005 (MMV) was a common year starting on Saturday of the Gregorian calendar. ... March 2 is the 61st day of the year (62nd in leap years) in the Gregorian calendar. ... For the Manfred Mann album, see 2006 (album). ... June 17 is the 168th day of the year (169th in leap years) in the Gregorian calendar. ... 2005 (MMV) was a common year starting on Saturday of the Gregorian calendar. ... Computer generated image of one of the two Mars Exploration Rovers which touched down on Mars in 2004. ... The eight planets and three dwarf planets of the Solar System. ... Adjectives: Martian Atmosphere Surface pressure: 0. ... The Marsnik program of unmanned spacecraft were the Soviet Unions first attempt at interplanetary exploration. ... Sputnik 22 (also known as Korabl 11 and Mars 1962A) was an attempted Mars flyby mission, presumably similar to the Mars 1 mission launched 8 days later. ... Mars 1 (1962 Beta Nu 1) was an automatic interplanetary station launched in the direction of Mars on November 1, 1962, the first of the Soviet Mars probe program, with the intent of flying by the planet at a distance of about 11,000 km. ... Sputnik 24 (also known as Beta Xi 1, Korabl 13, and Mars 1962B) was an attempted Mars lander mission. ... Mariner 3 and 4 were identical spacecraft of the Mariner program designed to carry out the first flybys of Mars. ... Mars 3MV-4A Zond 2, a member of the Soviet Zond program, was the second Soviet spacecraft to attempt a flyby of Mars. ... Mars 1969A, also known as Mars 69A in Soviet documentation, was one of two identical probes (the other being Mars 1969B), each consisting of an orbiter and an atmospheric probe. ... Mars 1969B, also known as Mars 69BA in Soviet documentation, was one of two identical probes (the other being Mars 1969A), each consisting of an orbiter and an atmospheric probe. ... Mariner 8. ... Cosmos 419 This launch was intended to be a Mars orbiting mission. ... The Mars program was a series of Mars unmanned landers and orbiters launched by the Soviet Union in the early 1970s. ... The Mars program was a series of Mars unmanned landers and orbiters launched by the Soviet Union in the early 1970s. ... The Phobos program was an unmanned space mission consisting of two probes launched by the Soviet Union to study Mars and its moons Phobos and Deimos. ... An artists concept of the Mars Observer in orbit around Mars. ... To meet Wikipedias quality standards, this article or section may require cleanup. ... Nozomi at Mars Nozomi (ã®ãžã¿) (Japanese for Hope and known before launch as Planet-B) was planned as a Mars-orbiting aeronomy probe. ... Mars Climate Orbiter during tests The Mars Climate Orbiter (formerly the Mars Surveyor 98 Orbiter) was one of two spacecraft in the Mars Surveyor 98 program, the other being the Mars Polar Lander (formerly the Mars Surveyor 98 Lander). ... The Deep Space 2 mission, which launched in January 1999 as part of NASAs New Millennium Program, consisted of two highly advanced miniature probes to Mars. ... Beagle 2 as it would have looked on Mars Beagle 2 was an unsuccessful British landing spacecraft that formed part of the European Space Agencys 2003 Mars Express mission. ... The Voyager program was a planned series of unmanned NASA probes to Mars. ... Conceptual drawing Mars Surveyor 2001 Lander was a planned NASA Mars probe which was cancelled in May 2000 in the wake of the failures of the Mars Climate Orbiter and Mars Polar Lander missions in late 1999. ... For late 2007 (or 2009) CNES (French Space Agency) and ESA (European Space Agency) had planned to send to Mars remote sensing orbiter and four small Netlanders. ... Introduction NASA planned to establish a so-called interplanetary Internet with the launch of the Mars Telecommunications Orbiter in 2009. ...

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