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Mars 96 (sometimes called Mars-8) was a failed
Mars Mars is the fourth planet from the Sun and the second-smallest planet in the Solar System, only being larger than Mercury (planet), Mercury. In the English language, Mars is named for the Mars (mythology), Roman god of war. Mars is a terr ...
mission launched in 1996 to investigate Mars by the
Russian Space Forces The Russian Space Forces ( rus, Космические войска России, Kosmicheskie voyska Rossii, KV) are a branch of the Russian Aerospace Forces, that provides aerospace warning, air and space sovereignty, and other related protect ...
and not directly related to the Soviet
Mars probe program The Mars program was a series of uncrewed spacecraft launched by the Soviet Union between 1960 and 1973. The spacecraft were intended to explore Mars, and included flyby probes, landers and orbiters. Early Mars spacecraft were small, and launch ...
of the same name. After failure of the second fourth-stage burn, the probe assembly re-entered the
Earth's atmosphere The atmosphere of Earth is the layer of gases, known collectively as air, retained by Earth's gravity that surrounds the planet and forms its planetary atmosphere. The atmosphere of Earth protects life on Earth by creating pressure allowing for ...
, breaking up over a long portion of the
Pacific Ocean The Pacific Ocean is the largest and deepest of Earth's five oceanic divisions. It extends from the Arctic Ocean in the north to the Southern Ocean (or, depending on definition, to Antarctica) in the south, and is bounded by the continen ...
,
Chile Chile, officially the Republic of Chile, is a country in the western part of South America. It is the southernmost country in the world, and the closest to Antarctica, occupying a long and narrow strip of land between the Andes to the east a ...
, and
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. The ''Mars 96'' spacecraft was based on the Phobos probes launched to Mars in 1988. They were of a new design at the time and both ultimately failed. For the ''Mars 96'' mission the designers believed they had corrected the flaws of the Phobos probes, but the value of their improvements was never demonstrated due to the destruction of the probe during the launch phase.


History

Mars 96, the only Soviet/Russian lunar or planetary probe in the 1990s, was an ambitious mission to investigate the evolution of the Martian atmosphere, its surface, and its interior. Originally planned as two spacecraft, Mars 94 and Mars 96, the missions were delayed and became Mars 96 and Mars 98. Subsequently Mars 98 was cancelled leaving Mars 96 as the first Russian deep space mission beyond Earth orbit since the collapse of the Soviet Union. The entire spacecraft comprised an orbiter, two small autonomous stations, and two independent penetrators. It was, however, a very ambitious mission and the heaviest interplanetary probe launched up to that time. The mission included a large complement of instruments provided by
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,
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, other
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and the
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. Similar instruments have since been flown on
Mars Express ''Mars Express'' is a space exploration mission being conducted by the European Space Agency (ESA). The ''Mars Express'' mission is exploring the planet Mars, and is the first planetary mission attempted by the agency. "Express" originally ref ...
, launched in 2003. Its project scientist was Alexander Zakharov.


Scientific goals

''Mars 96'' was intended to solve several problems concerning our understanding of Mars. The scientific goal of the mission was to analyze the planet's evolutionary history of its surface, atmosphere, and inner structure. Other studies during cruise, such as astrophysical studies were to be made. They can be broken down into several categories.


Martian surface

Studies of the
martian surface The study of surface characteristics (or surface properties and processes) is a broad category of Mars science that examines the nature of the materials making up the Martian surface. The study evolved from telescopic and remote-sensing techniques ...
were to include a global topographical survey, mineralogical mapping, soil composition, and studies of the cryolithozone and its deep structure.


Atmosphere

Studies of the atmosphere were to include studies of the climate, abundance of certain elements, ions, and chemicals such as water, carbon dioxide, ozone, and others, general global monitoring, pressure variations over time, and characterization of aerosols.


Inner structure

Studies of planet structure were to find the thickness of the crust, study the martian magnetic field, study of
thermal flux Heat flux or thermal flux, sometimes also referred to as ''heat flux density'', heat-flow density or ''heat flow rate intensity'' is a flow of energy per unit area per unit time. In SI its units are watts per square metre (W/m2). It has both a ...
, search for the possibility of active volcanoes, and study seismic activity.


Plasma studies

Plasma studies were to study the strength and orientation of the magnetic field, study of ions and energy composition of plasma during interplanetary cruise and near Mars, and the study of the magnetosphere and its boundaries.


Astrophysical studies

Astrophysical studies were to take place during interplanetary cruise. They included studies of cosmic gamma-bursts and the study of oscillations of the Sun and other stars.


Design


Orbiter

The ''Mars 96'' orbiter was a 3-axis Sun/star stabilized spacecraft which was based on the design of the Phobos orbiters. It had a deployable high and medium gain antennae. Two large
solar panels A solar cell panel, solar electric panel, photo-voltaic (PV) module, PV panel or solar panel is an assembly of photovoltaic solar cells mounted in a (usually rectangular) frame, and a neatly organised collection of PV panels is called a phot ...
were attached to either side of the spacecraft. It also had a jettisonable propulsion unit to be separated sometime after Mars orbit insertion. Two Surface Stations were attached on top of the spacecraft. Two Penetrators were attached to the propulsion unit. It also had a MORION system which was the central interface, microprocessor, and memory system. The orbiter had a total mass, with fuel, of 6180 kg. It had a dry mass of 3159 kg.


Surface station

Each Surface Station was contained in an aeroshell about 1 meter high and about 1 meter in diameter. Each station had a Station Data Processing Unit (SDPI) for controlling station operations, telecommunications unit with a transmitter and a receiver for data transfer, and a power supply consisting of two radio-isotope thermoelectric generators (RTGs), a battery, and electronics for controlling battery charge. Each Surface Station also carried a compact disc which contained science fiction stories, sound, and art that have inspired Mars exploration. It was intended as a gift for future human explorers. The expected lifetime of each Surface Station was one year.


Penetrator

Each penetrator consisted of two major structures: the forebody and the afterbody. When the penetrator struck the surface the forebody was designed to separate and delve 5 to 6 meters into the surface while the afterbody remained on the surface connected to the forebody by wires. The forebody contained the housekeeping equipment and part of the analysing package while the afterbody contained the rest of the analysing package and the radio equipment. Each penetrator was powered by a
Radioisotope thermoelectric generator A radioisotope thermoelectric generator (RTG, RITEG), sometimes referred to as a radioisotope power system (RPS), is a type of nuclear battery that uses an array of thermocouples to convert the heat released by the decay of a suitable radioacti ...
(RTG) and a battery. The expected lifetime of each penetrator was one year.


Instruments


Orbiter

;ARGUS: the ARGUS platform consisted of two television cameras and a mapping spectrometer. The ARGUS had its own multiprocessor control system, a navigation television camera (not related to the other two), a data acquisition system with a 1.5
Gigabit The bit is the most basic unit of information in computing and digital communications. The name is a portmanteau of binary digit. The bit represents a logical state with one of two possible values. These values are most commonly represented a ...
memory, a thermal control system, and an in-flight calibration system. It was designed to point the instruments attached to it with high accuracy on all three axes. ;PAIS: the PAIS platform was designed to mount and point the SPICAM, EVRIS, and PHOTON instruments. ;HRSC: the High Resolution Stereoscopic television-Camera (HRSC) was designed to make detailed topographical studies and make atmospheric studies of cloud structures, limb brightness, and terminator features. It was one of the cameras mounted to the ARGUS platform. The design was reused in the
Mars Express ''Mars Express'' is a space exploration mission being conducted by the European Space Agency (ESA). The ''Mars Express'' mission is exploring the planet Mars, and is the first planetary mission attempted by the agency. "Express" originally ref ...
HRSC camera. ;WAOSS: the Wide-Angle Steroscopic television-Camera (WAOSS) was designed to globally monitor Mars over time to make studies of cloud movement, surface changes due to dust storms, and other long-term observations of the surface and atmosphere. It was mounted to the ARGUS platform. ;OMEGA: the Visible and Infrared Mapping Spectrometer (OMEGA) was designed to map Mars surface composition of igneous rocks, sedimentary rocks, soils, frosts, and ices. It was also supposed to map major gaseous and solid atmospheric components. It was mounted to the ARGUS platform. ;PFS: the Planetary Fourier Spectrometer was designed to make specialized studies of the surface and atmosphere. Atmospheric studies included monitoring of 3D temperature and pressure fields, global mapping of winds, variations of water and carbon monoxide in space and time, and the optical depth, phase function, size distribution, and chemical composition of aerosols. Surface studies included temperature and thermophysical properties of soils, mineralogical composition of the surface, surface condensates, and altimetry. ;TERMOSCAN: the Mapping Radiometer was designed to find the thermal inertia of the soil, monitor diurnal and seasonal dynamics of the temperature regime, search for anomalous heat sources, and thermal studies of the atmosphere. ;SVET: the High-Resolution Mapping Spectrometer was designed for spectrophotometry of Mars in absorption bands of some rocks that might exist in order to determine their composition, study the nature of aerosols, and convert TERMOSCAN data into a digital form compatible with the MORION system. ;SPICAM: the main objectives of the Multichannel Optical Spectrometer were to find the vertical profiles of ozone, water vapor, carbon monoxide, aerosols, and temperature, in the middle and lower atmosphere, diagnostic of the ionosphere, global distribution of water vapor, and building of the density model of the atmosphere. It was mounted to the PAIS platform. ;UVS-M: the Ultraviolet Spectrophotometer was to find the distribution of
hydrogen Hydrogen is the chemical element with the symbol H and atomic number 1. Hydrogen is the lightest element. At standard conditions hydrogen is a gas of diatomic molecules having the formula . It is colorless, odorless, tasteless, non-toxic, an ...
,
helium Helium (from el, ἥλιος, helios, lit=sun) is a chemical element with the symbol He and atomic number 2. It is a colorless, odorless, tasteless, non-toxic, inert, monatomic gas and the first in the noble gas group in the periodic table. ...
, and
oxygen Oxygen is the chemical element with the symbol O and atomic number 8. It is a member of the chalcogen group in the periodic table, a highly reactive nonmetal, and an oxidizing agent that readily forms oxides with most elements as wel ...
in the upper atmosphere, find the
deuterium Deuterium (or hydrogen-2, symbol or deuterium, also known as heavy hydrogen) is one of two Stable isotope ratio, stable isotopes of hydrogen (the other being Hydrogen atom, protium, or hydrogen-1). The atomic nucleus, nucleus of a deuterium ato ...
abundance in the atmosphere, make a high-altitude profile of the atmosphere, and find the neutral component of the interplanetary medium. ;LWR: the Long-Wave Radar was used by the GRUNT and PLASMA experiments. The GRUNT's objectives were to study the underlying surface of the martian cryolithospheres, the determination of the depth of occurrence of ice-bearing rocks and their geographic distribution, and the estimation of dielectric parameters of soil. The PLASMA's objectives were to study the global distribution of height profiles of electron number-density in the upper ionosphere to study the dynamics of the solar wind interaction with the
Atmosphere of Mars The atmosphere of Mars is the layer of gases surrounding Mars. It is primarily composed of carbon dioxide (95%), molecular nitrogen (2.8%), and argon (2%). It also contains trace levels of water vapor, oxygen, carbon monoxide, hydrogen, and no ...
. ;PHOTON (or FOTON): the Gamma-Spectrometer was to map the elemental composition of rocks with high spatial resolution and high accuracy and to determine the abundance of natural radioactive elements and basic rock forming elements. It was mounted to the PAIS platform. ;NEUTRON-S: the Neutron Spectrometer was designed to investigate the water content in the surface layers of
martian soil Martian soil is the fine regolith (a blanket of unconsolidated, loose, heterogeneous superficial deposits covering solid rock) found on the surface of Mars. Its properties can differ significantly from those of terrestrial soil, including its to ...
. ;MAK: the Quadruple Mass Spectrometer was designed to determine the composition of the upper atmosphere and
ionosphere The ionosphere () is the ionized part of the upper atmosphere of Earth, from about to above sea level, a region that includes the thermosphere and parts of the mesosphere and exosphere. The ionosphere is ionized by solar radiation. It plays an ...
, measure height profiles of the atmosphere ion and neutral composition, measure and update isotope ratios, and measure seasonal and diurnal variations of the atmosphere and ionosphere. ;ASPERA: the Energy-Mass Ion Spectrograph and Neutral-Particle Imager was designed to measure the interaction between the plasma and neutrals near Mars. ;FONEMA: the Fast Omnidirectional Non-Scanning Ion Energy-Mass Analyzer was designed to investigate the fine structure, dynamics, and origin of near martian plasma with measurements of 3D distribution functions of hot ions species with high time resolution. ;DYMIO: the Omnidirectional Ionospheric Mass Spectrometer was designed to investigate the dynamics of the ionosphere and its interaction with solar wind. ;MARIPROB: the Ionospheric Plasma Spectrometers were designed to measure the martian ionosphere and the cold plasma convection in the magnetosphere. ;MAREMF: the Electrostatic Analyzer and
Magnetometer A magnetometer is a device that measures magnetic field or magnetic dipole moment. Different types of magnetometers measure the direction, strength, or relative change of a magnetic field at a particular location. A compass is one such device, o ...
was to make measurements of the magnetic field vector and 3D distribution of electrons and ions in the plasma environment of Mars and in the solar wind. ;ELISMA: the Wave Complex was designed to measure solar wind interaction with the martian plasma environment, identification of instabilities in the ionosphere and magnetosphere, study waves of atmospheric origin generated by sand storms and lightning, global mapping of plasma convections, find the distribution of thermal plasma temperature and density to an altitude of 300 km, and monitor the dynamic relationship between the upper atmosphere and the lower ionosphere. ;SLED: the Low-Energy Charged Particle Spectrometer was designed to make detailed studies of energetic particle radiation in the martian environment and monitor low-energy cosmic rays during interplanetary cruise. ;PGS: the Precision Gamma Spectrometer was designed to measure gamma radiation from the surface of Mars, powerful solar flares, and gamma-bursts. ;LILAS-2: the Research of the Cosmic and Solar Gamma-Ray Bursts was to find localisation of the gamma-ray burst source with high precision, analyze the low energy absorption features in the spectra, and the study of the thermal radiation at the damping stage of the gamma-ray burst. ;EVRIS: the EVRIS Investigations of Oscillations in Stars instrument was designed to investigate the pulsation, rotation, and internal structure of stars and measure the photometric microvariabilities induced by those oscillations. It was mounted to the PAIS platform. ;SOYA: the Solar Oscillation Photometer was designed to study the Sun's internal structure. ;RADIUS-M: the Radiation/Dosimetery Control Complex was designed to study radiation during interplanetary cruise and near Mars, forecast the spacecraft's radiation dose, control dosimetery on board the spacecraft, study the propagation of charged particles in interplanetary space, and estimate the meteorite hazard to a spacecraft.


Surface station

Two surface stations, each having: ;MIS: the Meteorology Instrument System had a temperature sensor, a pressure sensor, a relative humidity sensor, an optical depth sensor (ODS) to compare the intensity of direct and scattered sunlight, and an ion anemometer used to detect ion current and atmosphere ionization. ;DPI: The Descent Phase Instrument had an accelerometer and a temperature sensor. ;ALPHA: the
Alpha particle X-ray spectrometer :''APXS is also an abbreviation for APache eXtenSion tool, an extension for Apache web servers.'' An alpha particle X-ray spectrometer (APXS) is a spectrometer that analyses the chemical element composition of a sample from scattered alpha part ...
was designed to measure the elemental composition of martian soils. ;OPTIMISM: the OPTIMISM contained a magnetometer, a seismometer, an inclinometer and an electronics unit. ;DesCam: the Descent Phase Camera was designed for imaging during parachute descent. ;PanCam: the Panoramic Camera was designed to take a television panorama of the landscape around the Surface Station. ;MOx: the Mars Oxidant Experiment was designed to study the presence of an oxidizing agent in the martian soil and atmosphere. ;MAPEx: plastic and silicon recorded radiation for the Microelectronics and Photonics Experiment. Placed on the compact disc label.


Penetrators

Two penetrators, each having: ;TVS television-camera: designed to take a panoramic image of the surrounding landscape and watch for possible activity (such as volcanic activity). ;MECOM METEO SET: designed to take in situ measurements of meteorological parameters of the surface. ;PEGAS GAMMA-spectrometer: designed to estimate the elemental composition of martian surface rocks. ;ANGSTREM X-RAY spectrometer: designed to estimate the elemental composition of subsurface rocks. ;ALPHA ALPHA-P spectrometer: designed to estimate the chemical composition of rocks. ;NEUTRON NEUTRON-P spectrometer: designed to measure the humidity and density of rocks. ;GRUNT accelerometer: designed to investigate mechanical characteristics by obtaining resistance force/time, velocity profile/time, and penetration profile and depth. ;TERMOZOND: designed to make a thermal and physical study of the surface layer of rocks. ;KAMERTON seismometer: designed to study the structure of the planet's crust. ;IMAP-6 magnetometer: designed to study Mars' intrinsic magnetic field and the magnetic properties of rocks.


Planned mission


Launch

The launch was to take place on 16 November 1996 on a Proton 8K82K/11S824F launch vehicle. This is a four-stage rocket in a configuration which had flown only twice before, both times to launch Phobos spacecraft towards Mars in 1988. The first three stages were to burn to fuel depletion. The fourth stage, called the Blok D-2, would then ignite to place it and the spacecraft into a
parking orbit A parking orbit is a temporary orbit used during the launch of a spacecraft. A launch vehicle boosts into the parking orbit, then coasts for a while, then fires again to enter the final desired trajectory. The alternative to a parking orbit is ''di ...
around the
Earth Earth is the third planet from the Sun and the only astronomical object known to harbor life. While large volumes of water can be found throughout the Solar System, only Earth sustains liquid surface water. About 71% of Earth's surfa ...
. Later it was to re-ignite to begin the trans-Mars injection maneuver. After the fourth stage shut-down, the spacecraft was to separate, deploy its antennae, and use its propulsion unit to complete the burn. After this was complete, the spacecraft was to deploy its solar panels and the PAIS science platform.


Interplanetary cruise

The cruise was to take about 10 months. Two course corrections were planned on the way. Astrophysical studies were also to take place during interplanetary cruise. Mars arrival was scheduled to take place on 12 September 1997.


Arrival

Four to five (preferably five) days before arrival, the spacecraft was to release both Surface Stations to land at two separate sites in the northern hemisphere. After release, the spacecraft would perform a deflection maneuver to change the orbiter's trajectory to a fly-by path in preparation for orbit insertion. At the appropriate moment, with the main engine of the propulsion unit facing the direction of flight, the spacecraft would make a burn to slow down and enter Mars orbit. Initial Mars orbit would have a
periapsis An apsis (; ) is the farthest or nearest point in the orbit of a planetary body about its primary (astronomy), primary body. For example, the apsides of the Earth are called the aphelion and perihelion. General description There are two ...
of 500 km, an
apoapsis An apsis (; ) is the farthest or nearest point in the orbit of a planetary body about its primary body. For example, the apsides of the Earth are called the aphelion and perihelion. General description There are two apsides in any ellip ...
of about 52,000 km, with an orbital period of 43.09 hours.


Surface Station landing

While the orbiter performed the orbit insertion burn, both Surface Stations were to make a soft landing on Mars. Both landing sequences were identical. They began with the craft being slowed down by aerodynamic pressure. At an altitude of 19.1 km, a parachute would deploy, followed by heat shield separation at 18.3 km, and inflation of the airbags at 17.9 km. When the lander, cushioned by the airbags, hit the ground, the parachute would separate. The airbag would eventually roll to a stop. After which both airbags would separate revealing the lander. The four petals would open and the lander would signal the orbiter when it passed over the landing site.


Mars orbit

The first task the orbiter would perform after achieving Mars orbit was to receive a signal from both Surface Stations to confirm landing. The window to land the Penetrators would be seven to twenty-eight days after Mars orbit insertion. The primary science phase of the orbiter could not begin until after both Penetrators were released and the propulsion unit was jettisoned.


Penetrator landing

The landing of each penetrator would be identical. It began with the spinning up of the penetrator for stability followed by separation from the orbiter. The penetrator would fire a
solid rocket motor A solid-propellant rocket or solid rocket is a rocket with a rocket engine that uses solid propellants (fuel/oxidizer). The earliest rockets were solid-fuel rockets powered by gunpowder; they were used in warfare by the Arabs, Chinese, Persians ...
which would begin to drop it from orbit. After 20–22 hours, the penetrator would encounter the martian atmosphere. It then deploys a braking device. When it impacts, the forebody separates and goes in deeper than the main body. It then performs a communications session with the orbiter to confirm landing.


Orbiter primary science phase

About a month after orbit insertion, after the penetrators have been released, the orbiter would jettison its propulsion unit. The propulsion unit would get in the way of the deployment of the LWR instrument and ARGUS platform and has to be jettisoned before the primary science phase can begin. The nominal mission of the orbiter would have lasted one Earth year. After the propulsion unit was jettisoned, the orbiter had a low power thrust system for orbit maintenance. During the nominal phase a fly-by of
Deimos Deimos, a Greek word for ''dread'', may refer to: * Deimos (deity), one of the sons of Ares and Aphrodite in Greek mythology * Deimos (moon), the smaller and outermost of Mars' two natural satellites * Elecnor Deimos, a Spanish aerospace company * ...
was possible, but a fly-by of Phobos was not possible until after the nominal mission. If an extended mission were approved, aerobraking over a period of two to three months would have reduced the orbital period to around nine hours.


Mission failure

The launch vehicle lifted off on 16 November 1996 at 20:48:53 UTC. The launch vehicle performed properly up to parking orbit. The planned second burn of the Blok D-2 fourth stage failed to take place. The spacecraft separated and then performed its engine burn automatically. Unfortunately, without the fourth stage burn, the spacecraft lowered its
perigee An apsis (; ) is the farthest or nearest point in the orbit of a planetary body about its primary body. For example, the apsides of the Earth are called the aphelion and perihelion. General description There are two apsides in any ellip ...
back into the Earth's atmosphere causing reentry. The fourth stage re-entered on a later orbit. There is disagreement between American and Russian sources on the timeline.


Conclusions

A review board could not determine whether the ''Mars 96'' crash was due to failure of the
Proton-K The Proton-K, also designated Proton 8K82K after its GRAU index or SL-12 after its model number, 8K82K, was a Russian, previously Soviet, carrier rocket derived from the earlier Proton. It was built by Khrunichev, and launched from sites 81 and ...
launch vehicle A launch vehicle or carrier rocket is a rocket designed to carry a payload (spacecraft or satellites) from the Earth's surface to outer space. Most launch vehicles operate from a launch pad, launch pads, supported by a missile launch contro ...
Blok D-2
upper stage A multistage rocket or step rocket is a launch vehicle that uses two or more rocket ''stages'', each of which contains its own engines and propellant. A ''tandem'' or ''serial'' stage is mounted on top of another stage; a ''parallel'' stage is ...
or a malfunction of the ''Mars 96'' spacecraft itself. The failure investigation board concluded that lack of telemetry data during critical parts of the mission prevented identification of the cause of the failure. The failure occurred at the second ignition of the Proton Blok D-2 upper stage, while the spacecraft was out of range of Russian ground stations. The ''Mars 96'' spacecraft carried 200 grams of
plutonium-238 Plutonium-238 (238Pu or Pu-238) is a fissile, radioactive isotope of plutonium that has a half-life of 87.7 years. Plutonium-238 is a very powerful alpha emitter; as alpha particles are easily blocked, this makes the plutonium-238 isotope suitab ...
in the form of small pellets. They were designed to withstand heat and impact and are thought to have survived re-entry. The Block D-2 stage carried no plutonium. The spacecraft is believed to have crashed somewhere in a 320 km long by 80 km wide oval running southwest to northeast and centered 32 km east of
Iquique, Chile Iquique () is a port city and commune in northern Chile, capital of both the Iquique Province and Tarapacá Region. It lies on the Pacific coast, west of the Pampa del Tamarugal, which is part of the Atacama Desert. It has a population of 191,46 ...
. No parts of the spacecraft or upper stage have been recovered.


Fate of the plutonium fuel

It was originally believed that the ''Mars 96'' assembly burnt up in the atmosphere and the debris fell into the
Pacific Ocean The Pacific Ocean is the largest and deepest of Earth's five oceanic divisions. It extends from the Arctic Ocean in the north to the Southern Ocean (or, depending on definition, to Antarctica) in the south, and is bounded by the continen ...
. However, in March 1997, the
United States Space Command United States Space Command (USSPACECOM or SPACECOM) is a unified combatant command of the United States Department of Defense, responsible for military operations in outer space, specifically all operations 100 kilometers (62 miles) and grea ...
admitted that it had miscalculated the satellite's path of re-entry. "We were aware of a number of eyewitness accounts of the re-entry event via the media several weeks after the re-entry occurred", wrote Major Stephen Boylan, Chief of the Media Division at the United States Space Command in
Colorado Springs, Colorado Colorado Springs is a home rule municipality in, and the county seat of, El Paso County, Colorado, United States. It is the largest city in El Paso County, with a population of 478,961 at the 2020 United States Census, a 15.02% increase since ...
. "Upon further analysis, we believe it is reasonable that the impact was in fact on land". ''Mars 96'' carried four assemblies designed to enter the martian atmosphere, two surface penetrators and two surface stations. These would almost certainly have survived entry into Earth's atmosphere. The two surface penetrators were designed to survive an impact with the ground. Despite this and the fact that the four assemblies carried a combined total of 200 grams of
plutonium-238 Plutonium-238 (238Pu or Pu-238) is a fissile, radioactive isotope of plutonium that has a half-life of 87.7 years. Plutonium-238 is a very powerful alpha emitter; as alpha particles are easily blocked, this makes the plutonium-238 isotope suitab ...
for fuel, the Russians have not mounted any recovery effort to date.


Missions based on Mars 96

A number of later missions, both planned and successful, are based on the technology of ''Mars 96'', for example ESA's
Mars Express ''Mars Express'' is a space exploration mission being conducted by the European Space Agency (ESA). The ''Mars Express'' mission is exploring the planet Mars, and is the first planetary mission attempted by the agency. "Express" originally ref ...
(launched in 2003),
NetLander In late 2007 (or 2009) CNES (the French Space Agency) and ESA (the European Space Agency) had planned to send a remote sensing orbiter and four small Netlanders to Mars. They planned to land them in four different locations. The CNES and ESA cancel ...
(cancelled) and its successor
MetNet Mars MetNet is a planned atmospheric science mission to Mars, initiated by the Finnish Meteorological Institute (FMI) and under development by Finland, Russia and Spain. By September 2013, two flight-capable entry, descent and landing systems (ED ...
(proposed for launches in 2016–2019), cancelled. Some of the equipment designs from Mars 96 were used for
MARS-500 The MARS-500 mission was a psychosocial isolation experiment conducted between 2007 and 2011 by Russia, the European Space Agency, and China, in preparation for an unspecified future crewed spaceflight to the planet Mars. The experiment's f ...
experiments.


See also

*
List of missions to Mars This is a list of the 50 spacecraft missions (including unsuccessful ones) relating to the planet Mars, such as orbiters and rovers. Missions ;Mission Type Legend: Mars landing locations There are a number of derelict orbiters around ...


References


External links


NASA Entry


{{Orbital launches in 1996 Missions to Mars Russian space probes Spacecraft launched in 1996 Satellite launch failures Impactor spacecraft