Template:Short description Template:Distinguish {{#invoke:other uses|otheruses}} Template:Use mdy dates Template:Infobox spaceflight

Mars 1, also known as 1962 Beta Nu 1, Mars 2MV-4 and Sputnik 23, was an automatic interplanetary station launched in the direction of Mars on November 1, 1962,<ref name='Sputnik 23'>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref name='Mihos 2006'>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> the first of the Soviet Mars probe program, with the intent of flying by the planet at a distance of about Template:Convert. It was designed to image the surface and send back data on cosmic radiation, micrometeoroid impacts and Mars' magnetic field, radiation environment, atmospheric structure, and possible organic compounds.<ref name='Sputnik 23'/><ref name='Mihos 2006'/>

After leaving Earth orbit, the spacecraft and the Molniya booster's fourth stage separated and the solar panels were deployed. Early telemetry indicated that there was a leak in one of the gas valves in the orientation system so the spacecraft was transferred to gyroscopic stabilization. It made sixty-one radio transmissions, initially at two-day intervals and later at five days, containing a large amount of interplanetary data.<ref name="Sputnik 23" />

On March 21, 1963, when the spacecraft was at a distance of Template:Convert from Earth on its way to Mars, communications ceased, probably due to failure of the spacecraft's antenna orientation system.<ref name="Sputnik 23" /><ref name="Mihos 2006" /> Mars 1's closest approach to Mars probably occurred on June 19, 1963 at a distance of approximately Template:Convert, after which the spacecraft entered an orbit around the Sun.<ref name="Mihos 2006" />

Spacecraft designEdit

Mars 1 was a modified Venera-type spacecraft in the shape of a cylinder Template:Convert long and Template:Convert in diameter.<ref name='Sputnik 23'/><ref name='Mihos 2006'/> The spacecraft measured Template:Convert across with the solar panels and radiators deployed. The cylinder was divided into two compartments. The upper Template:Convert, the orbital module, contained guidance and on-board propulsion systems. The experiment module, containing the scientific instrumentation, comprised the bottom Template:Convert of the cylinder. A Template:Convert parabolic high gain antenna was used for communication, along with an omnidirectional antenna and a semi-directional antenna. Power was supplied by two solar panel wings with a total area of Template:Convert affixed to opposite sides of the spacecraft. Power was stored in a 42 ampere-hour cadmium-nickel battery.<ref name='Mihos 2006'/> Template:External media Mars 1 was equipped with three primary radio systems operating at wavelengths of 1.6 meters, 32 centimeters, and in the centimeter range (5 and 8 centimeters).<ref name="grahn-radiosystems">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> The 32-centimeter wavelength transmitter, situated in the orbital module,<ref name="nssdca-mars1">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> utilized a high-gain antenna, primarily transmitting on 922.76 MHz. It was supplemented by the 1.6-meter wavelength transmitter, linked with omnidirectional antennae on the solar panels, which operated on 183.6 MHz for downlink and likely near 102 MHz for uplink, serving both for telemetry and as a backup communication system in case of orientation system failure.<ref name="grahn-radiosystems" />

For detailed observations, the 8-centimeter wavelength transmitter in the experiment module was dedicated to transmitting television images, utilizing a signal coherent with the main 922.76 MHz link but at a higher frequency of 3691.04 MHz.<ref name="grahn-radiosystems" /> Additionally, an impulse transmitter operating in the 5-centimeter band (around 5840-5890 MHz range) was also housed in the experiment module.<ref name="nssdca-mars1" /> This system, characterized by impulse modulation, was designed to transmit image data at approximately 90 pixels/sec using pulse-position modulation, with an average power consumption of 50 watts and peak power of 25 kilowatts per pulse.<ref name="grahn-radiosystems" />

The Mars 1 station was initially programmed for automatic data transmission every two days, later adjusted to every five days post December 13. Ground commands could also trigger transmissions from the station as required.<ref name="nssdca-mars1" />

Temperature control was achieved using a binary gas–liquid system and hemispherical radiators mounted on the ends of the solar panels. The craft carried various scientific instruments including a magnetometer probe, television photographic equipment, a spectroreflexometer, radiation sensors (gas-discharge and scintillation counters), a spectrograph to study ozone absorption bands, and a micrometeoroid instrument.<ref name='Sputnik 23'/><ref name='Mihos 2006'/>

Scientific resultsEdit

  • The probe recorded one micrometeorite strike every two minutes at altitudes ranging from Template:Convert from Earth's surface due to the Taurids meteor shower, and also recorded similar densities at distances from Template:Convert from Earth.<ref name="Sputnik 23" /><ref name="Mihos 2006" />
  • Magnetic field intensities of 3–4 nanoteslas (nT, also known as gammas) with peaks as high as 6–9 nT were measured in interplanetary space.
  • The solar wind was detected.
  • The radiation zones around Earth were detected,<ref name="mars12mv">{{#invoke:citation/CS1|citation

|CitationClass=web }}</ref><ref name="bookmars">Template:Cite book</ref> and their magnitude confirmed.<ref name="Mihos 2006" />

DesignationEdit

This spacecraft is also referenced as Sputnik 23 and Mars 2MV-4. It was originally designated Sputnik 30 in the U.S. Naval Space Command Satellite Situation Summary.

Although it was called Mars 1, there were at least three other probes prior to this, that were failures: Mars 2MV-4 No.1, Mars 1M No.2, and Mars 1M No.1

See alsoEdit

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ReferencesEdit

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External linksEdit

Template:Mars programme Template:Orbital launches in 1962 Template:Mars spacecraft