Seasons on MarsMars' rotational axis is inclined 25° 11' with respect to the axis of its orbit compared to 23° 27' for the Earth. So the influences which cause Earth's seasons are comparable to those on Mars. But Mars has the additional influence of an orbit eccentricity that is over five times as large as that of the Earth. This moves the planet significantly further from the sun during summer at the south pole - so the south pole is colder than the north pole. The main visible change in the appearance of Mars is the cycling of the polar caps. |
Index Mars Concepts Solar System Illustration Solar System Concepts Reference Fraknoi, Morrison, Wolff Ch 9 | ||
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Mars' Polar Caps
Mars has bright polar caps which make dramatic changes with the seasons. In the winter season for a pole, the cap becomes much larger as carbon dioxide freezes on the surface (dry ice). This happens when the temperature drops to about 150K. The cap gradually increases in size, extending down to about latitude 50° by the beginning of spring. During the Martian summer, the caps recede but never completely disappear. The permanent cap at the Martian north pole is formed not of dry ice, but of ordinary water ice. The residual north polar cap has been measured to be about 1000 km in diameter. Measurements from Global Surveyor indicate a thickness of about 3 km for this ice cap. The south polar cap is quite different: it is about 350 km in size and thicker than the north cap. It is formed of dry ice with an unknown thickness of water ice. For the south cap, the temperature never gets above 150K, so the dry ice survives the "summer". The caps are different because of the eccentricity of the Martian orbit. Its eccentricity is over five times that of the Earth, and larger than all planets except Mercury and Pluto. This results in the planet being significantly further from the sun during summer at the south pole. |
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Atmosphere of MarsThe thin atmosphere of Mars produces an average surface pressure of only 0.007 bar or about 5 mmHg, less than 1% of Earth's atmospheric pressure. This pressure would correspond to that about 30 km above the Earth's surface. The Martian atmosphere is primarily carbon dioxide (95%) with smaller amounts of nitrogen(2%) and argon(2%). These proportions are similar to the atmosphere of Venus.
Two types of clouds form in Mars' atmosphere: water ice clouds and high altitude dry ice clouds. The water ice clouds often form around mountains. Examples of this type of cloud were imaged by the Viking orbiters around Olympus Mons. The CO2 clouds are in the form of thin hazes at temperatures around 150K. In addition to the clouds, there are sometimes spectacular dust storms which cover a large fraction of the planetary surface. |
Index Mars Concepts Solar System Illustration Solar System Concepts Reference Fraknoi, Morrison, Wolff Ch 9 | ||
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Dust Storms on MarsEven though the atmosphere of Mars is very thin, less than 1% of Earth's atmospheric pressure at the surface, it has been observed to produce spectacular dust storms. These dust storms are sometimes almost global in extent. When the Mariner 9 spacecraft arrived into martian orbit on November 13, 1971, it discovered an enormous dust storm which completely obscured the surface for weeks. |
Index Mars Concepts Solar System Illustration Solar System Concepts Reference Fraknoi, Morrison, Wolff Ch 9 | ||
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Magnetic Field of MarsMars has no detectable global magnetic field, indicating that it has no internal dynamo like the Earth. Mars has a diameter of just over half that of the Earth. It has a density of 3.9 g/cm3 compared to 5.5g/cm3 for the Earth. This suggests that its composition is mostly silicates, but the density is high enough to suggest a small metallic core. With a rotation period similar to the Earth, 24 hours and 37 minutes, it would be expected to have some magnetic field if the metalic core were liquid, providing a rotating conductor. |
Index Mars Concepts Solar System Illustration Solar System Concepts Reference Fraknoi, Morrison, Wolff Ch 9 | ||
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