Mars has a striking red appearance, and in its most favorable position for viewing, when it is opposite the sun, it is twice as bright as Sirius, the brightest star. Mars has a diameter of 4,200 mi (6,800 km), just over half the diameter of the earth, and its mass is only 11% of the earth's mass. The planet has a very thin atmosphere consisting mainly of carbon dioxide (95%) with some nitrogen, argon, oxygen, and other gases. Mars has an extreme day-to-night temperature range, resulting from its thin atmosphere, from about 80°F (27°C) at noon to about - 100°F ( - 73°C) at midnight; however, the high daytime temperatures are confined to less than 3 ft (1 m) above the surface.
Surface Features
A network of linelike markings first studied in detail (1877) by G. V. Schiaparelli was referred to by him as canali, the Italian word meaning "channels" or "grooves." Percival Lowell, then a leading authority on Mars, created a long-lasting controversy by accepting these "canals" to be the work of intelligent beings. Under the best viewing conditions, however, these features are seen to be smaller, unconnected features. The greater part of the surface area of Mars appears to be a vast desert, dull red or orange in color. This color may be due to various oxides in the surface composition, particularly those of iron. About one fourth to one third of the surface is composed of darker areas whose nature is still uncertain. Shortly after its perihelion Mars has planetwide dust storms that can obscure all its surface details.
Photographs sent back by the Mariner 4 space probe show the surface of Mars to be pitted with a number of large craters, much like the surface of Earth's moon. In 1971 the Mariner 9space probe discovered a huge canyon, Valles Marineris. Completely dwarfing the Grand Canyon in Arizona, this canyon stretches for 2,500 mi (4,000 km) and at some places is 125 mi (200 km) across and 2 mi (3 km) deep. Mars also has numerous enormous volcanoes-including Olympus Mons (c.370 mi/600 km in diameter and 16 mi/26 km tall), the largest in the solar system-and lava plains. In 1976 the Viking spacecraft landed on Mars and studied sites at Chryse and Utopia. They recorded a desert environment with a reddish surface and a reddish atmosphere. Experiments analyzed soil samples for evidence of microorganisms or other forms of life; none was found, but a reinterpretation (2010) of the results in light of data collected later suggests that organic compounds may have been present. In 1997, Mars Pathfinder landed on Mars and sent a small rover, Sojourner, to take soil samples and pictures. Among the data returned were more than 16,000 images from the lander and 550 images from the rover, as well as more than 15 chemical analyses of rocks and extensive data on winds and other weather factors. Mars Global Surveyor, which also reached Mars in 1997 and remained operational until 2006, returned images produced by its systematic mapping of the surface. The European Space Agency's Mars Express space probe went into orbit around Mars in late 2003 and sent the Beagle 2 lander to the surface, but contact was not established with the lander. In addition to studying Mars itself, the orbiter has also studied Mars's moons. The American rovers Spirit and Opportunity landed successfully in early 2004 and have explored the Martian landscape ( Spirit's last transmission was in 2010). In 2008 NASA's Phoenix lander touched down in the planet's north polar region; it conducted studies for five months.
Analysis of the satellite data indicates that Mars appears to lack active http://wiki.answers.com/ce6/sci/A0839323.htmlat present; there is no evidence of recent lateral motion of the surface. With no plate motion, hot spots under the crust stay in a fixed position relative to the surface; this, along with the lower surface gravity, may be the explanation for the giant volcanoes. However, there is no evidence of current volcanic activity.
There is evidence of erosion caused by floods and small river systems as well as evidence of ancient lakebeds. The possible identification of rounded pebbles and cobbles on the ground, and sockets and pebbles in some rocks, suggests conglomerates that formed in running water during a warmer past some 2-4 billion years ago, when liquid water was stable and there was water on the surface, possibly even large lakes or oceans. Rovers have identified minerals that only form in the presence of liquid water. There is also evidence of flooding that occurred less than several million years ago, most likely as the result of the release of water from aquifers deep underground or the melting of ice. However, other evidence suggests that the water would have been extremely salty and acidic. Data received beginning in 2002 from the Mars Odyssey space probe suggests that there is water in sand dunes found in the northern hemisphere, and the Mars Reconnaissance Orbiter, which went into orbit around the planet in 2006, collected radar data that indicates the presence of large subsurface ice deposits in the mid-northern latitudes of Mars. Most of the known water on Mars, however, lies in a frozen layer under the planet's large polar ice caps, which themselves consist of water ice and dry ice (frozen carbon dioxide); the lander Phoenix found and observed frozen water beneath the soil surface in the north polar region in 2008.
the distinctive characteristics of planet mars is
--->Mars is the red planet
--->the surface of Mars is covered by snow caps
--->Mars has rocks and soil,mountains,valleys as well as volcanoes
Mars has approximately half the radius of Earth. It is less dense than Earth, having about 15% of Earth's volume and 11% of the mass. Its surface area is only slightly less than the total area of Earth's dry land.[5] While Mars is larger and more massive than Mercury, Mercury has a higher density. This results in a slightly stronger gravitational force at Mercury's surface. Mars is also roughly intermediate in size, mass, and surface gravity between Earth and Earth's Moon (the Moon is about half the diameter of Mars, whereas Earth is twice; the Earth is about ten times more massive than Mars, and the Moon ten times less massive). The red-orange appearance of the Martian surface is caused by iron(III) oxide, more commonly known as hematite, or rust. (Wikipedia)
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Below are a list of major characteristics of Mars:
• is an inner terrestrial planet in our Solar System
• soil looks red because of iron minerals in the soil that has rusted
• has a thin atmosphere (relative to the Earth) composed over 95% of carbon dioxide
• has many craters
• has 2 natural satellites; Phobos and Deimos
• has many volcanoes, including Olympus Mons, the largest volcano in our Solar System.
• 2nd smallest planet (excluding Pluto)
• has frequent dust storms
• has gravity 38% that of the Earth
• has water in the form of ice
-Mars is the red planet.
-The surface of mars is covered by snowcaps
Mars has two moons and no Earth-like atmosphere.
Mercury, Venus, Earth, and Mars
yes all planets have different characteristics like when your on mars and your 100 pounds on earth so you ll be 33 pounds on mars
They are both inner planets,have moons,and have an atmosphere
Life on Mars would have to have the ability to deal with a harsher environment. They would have to be able to handle an atmosphere that has more carbon dioxide than Earth as well as much colder temperatures.
Mars has constantly been visited by spacecrafts. The first spacecraft to visit Mars was the Mariner 4. After that Mars has been visited by numerous spacecrafts like: Mars Pathfinder, Mars Global Surveyor, Mars Odyssey, Mars Express and the Mars 2 which was the first spacecraft to land on Mars.
mars does not have a ring or any other special characteristics
Get poulos ;)
its a red planet
mars is rocky, red , dry, and mostly covered with iron rich dust.
No. While there are strong storms on Mars, some of which are cyclonic, none of them have the right characteristics to be called hurricanes.
Mercury, Venus, Earth, and Mars
For Mars to sustain life, it would have to have some of the major characteristics that Earth has. Since it doesn't, it can not sustai life.
Venus actually has more earthly characteristics than Mars does. It would be more likely (even though it is unlikely) for Venus to be a second earth than it would be for Mars.
They both have organism that can produce oxygen, and water And, life like organisms were found on mars a few years back
yes all planets have different characteristics like when your on mars and your 100 pounds on earth so you ll be 33 pounds on mars
They are both inner planets,have moons,and have an atmosphere
Life on Mars would have to have the ability to deal with a harsher environment. They would have to be able to handle an atmosphere that has more carbon dioxide than Earth as well as much colder temperatures.