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The Terrestrial Planets Astronomy 311 Professor Lee Carkner Lecture 9
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Early Missions to the Inner Planets 1962 -- Mariner 2 Venus Fly-by 1964 -- Mariner 4 Mars Fly-by 1970 Venera 7 Venus lander 1973 Mariner 10 Venus/Mercury Fly-by 1975 Viking 1 and 2 Mars lander
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Planetary Probes Large number of missions from 1960-1978 Almost all planetary missions from the US or the USSR Future missions may be more multinational
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US and Soviet Planetary Missions Very large number of Soviet missions, most were failures Venus: Most notable success was the Venus Venera landers Mars: Smaller number of US missions, but higher success rate Mercury: Venus: Mars:
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Sources of Information for the Inner Planets Mercury: Mariner 10 -- Venus: Soviet Venera landers -- Magellan -- Mars: Viking, Pathfinder, Spirit, Opportunity -- Viking, Global Surveyor, Odyssey --
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Inner Planet Facts Mercury Diameter: 0.38 Mass: 0.06 Venus Diameter: 0.95 Mass: 0.82 Earth Diameter: 1 Mass: 1 Mars Diameter: 0.53 Mass: 0.11
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Determining Planetary Properties Mass Distance Diameter
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Determining Planetary Properties (cont.) Average Density Atmospheric composition
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The Planets That Weren’t There should have been 2 other inner planets The Moon Impactor The Asteroid Belt
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The Moon and the Earth
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The Moon
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First visited in 1959 by Luna 1 (USSR) Moon facts Diameter: 0.27 Mass: 0.01 Orbital Radius (from Earth): 0.003
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Moons of the Inner Planets Venus and Mercury have no moons Earth has one large moon Mars has two moons, Phobos and Deimos Inner planets may be too small to capture moons easily
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Asteroids Millions of small bodies orbit the Sun, most between Mars and Jupiter (the asteroid belt) Meteors Spacecraft
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Asteroid Facts Asteroids Diameter: <0.14 Mass: <0.02 Orbital Radius: 2.8 Most have orbits within the asteroid belt (~2-3.5 AU)
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The Asteroid Gaspra
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Sizes of the Inner Planets Sizes relative to Earth Earth: Venus: Mars: Mercury: Moon: Asteroid: All are small compared to the gas giants (Neptune is ~4 times the diameter of the Earth and ~64 times the volume)
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Composition All of the inner planets have about the same density (~5000 kg/m 3 ) What makes up the difference? “Rocky” planets could also be called the “metal” planets
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Composition (cont.) Earthquake studies indicate that the Earth has a iron core We believe that the other inner planets have a similar structure
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Interior Structure
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Atmospheres Asteroids, Moon, Mercury -- no atmosphere Mars Composition = 95 % CO 2, 3 % N (also water vapor, oxygen) Venus: Composition = 96 % CO 2, 4 % N (also sulfur compounds such as sulfuric acid, H 2 SO 4 )
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Atmospheres (cont.) Earth: Composition = 77 % N, 21 % O 2 (also water vapor, CO 2, trace elements) Why are the atmospheres of Venus, Mars and the Earth so different?
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The Carbonate-Silicate Cycle Water + CO 2 (rain) Ocean Carbonate + silicate (Sea floor rock) CO 2 Volcano Atmosphere Carbonate + water (stream) CO 2 + silicate (subvective melting)
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CO 2 and Greenhouse Effect Water washes CO 2 out of atmosphere where it is eventually deposited as rock CO 2 is a greenhouse gas
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Carbonate-Silicate Feedback Hot cools off Cool heats up
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CO 2 and the Inner Planets Venus: nearer the Sun so it is hotter no way to get CO 2 out of atmosphere Mars: no way to get CO 2 out of rocks Earth: Carbonate-silicate cycle
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Summary Inner or Terrestrial region 4 planets (Mercury, Venus, Earth, Mars) 1 large moon (The Moon) thousands of asteroids Information from 30 years of space missions Size Earth and Venus about the same Mars, Mercury, the Moon, 1/2 -1/4 size of the Earth Asteroids few km
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Summary (cont.) Composition silicate rock crust iron-silicate mantle iron core each planet has different proportions of each Atmosphere Mercury, Moon, asteroids -- none Venus -- no water means CO 2 is in atmosphere Mars -- no plate tectonics means CO 2 is in rocks Earth -- carbonate-silicate cycle balances greenhouse effect
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