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How are they different? By the Lunar and Planetary Institute For use in teacher workshops Moon Formation / Processes.

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Presentation on theme: "How are they different? By the Lunar and Planetary Institute For use in teacher workshops Moon Formation / Processes."— Presentation transcript:

1 How are they different? By the Lunar and Planetary Institute For use in teacher workshops Moon Formation / Processes

2 Earth 7930 miles (12,756.3 km) diameter 23 degree axis tilt (seasons!) Surface temps –73 to 48 C (- 100 to 120F) Thick atmosphere, mild greenhouse effect Liquid water – lots! - at surface 2160 miles (3476 km) diameter 7 degree tilt (~no seasons) Surface temps - 107 C to – 153 C (224 F to –243 F) No atmosphere No liquid water … Ice at poles in shadows? Moon

3 EarthMoon No Magnetic Field Small Moon Quakes Small, Offset Core

4 Lunar Interior Structure Copyrighted, LPI

5 Earth’s Moon How did our Moon form? What’s been happening since?

6 A few data to ponder …. Lower density – “lighter” - relative to planets Less iron than whole Earth, more aluminum and titanium Moon’s chemical signature ~ Earth’s mantle

7 How Did the Moon Form? A few more data to ponder Does not orbit in equatorial plane of Earth, or ecliptic Earth/Moon - high angular momentum

8 Lunar Formation Models The moon is a sister world that formed in orbit around Earth as the Earth formed. The moon formed somewhere else in the solar system then was captured into orbit around Earth. Early Earth spun so fast that it spun off the moon.

9 Impact by Mars- sized proto-planet 4.5 billion years ago Explains: Chemistry Orbit High angular momentum

10 Copyrighted, LPI

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15 Lunar Geologic History

16 4.5 billion years ago, our Moon forms (lunar rocks and meteorites) Lunar Geologic History Copyrighted, LPI

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18 Magma Ocean Rocks 60025 Anorthosite 4.44-4.51 Ga 95% Plag Feld (anorthite) Magma Ocean! No Water! 76535 Troctolite 4.2-4.3 Ga

19 Highlands - light, rough (Terrae) Mostly anorthosite (plagioclase feldspars - lots of calcium and aluminum) “In place” rocks are 4.5 to 4.3 billion years old BIG Dark areas? Lunar Geologic History

20 Lunar Impact Basins Imbrium RimOrientale Basin Big, frequent impacts until 3.8 billion years ago Impact events continue on all moons and planets today

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22 Tycho Crater Young – 100 MY 85 kilometers across Fresh (rays) = young Rim Ejecta Central Peak Floor Wall Rays

23 Impacts …“the most fundamental process on the terrestrial planets…” Eugene and Carolyn Shoemaker

24 Breccias and Impact Melts 15445 Impact melt + clasts 67016 Polymict Breccia

25 Lunar Geologic History Mare Volcanism SW Mare Imbrium Mare Imbrium Volcanism after impacts – most before 3 Ga (to 1 Ga)

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27 Lunar Volcanism Aristarchus Plateau Marius Hills

28 Lava Tubes Apollo 17

29 Lunar Basalts 15555 15016 3.3 Ga

30 Lowlands – dark, smooth Maria (16%) Basalt – fine grained dark igneous rock rich in iron and magnesium (stuff that sank in magma ocean) Few hundred meters thick Rocks are 4.3 to 3.1 billion years old … volcanic flows as recently as 1 billion years ago!! Lunar Geologic History

31 And then …. All was quiet.

32 Except for impacts... 7 November; ~30 lb TNT 3 m-wide crater (estimate)

33 No Wind No Flowing Water No Erosion

34 Except for impacts...

35 How are they different in terms of geologic processes? And WHY?

36 Earth Active wind/water erosion Impacts Active volcanoes Earthquakes Active magnetic field Few craters Geologically Active! Moon NO Active wind/water erosion Impacts NO active volcanoes Small moonquakes NO active magnetic field Buckets of craters Geologically Inactive!

37 Earth Plate tectonics! Recycles! Moon NO plate tectonics

38 EarthMoon HOT! Not so hot! Why so different?

39 What’s Our Plan for Space? Fly the shuttle as safely as possible until 2010 Complete the ISS – 6-person crew by 2009 Align science, exploration, and aeronautics to support human space flight Bring the new Crew Exploration Vehicle – CEV - on line Establish a lunar program that informs future missions to Mars and other destinations

40 Why? Set up, for the first time, a full-fledged habitat on another world. Test advanced spacesuits and rovers. Try out methods for protecting explorers from deadly radiation. Learn to operate crucial life support and power needed on Mars. Gauge the effects of the absence of normal gravity on the body. New technology.

41 Return to the Moon Chandryaan – 2007! LRO – 2008 ! Identify Resources Map the Surface

42 Return to the Moon! 2012 – Develop and test technologies for resource utilization, communications, power 2014 – CEV, Ares launch vehicle

43 2018 – Humans for week-long stays Next: 45-day stays at outposts

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