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Interior structure, origin and evolution of the Moon

Key Features of the Moon: pages 176 - 192. Interior structure, origin and evolution of the Moon. Before and after Apollo. Prior to the Apollo Missions, some scientists believed the Moon formed in the early Solar System along with the other planets and had remained a primitive body.

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Interior structure, origin and evolution of the Moon

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  1. Key Features of the Moon: pages 176 - 192 Interior structure, origin and evolution of the Moon

  2. Before and after Apollo • Prior to the Apollo Missions, some scientists believed the Moon formed in the early Solar System along with the other planets and had remained a primitive body. • Because of Apollo, we have learned this is not correct. In fact, the lunar samples brought back by Apollo, and subsequent remote sensing missions, have taught us a great deal about the geologic history of the Moon.

  3. Implications for the origin and evolution of the Moon from Apollo missions? • Oldest Moon rocks are 4.3 billion years old • Depletion of volatiles (H2O, K, Na, Au, etc) • Enrichment of high temperature elements (Mg, Al, Si, Ca, Th, U, etc). • Similar oxygen isotopic ratio as the Earth. • Moon’s orbit lies neither in the equatorial plane of Earth or in the ecliptic plane.

  4. Moon quakes: Very few, and very low attenuation (i.e., they last for many tens of minutes).

  5. Moon quakes: Very low attenuation (i.e., they last for many tens of minutes).

  6. S-waves do not travel through “liquids”, hence, the Moon’s asthenosphere must be “plastic”.

  7. Moon quakes originate at the boundary between the rigid lithosphere and the plastic asthenosphere, and on the side of the Moon facing Earth.

  8. Differences: Near-side vs. Far-side • The Near side: • Has more mare: 32% of its surface is mare covered compared with 2% of the far side (globally mare cover 17%). • The Far side: • Large basins filled on near side, not filled on far side.

  9. Magma Ocean hypothesis • The Moon was molten after formation • As the molten rock cooled, it crystallized • Some crystals floated others sank

  10. Ages of basalts in the mare of the Apollo manned and Luna unmanned landing sites

  11. Impacts are the dominant surface process on the Moon • Crater flux has decreased with time • It would be hard to sustain life on Earth if flux was as high as during the early solar system. • Impact erode the lunar surface • Size range <1mm - >1,000km • Age data from the Apollo landing sites allow an estimate of the number of craters formed over time. • Scientist can then date surfaces by counting craters

  12. Gigantic impacts during the early history of the Moon caused formation of Multi Ring Basins

  13. Volcanic Features: Lava flows infill mare • Impacts of comets and asteroids form huge basins • 4.3-3.85 billion years ago • Shock waves create fractures in the rock beneath the basin • Mountain ranges form as a result of the blast • Interior heat from radioactivity caused partial melting • Magma rose along the fractures, filling the basin • 3.9 and 3.1 billion years ago and younger

  14. Lunar volcanoes Lava channels Domical hills

  15. Hypotheses of the origin of the Moon giant Impact

  16. Fission origin of the Moon, out of the Pacific Ocean (George Darwin)

  17. Giant impact hypothesis • A projectile about the size of Mars, struck the young, Earth in a catastrophic, glancing blow nearly 4.6 billion years ago. • Material was jettisoned outward, and some fraction of this mass remained in Earth orbit and formed the Moon. • The Moon may be mostly derived from the crust and mantle of the Earth and/or the impacting object. • The giant impact and quick accumulation of material resulted in a hot, molten Moon, which accounts for the relative lack of water and other volatile elements. • After the crust cooled, impacts into the Moon scarred the surface with numerous craters.

  18. Artist’s conception of the Giant Impact Hypothesis of the Moon

  19. Artist’s conception of the Giant Impact Hypothesis of the origin of the Moon.

  20. CRAY supercomputer simulation of the origin of the Moon by a collision of Earth with a Mars-sized projectile. Note: The Moon formed mostly from the silicate portions of the projectile and Earth’s mantle, whereas the metal core of the impactor merged with Earth’s metallic core. Hence, the Moon is depleted in metal and has a lower density than earth.

  21. Origin of the Moon: Which hypothesis is correct? A = v. good match; C = matches some data; F = doesn’t match

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