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Class 3 : Craters in the solar system. Recap last class… Patterns in the solar system. Theory for solar system formation. How do we test this theory? Variety of surfaces in the solar system Classifying surfaces. The processes at work.

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Page 1: Class 3 : Craters in the solar system. Recap last class… Patterns in the solar system. Theory for solar system formation. How do we test this theory? Variety

Class 3 : Craters in the solar system.

Recap last class… Patterns in the solar system. Theory for solar system formation. How do we test this theory?

Variety of surfaces in the solar system Classifying surfaces. The processes at work.

Page 2: Class 3 : Craters in the solar system. Recap last class… Patterns in the solar system. Theory for solar system formation. How do we test this theory? Variety

I : Classification of surfaces

Can classify surfaces in the Solar System into the following groups: Heavily cratered. Mildly cratered. Blotchy/linear features. Shrouded by an atmosphere.

Processes that are relevant: Impacts by asteroids, comets etc. Volcanic activity. Atmospheric erosion.

Let’s look at this in some more detail.

Page 3: Class 3 : Craters in the solar system. Recap last class… Patterns in the solar system. Theory for solar system formation. How do we test this theory? Variety

II : Heavily cratered bodies

Far side of The Moon

Page 4: Class 3 : Craters in the solar system. Recap last class… Patterns in the solar system. Theory for solar system formation. How do we test this theory? Variety

Two kinds of terrain: highlands and maria

Page 5: Class 3 : Craters in the solar system. Recap last class… Patterns in the solar system. Theory for solar system formation. How do we test this theory? Variety
Page 6: Class 3 : Craters in the solar system. Recap last class… Patterns in the solar system. Theory for solar system formation. How do we test this theory? Variety

The Moon & Mercury

Very little or no atmosphere… All incoming meteors hit the surface

(different from Earth where small objects burn or break up).

Once made, craters stay (any erosion processes happen very very slowly).

Located in the inner solar system More rocky (outer moons are icy), so craters

survive longer. More debris to cause craters.

Page 7: Class 3 : Craters in the solar system. Recap last class… Patterns in the solar system. Theory for solar system formation. How do we test this theory? Variety

Lunar Terrain

Highlands Several kilometers higher. Heavily cratered. 4 – 4.4 billion years old. Aluminum rich rock (light colored).

Maria (“seas”) Younger (3.2 – 3.9 billion years old). Iron rich rock (dark color). Old Lava flows (like Hawaii on Earth today).

Page 8: Class 3 : Craters in the solar system. Recap last class… Patterns in the solar system. Theory for solar system formation. How do we test this theory? Variety
Page 9: Class 3 : Craters in the solar system. Recap last class… Patterns in the solar system. Theory for solar system formation. How do we test this theory? Variety

Another sign of lava flows… lunar rilles are believed to be remains of old lava flows.

Page 10: Class 3 : Craters in the solar system. Recap last class… Patterns in the solar system. Theory for solar system formation. How do we test this theory? Variety
Page 11: Class 3 : Craters in the solar system. Recap last class… Patterns in the solar system. Theory for solar system formation. How do we test this theory? Variety

III : Volcanism in the solar system

Io – the most active volcanic region in the Solar System

Page 12: Class 3 : Craters in the solar system. Recap last class… Patterns in the solar system. Theory for solar system formation. How do we test this theory? Variety

Examples…

Io Very smooth surface – no craters or rilles. Thought to be a very young surface – lava

has filled all craters and valleys. Strong stretching/pulling by Jupiter heats

interior and causes volcanic activity. Mars

Possesses some giant dead volcanoes (e.g. Olympus Mons… 27km high, 600km wide).

Example of a crater not caused by impacts.

Page 13: Class 3 : Craters in the solar system. Recap last class… Patterns in the solar system. Theory for solar system formation. How do we test this theory? Variety
Page 14: Class 3 : Craters in the solar system. Recap last class… Patterns in the solar system. Theory for solar system formation. How do we test this theory? Variety

IV : The outer moons – ice geology at work.

Europa

Page 15: Class 3 : Craters in the solar system. Recap last class… Patterns in the solar system. Theory for solar system formation. How do we test this theory? Variety

Surface ice sheet occasionally seems to break and float around on an underlying liquid water ocean


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