Collisions in the solar system Collisions have played a major part in both the formation and the evolution of the solar system Q: Can you give a number.

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Presentation transcript:

Collisions in the solar system Collisions have played a major part in both the formation and the evolution of the solar system Q: Can you give a number of pieces of evidence for collisions and impacts (a)In the early solar system? (b) Ongoing impacts?

Collisions early in solar system history The differing tilt of planetary rotation axes is best explained by a period of giant collisions

Evidence for early collisions: Craters and other features on Moon and Mercury (no tectonics to resurface)

Crater formation Shock reflection can form peak in center of crater Rocks can be crushed (breccia) or even melted if impact is energetic enough

The Moon’s composition Apollo astronauts brought back samples of Moon rocks. They are *very* similar to rocks found on the surface of the Earth Current theory is that the Moon was formed from debris left from a giant collision between a Mars- sized object and the Earth

Ongoing/recent collisions: Mass extinction (which included the dinosaurs) 65 million years ago could have been caused by the impact of an object about 10 km in diameter near the Yucatan peninsula

Steven Ward UCSC

North America 66 Million years ago Ron Blakey NAU

Yellow circles show estimated peak height in meters

Ongoing collisions: Arizona meteor crater: 1 km wide, 50,000 years old

More recent collisions: Tunguska, Siberia, 1908: (no crater) large cometary fragment thought to have exploded in atmosphere just above Earth’s surface

Energy released in impacts Sedan nuclear test (shallow underground test in Nevada 1962)