The End of the World...

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The End of the World... as we know it. Impacts in the Inner Solar System Collisions have played a key role in the past formation of planets by accretion fragmentation (formation of the Moon) sustained planetary melting global surface structures atmospheric composition (?) Collisions have play a key role in the present continued modification of planetary surfaces meteor storms large and small extinction events Collisions will play a key role in the future the threat of future mass extinctions on Earth 2 The 1992 Peekskill Fireball / Meteorite Fall October 1992 The 2013 Chelyabinsk Meteorite Impact February 15, 2013-500 kton TNT equivalent Astro 120 Fall 2013, Lecture 22 page 4 Not an Exact Science Show

The 2013 Chelyabinsk Meteorite Impact February 15, 2013-500 kton TNT equivalent Astro 120 Fall 2013, Lecture 22 page 5 Cratering rates then and now Bottke et al., Nature, 25 April 2012 Lunar Results now nearly steady recent impacts Tycho: 100 My ago Copernicus: 600 My ago high rate in past (4 Gy ago) 6 further evidence - spherules Johnson et al., Nature, 25 April 2012 Earth-Crossing Asteroids ~ 8700 objects whose orbits cross 1 a.u. Aten asteroids: Apollo asteroids perihelion inside 1 a.u. aphelion beyond 1 a.u. nearly circular orbits about 100 known very elliptical orbits perihelion well inside 1 a.u. aphelion well beyond 1 a.u. all < 8km across 3753 Cruithne 8

2002 NY40 August 2002 Fick Observatory Duration: 90 seconds http://www.minorplanetcenter.net/iau/animations/animations.html Current Impacts: Energetics unit we ll use = 1 Megaton (Mton) = 1,000,000 tons of TNT = 54 x Hiroshima A-bomb 12 2005 YU55 1/4 mile diameter 1.5 million miles distant 29 April 2010 http://www.jpl.nasa.gov/news/news.cfm?release=2010-144 impactor size Energy (Mton) Crater size 20 m 5 0.2 km 100 m 100 1.0 km 1 km 10,000 10 km 10km 10,000,000 100 km

Okay, but how often on Earth? Recent Examples: Meteor Crater (Arizona) 50,000 yr ago impact energy = 200 Mton 1.3 km diameter impact crater environmental impact uncertain Tunguska (Siberia) 1908 comet (?) impact energy = 15 Mton total devastation over 1000 square km Comet SL-9 and Jupiter - July 1994 comet impact energy = 100,000 Mton several dark markings lasting many years would form a 7km crater on Earth would have been mistaken for nuclear blast today 14

Manson, Iowa subsurface impact crater

The K-T Impact > Death to all Dinosaurs? Global iridium layer at K-T boundary (65 Myr ago): iridium is extraterrestrial global layer ~ 2 cm thick parent body size > 13 km (taller than the atmosphere) crater diameter > 130 km impact energy > ~ 108 Mton Results of this impact: A global Nuclear Winter lasting years major disruption of climate major disruption of food chain large scale extinctions (90% of all species extinct) 22 Size of body The Impact Hazard Scale How often? once every Energy (Mton) Crater size 20 m 50 yr 5 0.2 km 100 m 1000 yr 100 1 km 1 km 100,000 yr 10,000 10 km 10 km 10 100,000,000 100 km 30 km 10 3x10 300 km Consequences local devastation other severe local effects similar to Tunguska damage to ozone layer local incineration local devastation other severe local effects societal chaos...if populated area suspended dust for months lower global temperature agricultural failure ocean hit? Tsunami mass starvation comparable to S-L 9 on Jupiter suspended dust for years total darkness for a year massive die-off of vegetation mass extinction i.e. K-T dinosaur extinction geologically significant impact relax; not likely any more

Tidal evolution of the earth-moon system 25 future solar evolution 26 moon slows Earth rotation 4 Gyr ago - 1 d = 6 hours moon s orbit grows Day length = month in 4x10 9 y day, month = 49 (current) days day is lengthening by 0.09s / century month is lengthening by 0.038 s / century L increase by factor of 2 H exhaustion Red Giant (R ~ Venus orbit) mass loss - planets move away He core burning AGB -> PN -> WD 1010 yr - crystalline white dwarf consequences for the Earth continued solar brightening The wet greenhouse -> global warming v. 2.0 warm greenhouse (hot-house) water vapor saturated atmosphere upper atmosphere photolysis H2O > H + OH > H escapes, O binds with C and others permanent loss of water dry greenhouse (approx. 3 billion years from now) CO2 and other gasses Red Giant phase surface melting... Venus-like climate - surface temperature in excess of 800F did this happen to Venus in the past? continued surface warming - atmosphere loss 27 the rest of the Universe 3 billion years (Gyr) from now: Andromeda - Milky Way collision 175 Gyr Z=0.7 or so (no more free hydrogen for star formation) 10,000 Gyr lowest mass stars (0.1 Mo) become white dwarfs heat death for the Universe 10 57 Gyr: proton decay - dissolution of stellar remnants evaporation of lowest-mass black holes (1 solar mass) Volume of Universe is (1056 ) 3 times bigger (or more with acceleration) single, isolated galaxies with no interactions (any) light from distant galaxies is invisible 28

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