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Honors 228: Astrobiology using Bennett et al. Chapter 11 overview Spring 2005 Prof. Geller.

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Presentation on theme: "Honors 228: Astrobiology using Bennett et al. Chapter 11 overview Spring 2005 Prof. Geller."— Presentation transcript:

1 Honors 228: Astrobiology using Bennett et al. Chapter 11 overview Spring 2005 Prof. Geller

2 What’s talked about zWhat is SETI searching for? yThe Drake Equation zThe question of intelligence yEvolution, intelligence and communication zThe SETI context yExperiments, signals and searches zSETI today yRadio, optical and other SETI zConsiderations of a SETI success yIf found, then what?

3 It’s a Big Galaxy in a Big Universe

4 Extrasolar Capability Review

5 Extrasolar Planets

6 What are the odds? zDrake Equation yOdds of planets yOdds of Earth-like planet yOdds of life yOdds of civilization yLongevity of civilization

7 The Drake Equation zf i = fraction of those life-bearing planets on which intelligence evolves zf t = fraction of those intelligent-life planets that develop technological society zL = average lifetime of a technologically competent civilization. N = R f p n p f l f i f t L

8 The Rate of Star Formation We can estimate the average number of stars forming each year in the Galaxy simply by noting that at least 100 billion stars now shine in the Milky Way. Dividing this number by the 10-billion-year lifetime of the Galaxy, we obtain a formation rate of 10 stars per year. This may be an overestimate because we think that fewer stars are forming now than formed at earlier epochs of the Galaxy, when more interstellar gas was available. However, we do know that stars are forming today, and our estimate does not include stars that formed in the past and have since exploded, so our value of 10 stars per year is probably reasonable when averaged over the lifetime of the Milky Way. HST has provided us with a value of 20 stars per year.

9 Fraction of Stars with Planets zAccepting the condensation theory and its consequences, and without being either too conservative or naively optimistic, we assign a value near 1 to this term - that is, we believe that essentially all stars have planetary systems. zA caveat: Note that extrasolar planets have very different characteristics than the planets of the Solar System.

10 The Number of Habitable Planets Per Star zEstimate 1 planet in 10 would be a habitable planet zEliminate planets around the short lived stars zMost likely candidates are stars somewhat similar to the Sun (F,G,K) yLong lived; fairly large habitable zone zThis means (combining probabilities) the number of habitable planets per star is between 0.1 and 0.01

11 Fraction on which Life arises zIf we accept the mediocrity principle then this fraction is 1. zIt could be as low as 0 if one believes life is rare.

12 Intelligent Life zOne school of thought maintains that, given enough time, intelligence is inevitable. In this view, assuming that natural selection is a universal phenomenon, at least one organism on a planet will always rise to the level of "intelligent life." If this is correct, then the fifth term in the Drake equation equals or nearly equals 1. zOthers argue that there is only one known case of intelligence, and that case is life on Earth. For 2.5 billion years ̶ from the start of life about 3.5 billion years ago to the first from the start of life about 3.5 billion years ago to the first appearance of multicellular organisms about 1 billion years ago ̶ life did not advance beyond the one-celled stage. This would mean the fraction is close to 0.

13 Technology zThe anthropomorphic view: if we do it every one else will so the fraction is 1. zThe view of the dolphins: show me the fish. The fraction is close to 0.

14 Lifetime of Civilizations zGuess yWe blow ourselves up: 75 years yWe do not blow ourselves up ̶ your guess is as good as mine x> 100 years or > 100000 years ?

15 Putting in the Numbers zUnless one is pessimistic the fractions are all of order 1 so we get zN = 1 * Lifetime zSo we get 10's to 1000's of civilizations zBut now consider the distances between the civilizations!!!

16 Looking for Life zArtifacts yaliens here? zProbes yViking, Voyager, Pioneer zSignals yradio yoptical yother

17 What is intelligent life? zHow do you measure intelligence? yIQ? yEQ? zAre humans only intelligent species on Earth? yGreat apes and chimpanzees xdo they have a sense of “I”

18 Cosmic Evolution ?

19 Where look? The Water Hole

20 Past Searches

21

22 How Far Can We Go?

23 One Form of Communication

24 Another Form of Communication

25 Is this really how it’s done?

26 One Way It’s Done

27 Arecibo Message

28 What does it mean

29 Decoded Arecibo Message

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