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The Origin and possible existence of Life in the Universe

The Origin and possible existence of Life in the Universe. Poll Question:. Do you think there is life  even just primitive forms of life  on other worlds?. Do you think there is intelligent life on other worlds?. The Electromagnetic Spectrum.

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The Origin and possible existence of Life in the Universe

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  1. The Origin and possible existence of Life in the Universe

  2. Poll Question: Do you think there is life  even just primitive forms of life  on other worlds?

  3. Do you think there is intelligent life on other worlds?

  4. The Electromagnetic Spectrum

  5. Use a stamp “X” to select the most abundant element in the universe.

  6. Axis of rotation Approx. 1 light year Axis of rotation Rotation retards collapse in this direction Gravity makes cloud shrink. As it shrinks it spins caster and flattens into a disk with central bulge. Slowly spinning interstellar cloud Approx. 100 AU

  7. Where did we come from? Are we alone? Big Questions in Science Questions about origins: Other astrobiology questions: How did life on Earth form? Should we expect life on many other worlds? Is life on other worlds like life on Earth? How can we detect life elsewhere?

  8. Poll Question: What chemical elements were created by the Big Bang?

  9. The Life Cycle of Stars…

  10. CH4 H2 H2O NH3

  11. Put a stamp on the most abundant element in life on Earth.

  12. H He O C N The Most Abundant Chemical Elements  in the Universe and in Life In the Universe In Life • H • O • C • N

  13. Life on Earth is carbon-based. Life on Earth requires liquid water The amino acids in life are easily formed. A few facts about Life on Earth

  14. First find planets. One way uses the Doppler Effect. Finding Life

  15. Another way to find planets is to look for transits.

  16. Kepler Terrestrial Planet Finder

  17. Seasonal changes Unusual abundances of gases Gases produced by life Unusual patterns of electromagnetic radiation (e.g., radio or TV broadcasts, the nighttime glow of cities) Signs of Life (not yet possible to detect with current technology)

  18. 3 billion years old on the earth. Will we find them on Mars or elsewhere? Bacterial fossils

  19. Life elsewhere could be similar to any of These stages, or entirely different. Records of Life on Earth

  20. We can study these in detail to get DNA, etc. Current Life Forms

  21. Some of these were produced in the lab by Harold Urey out of primeval gases like methane, ammonia, carbon dioxide--by zapping them with electricity (lightning). (1950s) Amino Acids: building blocks of life.

  22. Nobody has produced this artificially or even hopes to. Too complicated. 50,000 genes. However, the total makeup Of a human being requires More information. Human DNA

  23. N=no. of civilizations. R=radius of spherical galaxy r = average separation. 4 pi (r/2)2 N = 4 pi R3/3 implies r = 2R/N1/3. The distance between civilizations in the Milky Way

  24. The Drake Equation

  25. N = N* fp ne fl fi fc fL N* represents the number of stars in the Milky Way Galaxy Question: How many stars are in the Milky Way Galaxy? Answer: Current estimates are 100 billion. fp is the fraction of stars that have planets around them Question: What percentage of stars have planetary systems? Answer: Current estimates range from 20% to 50%. ne is the number of planets per star that are capable of sustaining life Question: For each star that does have a planetary system, how many planets are capable of sustaining life? Answer: Current estimates range from 1 to 5. The Drake Equation

  26. N = N* fp ne fl fi fc fL fl is the fraction of planets in ne where life evolves Question: On what percentage of the planets that are capable of sustaining life does life actually evolve? Answer: Current estimates range from 100% (where life can evolve it will) down to close to 0%. fi is the fraction of fl where intelligent life evolves Question: On the planets where life does evolve, what percentage evolves intelligent life? Answer: Estimates range from 100% (intelligence is such a survival advantage that it will certainly evolve) down to near 0%. fc is the fraction of fi that communicate Question: What percentage of intelligent races have the means and the desire to communicate? Answer: 10% to 20% The Drake Eqn. continued

  27. N = N* fp ne fl fi fc fL fL is fraction of the planet's life during which the communicating civilizations live Question: For each civilization that does communicate, for what fraction of the planet's life does the civilization survive? Answer: This is the toughest of the questions. If we take Earth as an example, the expected lifetime of our Sun and the Earth is roughly 10 billion years. So far we've been communicating with radio waves for less than 100 years. How long will our civilization survive? Will we destroy ourselves in a few years like some predict or will we overcome our problems and survive for millennia? If we were destroyed tomorrow the answer to this question would be 1/100,000,000th. If we survive for 10,000 years the answer will be 1/1,000,000th. N, the number of communicating civilizations in the galaxy. The Drake Eqn. continued

  28. Over 30 messages suspiciously intelligent. They are using home computers to scan for messages. SETI—Search for Extraterrestrial Intelligence

  29. Mars had ( and has) water.Does it have current life?

  30. We have learned an enormous amount about the origins of stars and planets. We are just starting to learn about life in the universe. These explorations require a team effort involving scientists from many disciplines. There is still much more to explore. Students will be able to make discoveries and help us learn even more! Summary

  31. NASA’s Navigator Missions: http://planetquest.jpl.nasa.gov/ Origins Education Forum: http://origins.stsci.edu/

  32. Poll Question: Do you think there is life  even just primitive forms of life  on other worlds?

  33. Do you think there is intelligent life on other worlds?

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