Travel with NASA from the biggest to the smallest distance of the universe.
This is a journey which starts and ends in distances difficult for the human mind to capture . It starts from 10 million l...
10 million light years (10 23 m) the distance to galaxy Milky-Way
1 million light years (10 22 m) The disc becomes visible.
100.000 light years (10 21 m) You can barely see our galaxy.
10.000  light years (10 20 m) You start to see the stars of our galaxy.
1.000 light years (10 19 m) The stars ten times closer.
100 light years (10 18 m) Nothing but stars.
10 light years (10 17 m) Even more stars.
1 light year (10 16 m) With a little attention you can see the sun.
1 trillion Km (10 15 m) The sun even bigger.
100 billion Km (10 14 m) Our solar system starts to show. (The orbits of the planets have been painted)
10 billion Km (10 13 m) Our solar system.
1 billion Km (10 12 m) The orbits of Hermes, Venus, Earth, Mars and Zeus.
100 million Km (10 11 m) The orbits of Venus, Earth and Mars.
10 million Km (10 10 m) Part of the orbit of Earth.
1 million Km (10 9 m) You can see the orbit of Moon.
100.000 Km (10 8 m)  Our Earth still small.
10.000 Km(10 7 m) The northern hemisphere of Earth.
1.000 Km (10 6 m) Florida USA.
100 Km (10 5 m) From the surface of the sea. Florida even closer.
10 Km (10 4 m) You start to distinct places.
1 Km (10 3 m) What you can see when free falling off a plane.
100 m (10 2 m) An ordinary view from an helicopter.
10 m (10 1 m) Seeing off a cliff.
1 m (10 0 m) What you see when you reach out your arms...
10 cm (10 -1 m) You can catch the leaves.
1 cm (10 -2 m) You can see the structure of a leaf.
1  mm (10 -3 m) Even closer.
100 micron (10 -4 m)  you can see the cells.
10 micron (10 -5 m)  The cells look clearer.
1 micron (10 -6 m).  The cell itself.
1.000 angstrom (10 -7 m) You can see the chromosomes.
100 angstrom (10 -8 m) You can see the DNA chain.
1 nanometre (10 -9 m) The chromosomes parties.
1 angstrom  (10 -10 m) The atom of carbon. Life consists of it...
10 Pico metre (10 -11 m) The electron within the atom.
1 Pico metre (10 -12 m) The orbit of electrons.
100 Fermi (10 -13 m) The inner of an atom.
10 Fermi (10 -14 m) Closer.
1 Fermi  (10 -15 m) The surface of a neutron.
100 atom metre (10 -16 m) we can see the quark. End of trip!
<ul><li>After this journey ask yourself: </li></ul><ul><li>Can you say whether you are big or small? </li></ul>
Think for a minute  NATIONAL  NASA  (USA)
 
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Worlds Tour - Travel with NASA

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Worlds Tour - Travel with NASA - From smallest of small to even smaller.

Yogesh Goel
http://yogeshgoel.blogspot.com
http://123net.blogspot.com

Published in: Design, Technology, Education
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Worlds Tour - Travel with NASA

  1. 1. Travel with NASA from the biggest to the smallest distance of the universe.
  2. 2. This is a journey which starts and ends in distances difficult for the human mind to capture . It starts from 10 million light years (10 23 m.) at space, and ends at 100 atom/meter (10 -16 m.) on Earth. Have a nice trip. National NASA
  3. 3. 10 million light years (10 23 m) the distance to galaxy Milky-Way
  4. 4. 1 million light years (10 22 m) The disc becomes visible.
  5. 5. 100.000 light years (10 21 m) You can barely see our galaxy.
  6. 6. 10.000 light years (10 20 m) You start to see the stars of our galaxy.
  7. 7. 1.000 light years (10 19 m) The stars ten times closer.
  8. 8. 100 light years (10 18 m) Nothing but stars.
  9. 9. 10 light years (10 17 m) Even more stars.
  10. 10. 1 light year (10 16 m) With a little attention you can see the sun.
  11. 11. 1 trillion Km (10 15 m) The sun even bigger.
  12. 12. 100 billion Km (10 14 m) Our solar system starts to show. (The orbits of the planets have been painted)
  13. 13. 10 billion Km (10 13 m) Our solar system.
  14. 14. 1 billion Km (10 12 m) The orbits of Hermes, Venus, Earth, Mars and Zeus.
  15. 15. 100 million Km (10 11 m) The orbits of Venus, Earth and Mars.
  16. 16. 10 million Km (10 10 m) Part of the orbit of Earth.
  17. 17. 1 million Km (10 9 m) You can see the orbit of Moon.
  18. 18. 100.000 Km (10 8 m) Our Earth still small.
  19. 19. 10.000 Km(10 7 m) The northern hemisphere of Earth.
  20. 20. 1.000 Km (10 6 m) Florida USA.
  21. 21. 100 Km (10 5 m) From the surface of the sea. Florida even closer.
  22. 22. 10 Km (10 4 m) You start to distinct places.
  23. 23. 1 Km (10 3 m) What you can see when free falling off a plane.
  24. 24. 100 m (10 2 m) An ordinary view from an helicopter.
  25. 25. 10 m (10 1 m) Seeing off a cliff.
  26. 26. 1 m (10 0 m) What you see when you reach out your arms...
  27. 27. 10 cm (10 -1 m) You can catch the leaves.
  28. 28. 1 cm (10 -2 m) You can see the structure of a leaf.
  29. 29. 1 mm (10 -3 m) Even closer.
  30. 30. 100 micron (10 -4 m) you can see the cells.
  31. 31. 10 micron (10 -5 m) The cells look clearer.
  32. 32. 1 micron (10 -6 m). The cell itself.
  33. 33. 1.000 angstrom (10 -7 m) You can see the chromosomes.
  34. 34. 100 angstrom (10 -8 m) You can see the DNA chain.
  35. 35. 1 nanometre (10 -9 m) The chromosomes parties.
  36. 36. 1 angstrom (10 -10 m) The atom of carbon. Life consists of it...
  37. 37. 10 Pico metre (10 -11 m) The electron within the atom.
  38. 38. 1 Pico metre (10 -12 m) The orbit of electrons.
  39. 39. 100 Fermi (10 -13 m) The inner of an atom.
  40. 40. 10 Fermi (10 -14 m) Closer.
  41. 41. 1 Fermi (10 -15 m) The surface of a neutron.
  42. 42. 100 atom metre (10 -16 m) we can see the quark. End of trip!
  43. 43. <ul><li>After this journey ask yourself: </li></ul><ul><li>Can you say whether you are big or small? </li></ul>
  44. 44. Think for a minute NATIONAL NASA (USA)

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