1 / 9

Surveying the Stars

Surveying the Stars. Parallax. The apparent change in the direction of the remote object due to a change in the vantage point of the observer is called parallax. Stellar Parallax. Astronomical objects are far away  we need a large baseline

blackk
Download Presentation

Surveying the Stars

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Surveying the Stars

  2. Parallax The apparent change in the direction of the remote object due to a change in the vantage point of the observer is called parallax.

  3. Stellar Parallax Astronomical objects are far away  we need a large baseline The largest baseline we have is the orbit of the Earth around the Sun. So, the first thing we need to know is the distance between the Sun and the Earth. This can be measured from the distance of the other planets measured by radar observations  RUNG 1 of the Cosmic Distance Ladder.

  4. Parallax Measurements Distance d = 206265 D/p D: baseline (AU) p: angle in arcseconds Degree  Minute  Second 1 arcsec  d = 206265 AU = 1 parsec = 3.26 lightyears 1/10 arcsec  d = 10 parsecs = 32.6 lightyears 1 arcsec  50,000 TL coin from 5 kms. So, stellar parallaxes are not visible to the naked eye  RUNG 2

  5. Nearest Stars: Alpha Centauri  triple star system a double and a faint star  Proxima Centauri  1.3 pc = 4.2 LY Next: Sirius : 2.6 pc = 8 LY With the ground based observations we can see about 1000 stars within a 20pc (70LY) radius. Why Hubble Space Telescope?? 20pc  60pc, 1,000 stars  20,000 stars New: Hipparcos mission  distances to 118,000 stars are measured.

  6. Proper Motion of Stars Our Sun goes around the Milky Way galaxy every 200,000,000 years. Similarly all other stars are also moving. Proper motion: The change in the position of stars in the sky. One year is too short to measure the proper motion. Intervals of 20-50 years are taken (with photographs). Smaller proper motion, farther away the star  RUNG 3.

  7. Barnard’s Star

  8. Space Velocity Vs: True velocity of a star Vr: Radial velocity of a star, measured by Doppler shift. Vt: Tangential velocity of a star measured by the proper motion.

  9. Doppler Shift

More Related