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Expanding Space. In an infinite Newtonian Universe… Size Age Successive shells of stars – # of stars increases R 2 Intensity decreases 1/R 2 Shells are.

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Presentation on theme: "Expanding Space. In an infinite Newtonian Universe… Size Age Successive shells of stars – # of stars increases R 2 Intensity decreases 1/R 2 Shells are."— Presentation transcript:

1 Expanding Space

2 In an infinite Newtonian Universe… Size Age Successive shells of stars – # of stars increases R 2 Intensity decreases 1/R 2 Shells are same brightness Adding all shells to infinity sky is infinitely bright It would be pretty hot too… Olber’s Paradox:

3 General relativity predicts that the Universe must be either expanding or contracting. Einstein thinks it should be static. Introduces the cosmological constant to keep it static. Friedmann determines that it still must be dynamic. Einstein realizes that he is right, and calls the cosmological constant “The greatest mistake of my life” Setting the stage:

4 Meanwhile: Vesto Slipher at the Lowell Observatory in Flagstaff Arizona measures the red shift of spiral “Nebulae” The redshift is the Doppler effect 36 of 40 spiral nebulae are red shifted

5 Redshift: If v << c: Δλ ≈ v λ c Δλ - Change in wavelength λ - original wavelength v - recession velocity c - speed of light

6 Put this in your notes: What is the change in wavelength of the 656 nm line of a galaxy receding at 20,000 km/s? What is the new wavelength? 20000E3/3E8*656 = 43.7333 nm 656 + 43.7333 = 699.733 nm 44 nm, 700 nm

7 What is the recession rate of a galaxy whose 656 nm line comes in at 691 nm? (691-656)/656*3E5 = 16,000 km/s 16,000 km/s

8 Edwin Hubble uses the 100 inch telescope on Mt Wilson to look at “spiral nebulae”. He can pick out individual stars He finds Cepheids (i.e. the galaxies are made of stars!!! – Lowell “There are no Cepheid there”) He calculates the distance to and recession velocity of many galaxies. There is a relationship: Meanwhile:

9 Hubble’s Law: v = Hd v = recession velocity in km/s d = distance in Mpc H = 71 km/s / Mpc (± 2.5) Mpc = Mega parsecs The greater the distance, the greater the recession velocity.

10 Put this in your notes: What is the distance to a galaxy that has a 480 nm line that comes in at 497 nm? (Use H = 71 km/s / Mpc ) 150 Mpc (497-480)/480*3E5 = 10625 km/s 10625 km/s /( 71 km/s / Mpc ) = 149.6 Mpc

11 What is the recession rate of a galaxy that is 26 Mpc away? (Use H = 71 km/s / Mpc ) 1800 km/s 26 Mpc*( 71 km/s / Mpc ) = 1846 km/s

12 What is the distance to a point where the recession velocity is half the speed of light? (c = 3E5 km/s) (Use H = 71 km/s / Mpc ) 1.5E5km/s / ( 71 km/s / Mpc ) = 2112 Mpc 2100 Mpc

13 So what does it mean that every galaxy is moving away from us? The universe is expanding (demo - rubber band) Is our position in the universe unique?

14 Put this in your notes: Estimate the age of the universe from the a Hubble constant of 71 km/s/MPc (1 ly = 9.46x10 12 km, 1 parsec = 3.26 ly) 13.8 GY T ≈ 1/H

15 Before An expanding universe: After

16 An expanding universe:

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