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The Expanding Universe Wednesday, October 22 Next planetarium show: Thurs, Nov. 6.

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Presentation on theme: "The Expanding Universe Wednesday, October 22 Next planetarium show: Thurs, Nov. 6."— Presentation transcript:

1 The Expanding Universe Wednesday, October 22 Next planetarium show: Thurs, Nov. 6

2 All distant galaxies have redshifts. (They are moving away from us.)

3 Equal numbers of redshifts and blueshifts. Typical radial velocity v = 20 km/second 3 parsecs Thinking locally: stars within 3 parsecs of the Sun.

4 redshifts Almost all redshifts rather than blueshifts. Typical radial velocity v = 1000 km/second 30 million parsecs Thinking more globally: galaxies within 30 million parsecs of the Milky Way.

5 Climbing the “cosmic distance ladder”. every Can’t use the same technique to find distance to every astronomical object. Use one technique within Solar System (1 st “rung” of ladder); another for nearby stars (2 nd “rung”), etc...

6 1 st rung 1 st rung of the distance ladder: distances within the Solar System. radar Distances from Earth to nearby planets are found by radar.

7 2 nd rung: 2 nd rung: distances to nearby stars within the Milky Way Galaxy. parallax Distances from Solar System to nearby stars are found by parallax. ← Proxima Centauri

8 3 rd rung: 3 rd rung: distances to galaxies beyond our own. standard candles Distances from Milky Way to nearby galaxies are found with standard candles.

9 A “standard candle” is a light source of known luminosity. Know luminosity (L): measure flux (f): compute distance (r).

10 Climbing the distance ladder. 1) Measure flux of two standard candles: one near, one far. 2) Find distance to near standard candle from its parallax.

11 3) Compute luminosity of near standard candle: L = 4 π r 2 f. 4) Assume far standard candle has same luminosity as the near. 5) Compute the distance to the far standard candle:

12 A good standard candle: Cepheid variable stars Cepheid stars vary in brightness with a period that depends on their average luminosity.

13 Observe Cepheid. Measure period. Look up luminosity. Measure flux. Compute its distance!

14 Edwin Hubble radial velocity distance In 1929, Edwin Hubble looked at the relation between radial velocity and distance for galaxies.

15 Hubble’s result: Radial velocity of a galaxy is linearly proportional to its distance. Hubble’s original data 1 Mpc = 1 million parsecs

16 Hubble’s law in mathematical form: v = radial velocity of galaxy d = distance to galaxy H 0 = the “Hubble constant” (same for all galaxies in all directions)

17 What’s the numerical value of H 0 ? What’s the slope of this line? →

18 H 0 = 71 kilometers per second per megaparsec (million parsecs) H 0 = 71 km / sec / Mpc Or, more concisely…

19 useful Why it’s useful to know the Hubble constant, H 0 : Measure redshift of galaxy: z =(λ-λ 0 )/λ 0 Compute radial velocity: v = c z Compute distance: d = v / H 0 Cheap, fast way to find distance!

20 A “redshift map” of a slice through the universe. Each tiny dot represents a galaxy.

21 bizarre Kilometers per second per megaparsec?? What bizarre units! 1 megaparsec = 3.1 × 10 19 kilometers

22 intriguing Why it’s intriguing to know H 0 : Two galaxies are separated by a distance d. They are moving apart from each other with speed v = H 0 d. d

23 How long has it been since the galaxies were touching?

24 PLEASE NOTE: independent of PLEASE NOTE: This length of time (t = 1/H 0 ) is independent of the distance between galaxies!! all If galaxies’ speed has been constant, then at a time 1/H 0 in the past, they were all scrunched together.

25 Big Bang Hubble’s law (radial velocity is proportional to distance) led to acceptance of the Big Bang model. Big Bang model: universe started in an extremely dense state, but became less dense as it expanded.

26 Heart of the “Big Bang” concept: At a finite time in the past (t ≈ 1/H 0 ), the universe began in a very dense state. Hubbletime 1/H 0, called the “Hubble time”, is the approximate age of the universe in the Big Bang Model.

27 Since there are 3.2 × 10 7 seconds per year, the Hubble time is 1/H 0 = 14 billion years

28 Big Bang model “de-paradoxes” Olbers’ paradox. If age of universe ≈ 1/H 0, light from stars farther than a distance ≈ c/H 0 has not had time to reach us.

29 Hubble time: Hubble time: 1/H 0 = 14 billion years. Hubble distance: Hubble distance: c/H 0 = 14 billion light-years = 4300 megaparsecs.

30 Friday’s Lecture: Reading: Chapter 6 Newton vs. Einstein

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