Expansion of the Universe

1. Expansion of the Universe Alexandra Higareda DeMaris Wilson

2. Introduction • Albert Einstein's General Theory of Relativity • "the greatest blunder of my life" • Enter Hubble

3. Expansion of the Universe • Hubble found straight-line relationship existed between redshifts interrupted as recessional velocities and galaxies distance • Farther away is a galaxy, faster it is moving away from our Galaxy • Only exceptions were several nearby galaxies that are blueshifted

4. Galaxy Redshifts • 1928, large redshifts in absorption lines of all but 5 of 41 nearby galaxies were found • 5 galaxies having blueshifted spectra • Even larger redshifts have since been found for fainter galaxies

5. Hubble Velocity-Distance Law • Greater recessional velocity, fainter a galaxy appears and more distant it is • Hubble's velocity-distance law - farther away a galaxy is from our Galaxy, faster that galaxy is receding from us • Recessional velocity equals constant times distance • Equation: v = H r, where constant of proportionality H is called Hubble's constant • Interpretation - redshifts of distant galaxies represents amount universe has expanded since galaxy's light was emitted • Redshifts are result of expansion of universe not high velocities as in Doppler effect

6. Universal Scaling Factor • Could be thought of as typical separation between galaxies or clusters of galaxies • Has same value everywhere at any instant of time • Equation: z = Dl / l = ( Ro - R ) / R, where Ro = present value of universal scaling factor, R = value at some earlier time • Wavelengths are lengths and hence as space grow so do wavelengths

7. Cosmological Redshifts • Not same as Doppler redshift • Not same as gravitational redshift • Galaxies also exhibit a small peculiar velocity superimposed on expansion velocity • Peculiar velocity larger than recessional velocity for nearby galaxies • Thus we observe blueshifted galaxies

8. Cosmological redshifts continued… • Recessional velocity much larger than peculiar velocity for very distant galaxies • Thus we may neglect peculiar velocity in comparison • Measures of Hubble's constant lie between 15-30 km/s/Mly or 50-100 km/s/Mpc • Example - largest redshifts for supposedly normal galaxies are about 1.2, recessional velocity of 200,000 km/s for Hubble constant equal 17 km/s/Mly

9. Hubble Constant • Hubble time (1/H) - reciprocal of Hubble constant has units of time; represents time since initiation of expansion of space if expansion has proceeded uniformly • Equation: distance = constant*velocity*time, or r = z c / H

10. Hubble"s Constant(km/s/Mly) Hubble Time(y) 15 20 x 109 20 15 x 109 25 12 x 109 30 10 x 109 Hubble Times Hubble Times

11. Look-Back Effect • Galaxies whose distances are as much as 11 x 109 ly (11,000 Mly) are observed as they were 11 billion years ago, not as they are now • Some quasars redshifts over 3 and a few over 4 with largest around 5 • Distances equal almost 15 x 109 ly (15,000 Mly) • These objects seen when they are but a few percent of current age of universe

12. Cosmic Distance Scale • Proceeds from nearest objects to farthest • 1st link - parallactic distances of relatively nearby stars from parallactic shifts • 2nd link - inverse-square distances of variable stars, chiefly Cepheids, and distances from spectroscopic and intrinsic brightness of stars in our Galaxy • 3rd link - inverse-square distances of neighboring galaxies of Local Group • Determined from characteristics of brightest stars, Cepheid variables, and other stellar data

13. Comic Distance Scale continued… • 4th link - inverse-square distances of "nearby galactic groups" taking as distance indicators their brightest stars, surface brightness of galaxies, and apparent size of bright gaseous nebulae • 5th link - inverse-square distances of galaxies, such as Virgo cluster, using cluster's brightest galaxy or its luminosity type as standard of comparison • 6th link - expansion distances of most remote clusters of galaxies by means of Hubble constant derived from expansion of universe

14. The End