q The study of the structure and evolution of the universe is Cosmology. q The universe is
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1 q The cosmological principle q The expanding unierse Olbers s paradox Big-bang Redshifts q The fate of the unierse q Age of the Unierse q The geometry of space q The cosmic microwae background q The study of the structure and eolution of the unierse is Cosmology. q The unierse is q On eery scale obsered so far the unierse shows structure: q Structures ~ 200 Mpc in size hae been seen. q This is much less than the most remote QSOs which are oer ~ 8000 Mpc distant. q The most extensie sureys coer only ~ 1/1000 of the obserable unierse! q A 300 Mpc cube anywhere in the unierse contains ~100,000 galaxies. excluding faint dwarf ellipticals and irregulars q Recent estimates indicate the total number of galaxies are roughly billion. Cosmologists make two assumptions known as the cosmological principle: 1. The unierse is homogeneous at the ery largest scales, the unierse is uniform. things are pretty much the same all oer. the same physical concepts apply eerywhere. 2. The unierse is isotropic looks the same in eery direction. the unierse has no preferred directions. Note: These assumptions are based on sketchy data, theoretical insight, and philosophical preference 1
2 cosmological principle implies that: 1. there can be no edge to the unierse Hubble's law is ery special. q If we are galaxy A, the elocities are: q What do people on galaxy B see? 2. there is no center q The same expanding unierse! Why is the unierse dark? For a, static (unchanging), infinitely old, infinitely large, and uniform unierse the sky should be bright! Eerywhere you look you should see a star. 2
3 The answer: Huble s law: distant galaxies receed rapidly the greater the distance, the more rapid the recession = H o x d H o is the Hubble constant = 65 km/s/mpc Hubble's law must obey the Cosmological Principle. Eerything must be expanding from eerything. For example: a loaf of bread with raisins as the bread rises, the distance between raisins increases In our example: the amount of expansion depends on the initial distance between raisins. the rate of expansion depends on the distance between raisins. In the unierse: 3
4 How it looks? Hubble's law tells us that for galaxies: = H o x d q Since the unierse is expanding, galaxies were closer together in the past. q Extrapolating backwards, all the galaxies were on top of one another! q When was this? Time = q Inserting Hubble law: q time = distance / (H o X distance) Suppose H o = 65 km/sec/mpc, an estimate of the age of the unierse is: 65 = 15 x 10 9 = 15 billions years old. Cosmic expansion is not expected to be constant oer all times: If the expansion were faster in the past: Expansion would be slowed down by the graity of all the matter and energy in the Unierse. T 0 would oerestimate the age of the Unierse. If the expansion were slower in the past: Expansion might be accelerated by a non-zero cosmological constant (Λ). T 0 would underestimate the age of the Unierse. 4
5 The present location and elocities of galaxies are a result of a primordial blast known as the BIG BANG. It marked: q q If we run the clock backwards far enough, eentually the Unierse would be zero size and therefore infinite density infinitely hot This initial state must hae existed at some finite time in the past. We call this ery hot, ery dense initial state the "Big Bang" The Big Bang was NOT an explosion in an otherwise empty unierse. The Big Bang inoled the entire unierse. At the beginning the Big Bang happened eerywhere at once. Look Back Times q As we look further out in the unierse we are seeing it at earlier times! It takes a long time for light to get here. q Telescopes are thus "time machines" which allow us to look at the early unierse. Will the Unierse: expand foreer stop reerse expanding and collapse For better understanding of fate of unierse the best analogy is: Launch of a spacecraft from the surface of Earth (which depends on escape speed ). For example: Consider a planet; shot a spacecraft from the surface (single shot) Velocity higher than escape elocity. Velocity lower than escape elocity. There are two options: object escapes object does not escape trajectory At the escape elocity (intermediate between the high and low elocity cases) the spacecraft just escapes (marginally bound). 5
6 In our example, Fate of a spacecraft depends: on escape elocity which in turn depends graity in turn depends on If the density of Unierse is: High: Small: The critical density Similarly, Fate of Unierse depends on: For H 0 = 65 km/sec/mpc: Critical density ~ 8 x kg/m 3, or about 5 H-atoms/m 3 This corresponds to 0.1 Milky Way galaxy/mpc 3 At critical density Unierse will be marginally bound. High-density Unierse Low-density Unierse Based on density there are three possible Unierses. Big crunch: the entire unierse will shrink towards a superdense, superhot singularity and experience a heat death, in which all matter and life are destined to be burnt up. Unierse will bounce into a new phase. Oscillating unierse: no beginning no end. Cold death: all radiation, matter, and life are eentually destined to freeze. 6
7 For this we need to measure the aerage density of the Unierse. Scientists use cosmic density parameter (Ω M ): Ω M is define as the ratio of the actual density to the critical density. Sometimes this is simply denoted by Ω. Ω M For H 0 = 65 km/sec/mpc, Critical density is ~ 8 x kg/m 3 And to determine actual density of unierse there are two ways : Galaxy Counts - Directly measure amount of mass in the unierse. Deceleration of the Unierse - Measure how much faster galaxies were moing in the past. Count galaxies within some large parcel of space. Adding up their mass and then diiding by olume of that space gies density of unierse little less than kg/m 3. This yields Ω M ~ But this misses most of the mass. Masses can be found from (graity): the motions of stars in galaxies the motions of galaxies in clusters We can't "see" > 90% of the mass in the unierse, except by graity! Possible presence of dark matter: MACHOs (Massie Compact Halo Objects) WIMPs (Weakly Interacting Massie Particles) Correcting for the missing mass due to dark matter (that we know) gies Ω M ~ 0.2 to result Expanding unierse Assumption: rate of expansion should decrease. We need a "standard candle" to measure distances and recessional elocities independently. It is difficult to find a standard candle. Galaxies were different in the past. Type Ia Supernoae now appear to work ery well. (Caused by accretion onto a white dwarf.) A Funny Thing Happened... Type Ia SN results indicate that the unierse is accelerating! Acceleration => the expansion rate is increasing Contrary to our initial bias that it should be decelerating Deceleration => the expansion rate is slowing Result again Expanding unierse 7
8 We still don t know the exact cause of acceleration of the Unierse. One possibility is: acuum pressure. Vacuum pressure is the force associated with empty space and effectie only on ery large scales. Sometimes it is simply known as cosmological constant. Its influence increases as the unierse expands. This is the repulsie force that acts against the attractie force of graity. This pressure is caused by neither matter nor radiation, so it is simply referred as dark energy. Computer models including this force can fit the obserational data though we still don t know its physical properties. Supernoa data Constant expansion rate For H 0 = 65 km/s/mpc, the age of a critical-density unierse without dark energy is about 10 billion years. This age estimate conflicts with the billion-year ages of globular clusters deried from studies of stellar eolution. If there is no dark energy, then the density of the unierse must be significantly less than critical, or Hubble s constant must be less than 65 km/s/mpc. The inclusion of dark energy increases the age of the unierse to 14 billion years, consistent with cluster ages. All forms of matter attract each other ia their mutual graity. Relatiity tells us that: Energy is equialent to mass (E=mc 2 ), so all forms of energy in the Unierse graitate as well. Matter & energy tells spacetime how to cure. The combined matter and energy density of the Unierse determines its global geometry. 8
9 The geometry of the Unierse depends on the total density of matter and energy: Ω > 1: High-Density Unierse ( ) Ω < 1: Low-Density Unierse ( ) Ω = 1: Critical-Density Unierse ( ) Parallel straight lines cross (conerge)! Space is cured so much that it bends back on itself and closes off making this bound unierse finite in size. How far back in time we can see? Is there any way to study the unierse beyond the most distant quasars? Parallel straight lines dierge! A low-density, unbound, saddle cured unierse is infinite in extent. 9
10 Discoery: discoered by accident in 1964, by Arno Penzias and Robert Wilson (won Noble Prize in 1978). Prediction: predicted in early 1940s, a long before its discoery, by astronomers at Princeton Uniersity. Origin: in the beginning unierse was hotter. the gas temperature was about 10,000 K. with the expansion of unierse, the initially high-energy radiation become redshifted to lower and lower temperature. its present temperature is ~ 3K. The existence of CMB is direct eidence that unierse expanded from a hot dense state (Big-Bang). Possible Fates of the Unierse Let's gie the last word to the obligatory poets... "Some say the world will end in fire. Some say in ice. From what I'e tasted of desire I hold with those who faor fire. But if it had to perish twice, I think I know enough of hate To say that for destruction ice Is also great And would suffice. " Robert Frost, Fire and Ice (Harper's Magazine, Dec 1920) "This is the way the world ends This is the way the world ends This is the way the world ends Not with a bang but a whimper. " T.S. Eliot, The Hollow Men (1924) Thanks for collection of poems to: Prof. W. Pogge (OSU) 10
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