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Transcript
Other Galaxies: Hubble supersedes Shapley • Edwin Hubble identified single stars in the Andromeda nebula (“turning” it into a galaxy) • Measured the distance to Andromeda to be 1 million Ly (modern value: 2.2 mill. Ly) • Conclusion: it is 20 times more distant than the milky way’s radius Extragalacticity! Shapley’s theory falsified! Q: How many galaxies are there? • Hubble Deep Field Project – 100 hour exposures over 10 days – Covered an area of the sky about 1/100 the size of the full moon • Probably about 100 billion galaxies visible to us! • About 1,500 galaxies in this patch alone • Angular size ~ 2 minutes of arc Other Galaxies • there are ~ 100 billion galaxies in the observable Universe • measure distances to other galaxies using the periodluminosity relationship for Cepheid variables • Type I supernovae also used to measure distances – Predictable luminosity – a standard candle • Other galaxies are quite distant – Andromeda (M31), a nearby (spiral) galaxy, is 2 million light-years away and comparable in size to Milky Way • “Island universes” in their own right Hubble Classification Scheme • Edwin Hubble (~1924) grouped galaxies into four basic types: – – – – Spiral Barred spiral Elliptical Irregular • There are sub-categories as well Spirals (S) • All have disks, bulges, and halos • Type Sa: large bulge, tightly wrapped, almost circular spiral arms • Type Sb: smaller bulge, more open spiral arms • Type Sc: smallest bulge, loose, poorly defined spiral arms Barred Spirals (SB) • Possess an elongated “bar” of stars and interstellar mater passing through the center Elliptical (E) • • • • No spiral arms or clear internal structure Essentially all halo Vary in size from “giant” to “dwarf” Further classified according to how circular they are (E0–E7) S0/SB0 • Intermediate between E7 and Sa • Ellipticals with a bulge and thin disk, but no spiral arms Q: How do we know we live in a Spiral Galaxy? • After correcting for absorption by dust, it is possible to plot location of O- and B- (hot young stars) which tend to be concentrated in the spiral arms • Radio frequency observations reveal the distribution of hydrogen (atomic) and molecular clouds • Evidence for – galactic bulge – spiral arms Rotation of the Galaxy • Stars near the center rotate faster; those near the edges rotate slower (Kepler) • The Sun revolves at about 250 km/sec around the center • Takes 200-250 million years to orbit the galaxy – a “galactic year” How do spiral arms persist? Why don’t the “curl up”? “Spiral Density Waves” • A spiral compression wave (a shock wave) moves through the Galaxy • Triggers star formation in the spiral arms • Explains why we see many young hot stars in the spiral arms The Mass of the Galaxy • Can be determined using Kepler’s 3rd Law – Solar System: the orbital velocities of planets determined by mass of Sun – Galaxy: orbital velocities of stars are determined by total mass of the galaxy contained within that star’s orbit • Two key results: – large mass contained in a very small volume at center of our Galaxy – Much of the mass of the Galaxy is not observed • consists neither of stars, nor of gas or dust • extends far beyond visible part of our galaxy (“dark halo”) Galaxy Masses • Rotation curves of spiral galaxies comparable to milky way • Masses vary greatly The Missing Mass Problem • Dark Matter is dark at all wavelengths, not just visible light • The Universe as a whole consists of up to 25% of Dark Matter! Strange! • What is it? – – – – – Brown dwarfs? Black dwarfs? Black holes? Neutrinos? Other exotic subatomic particles? • Actually: Most of the universe (70%) consists of Dark Energy Even stranger! Missing Mass Problem Actual data Hypothetical Keplerian motion • Keplerian Motion: more distance from center less gravitational pull slower rotational speed Galaxy Formation • Not very well understood – More complicated than stellar formation, and harder to observe • Formation of galaxies begins after Big Bang • Different than star formation because galaxies may collide and merge Galaxy Formation • Galaxies are probably built up by mergers – Contrast to break up of clouds in star formation • Our own Milky Way is eating up the neighboring Sagittarius Dwarf Galaxy Galaxy Mergers • Start with high density of small proto-galaxies • Galaxies merge and turn into bigger galaxies Actual photo (HST): lots of small galaxies Galaxy Interaction Galaxy Collision: NGC2207 vs. IC2163 The Tully-Fisher Relation • A relation between the rotation speed of a spiral galaxy and its luminosity • The more mass a galaxy has the brighter it is the faster it rotates the wider the spectral lines are • Measuring rotation speed allows us to estimate luminosity; comparing to observed (apparent) brightness then tells us the distance Beyond the Galactic Scale – Clusters of Galaxies The Local Group The Virgo Cluster Superclusters Beyond Superclusters • Strings, filaments, voids • Reflect structure of the universe close to the Big Bang • Largest known structure: the Great Wall (70 Mpc 200 Mpc!) Cosmology • The part of astronomy (and astrophysics) that deals with the greatest structures in the universe – and the evolution of the universe itself! Cosmologically relevant Questions – What is in the universe? – How do these things interact? – How does the universe change in time? • Is there a beginning? • Is there an end? Everything is moving away from us! • Measure spectrum of galaxies and compare to laboratory measurement • lines are shifted towards red • This is the Doppler effect: Red-shifted objects are moving away from us Hubble’s Law • The final rung on the cosmic distance ladder • Hubble’s observations (1920’s): – Light from distant galaxies is redshifted – The more distant the galaxy, the greater the red-shift • Interpretation: – Galaxies are moving away from us – More distant galaxies are moving faster • The universe is expanding, carrying the galaxies with it! Doppler Shifts of Galaxies Hubble, 1929 Hubble’s Law Velocity = H0 Distance Distance = Velocity /H0 • H0 = (65 ± 15) km/sec/Mpc is Hubble’s constant • Compare to distance = velocity time • Appears the universe “exploded” from a single point in the past – the Big Bang • Age of the universe is 1/H0 or about 14 billion years The Expanding Universe • Except for a few nearby galaxies (like Andromeda), all the galaxies are seen to be moving away from us • Generally, the recession speed of a galaxy is proportional to its distance from us; that is, a galaxy that’s twice as far away is moving twice as fast (aside from local motions within galaxy clusters) The Expanding Universe This expansion pattern (speed proportional to distance) actually implies that galaxies are all moving away from each other Milky Way Expansion The Expanding Universe This expansion pattern (speed proportional to distance) actually implies that galaxies are all moving away from each other Milky Way Expansion Twice as far away, so moves twice as fast The Expanding Universe This expansion pattern (speed proportional to distance) actually implies that galaxies are all moving away from each other Start: A while later: d d 2d The Expanding Universe • Each galaxy sees the others moving away with the same pattern (further → faster) • As though the galaxies ride on a rubber band that is being stretched! Start: A while later: The Expanding Universe In three dimensions, imagine the galaxies are raisins in an expanding loaf of bread The Expanding Universe • Appears the universe “exploded” from a state in which matter was extremely dense and hot – the Big Bang • Where did the expansion begin? Everywhere! • Every galaxy sees the others receding from it – there is no special point (center) Cosmological Red-Shift • Not really a Doppler effect • Space itself is being stretched between galaxies