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Download Lecture 1 Coordinate Systems - Department of Physics & Astronomy
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Lecture 1 The Celestial Sphere Views of the Universe The Celestial Sphere History The Greek tradition Copernican Revolution Modern View of Universe The Universe at a glance Positions on the celestial sphere Altitude-Azimuth coordinate system Equatorial coordinate system Daily,Seasonal changes, Precession Measurements of time The Geocentric Universe The Geocentric Universe • Celestial Spheres – Stars attached on a sphere that rotates about an axis that passes through the north and south celestial poles…simple idea… – “Wandering stars”, planets exhibit retrograde motion…complication! – Epicycles on deferents…. Retrograde Motion Copernican Revolution • Heliocentric - Sun centered – Easily explains retrograde motion But Copernicus still hung on to perfect circles … could not predict planetary positions better then Ptolemy Bringing order to planets • • Superior Planets Inferior planets – • • Greatest western (eastern) elongation (mercury 28 venus 47) Conjuction/Opposition Synodic Period(S) Time interval between oppositions • Sidereal Period (P) Time interval to complete one orbit relative to the background stars ì1/P -1/Pearth 1/S = í î1/Pearth -1/P (inferior) (superior) The Universe at a Glance A Modern View of the Universe Some simple observations of the universe… What’s out there? How does one study Astrophysical objects? Some examples of what we understand Stellar Astrophysics Big Bang Cosmology Some examples of what we don’t understand Observational Astronomy Fundamental Observations Sky is generally dark at night… Really Bright object in the Sky during “daytime”… Sometimes there is a pretty bright object in the Sky at night… Some bright pinpoints that remain relatively fixed.. Some bright pinpoints that wander around… Some “Fuzzy” objects Detailed Observations Distance Temperature Spectra …. What do these observations tell us about the Universe? The Universe at ~300K years Full Sky Map of Microwave intesity from COBE satellite WMAP Temperature fluctuations CMB Timeline WMAP link Scientific Method Learning about the Universe Observe Measure Check Theory by Catalog Comparing Model with observations Look for order Formulate Theory Model Phenomenon Learn Something about the Universe Napoleon’s Gravitational Theory My Gravitational Field Equation’s Predict that the Universe has existed forever, is infinitely large and uniformly filled with stars with an average Spacing of l light year Checking Napoleon’s Gravitational Theory Napoleon what would the night sky look like if your theory is right? Napoleon’s Night Sky Checking Napoleon’s Gravitational Theory The night sky is basically dark and you, my friend, are dead wrong.. Einstein’s Gravitational theory is better than Newton’s Qso0957+561 Newton’s theory: gravity does not deflect light Einstein’s theory: space-time is warped … light will be deflected Hubble Image Another Simple Observation Location of planets Planets lie along ecliptic plane Mercury never further than about 28 degrees from sun. Venus never further than about 48 degrees from sun Mars, Jupiter, Saturn,…not constrained to lie close to sun Retrograde Motion … What do these observations tell you???? Heliocentric Solar System • Pluto kinda looks out of place even on this diagram…. Astrophysical Objects è The Sun Study solar phenomena such as flares, sun spots è The Moon Lunar “Cartography” è Planets and Moons Study orbits of planets and their moons Astrophysical Objects è Comets Search for and track comets è Asteroids Track asteroids before they “strike”…. è Stars Measure orbital periods of binary and Trinary systems Variable Stars…. Astrophysical Objects è Planetary Nebulae Observe remnants of old supernovae è Globular Clusters Determine age of stars in globular clusters Astrophysical Objects è Galaxies è Diffuse Nebulae Introduction to Astronomy/Astrophysics Astrophysical Objects ( Things in the Universe) Planets and Moons…. Sun and Stars Galaxies Exotic objects AGNs, Blazars GRBs Quasars Dark Matter ??? Dark Energy??? How do we study them? Light as a Messenger Analyzing Starlight Spectroscopy Basic Physics Blackbody Radiation Color Temperature Classification of Stars using Spectral Type and Brightness Hertzsprung Russel Diagram The evolution of a star from birth to death traces out a path on the H-R diagram… Stellar Evolution Stellar Evolution in a nutshell Death of Stars •White Dwarf •Electron degeneracy pressure •M<1.4 Msun •Neutron Star •Neutron Degeneracy Pressure •1.4Msun < M <2.8 Msun •Black Hole •M>2.8 Msun •“Smithereens” Supernova remnants Galaxies (Gary Walker) • • • • What are they? Where are they? How are they moving? What does this tell us? Galactic Redshifts Tell us something? How do we know that the Universe is expanding? Cosmological Distance Scales • Bootstrap method – The astronomical unit – radar and kepler – Trigonometric Parallax – Spectroscopic Parallax – Cepheid-variables – Galaxy Standard Candles – Galaxy Luminosities Cosmological Distance Scales Trigonometric Parallax •Parsec=3.26 light year~9.5 trillion km (Distance at which 1AU subtends 1 arcsec) Cosmological Distance Scales Galaxy Standard Candle Type IA Supernovae •Explosion of white dwarf in a binary system •Equivalent to a 1028 Megaton explosion Standard Candle •Determine distance from apparent luminosity and inverse square law Recession velocity v Distance Hubble Constant H = 72+/-8 km/sec/Mpc from HST analysis (2000) Universe is Expanding Accelerating Universe Type IA Supernova as standard candles Indication that expansion of universe is accelerating from observation of apparent distance to galaxy at a given redshift not being consistent with the expectation from a universe undergoing constant expansion. For more info… http://www.lbl.gov/supernova snvideo.html saul_sm.qt DARK ENERGY Some Examples of what we don’t understand Gamma Ray bursts Gamma Ray Bursts Possible Cause Possible Effects Fearful Dinosaurs? UHECRs???