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Transcript
Astronomical Numbers “Space is big. Really big.” Astronomical Numbers Key Concepts 1) Large (& small) numbers can be written using scientific notation. 2) Units of length include kilometers, astronomical units, and light-years. 3) Units of time include seconds and years. 4) Units of mass include kilograms. - Hitchhiker’s Guide to the Galaxy Scientists often use the Metric System to express physical units. Astronomers measure time in seconds and years. – Lengths in Meters – Time in Seconds Time for Earth to go around Sun = 1 year = 365 ¼ days = 3.2 x 107 seconds – Masses in Kilograms Astronomers measure mass in kilograms. NOTE: mass and weight are NOT the same thing! Example: MASS = 1 kilogram = 1000 grams WEIGHT = 35 ounces on Earth WEIGHT = 6 ounces on Moon MASS = amount of matter WEIGHT = 13 ounces on Mars WEIGHT = force with which gravity pulls on matter 1 Astronomers measure length in astronomical units and light years. 1 light-year (ly) = distance traveled by light (in a vacuum) during one year. Distance from Earth to Sun = 150 billion meters = 150 million kilometers = 1 astronomical unit (AU) 1 light-year = 63,000 astronomical units = 9.46 x 1012 kilometers Scientists use scientific notation to write large (& small) numbers 1000 = 103 1,000,000,000 = 109 0.001 = 10-3 2,200,000 = 2.2 x 106 Number of people living on Earth = Number of stars in our galaxy = 6.96 billion = 300 billion = 6.96 x 109 3 x 1011 (source: U.S. Census Bureau) 2 Number of Oreos baked by Nabisco = 491 billion = 4.91 x 1011 (source: Wikipedia, “Oreo”) You are here... Standard prefixes are used to express large and small numbers. 103 = kilo106 = mega109 = giga- (kilogram, kilometer) (megawatt, megayear) (gigabyte, gigayear) 103 = milli106 = micro109 = nano- (millisecond, millimeter) (microsecond, micron) (nanosecond, nanometer) A Brief Tour of the Universe 100 meters MP4023 100 meters MP4023 EL2004 EL2004 3 1000m = 1 kilometer 10 km EL2004 EL2004 100 km 1000 km Kansas City Troy EL2004 EL2004 10,000 km 100,000 km EL2004 Gulf of Suez Egypt Earth-to-Moon: 384,000 km 4 100 AU Earth-to-Sun: 150 million km= 1AU The AU is useful within the Solar System. 1 light year (ly) 10 ly Centauri 4.26 ly away Proxima Centauri 4.22 ly away The light-year is useful within our galaxy (known as the Milky Way Galaxy). Sun 1 ly = 9.461012 km = 63,235 AU 100,000 ly Milky Way Galaxy Millions of light years 26,000 ly from the Galactic Center 5 28 Billion Light Years Imagining the Cosmos Visible portion of the Universe Imagining the Cosmos Key Concepts 1) Cosmology is based on (imperfect) observations of the universe. 2) The first known models of the universe featured a flat earth under a domed sky. 3) From Earth, stars appear to move in circles around Polaris, the North Star. Cosmology is based on observation of the universe around us. Note on terminology: Universe = cosmos = the whole shebang Sun ↑ Sky (blue) horizon Imperfect Imperfectand andincomplete incompleteobservations observations result in imperfect result in imperfectmodels. models. Earth (opaque) 6 The Starry Night Cosmology version 1.0: Domed (solid) sky over flat earth. About 6000 stars are visible to the naked eye on moonless nights over the course of a year. Nearly 200 Billion stars make up our Milky Way Galaxy. Greenfield papyrus (1050 BC) This “Superdome” model of the cosmos was common among early cultures. Ancient Egypt, Babylonia, Bronze Age Greece, etc… Ra, the sun god Ancient astronomers were careful observers of the sky. Gemini Pleiades neo-Assyrian star chart (650 BC) 7 Constellations People have seen patterns and drawn figures in the sky by connecting the bright stars. These starry figures are the Constellations All peoples have populated the night sky with constellations. On a clear, moonless night, you can see at most 3000 stars with your naked eyes. Constellations Starry Night Over the Rhône Vincent van Gogh (1888) 1) It’s convenient to pretend the stars are attached to a celestial sphere. Distances to stars are hard to measure. We can pretend all stars are at the same distance, on a large celestial sphere. Stars in a constellation are usually not all at the same distance from us. Position on the celestial sphere is known even when star’s distance is unknown. 8 Prime Meridian Latitude & Longitude Prime Meridian: 40th Parallel Defines Zero Longitude Through Greenwich UK Longitude: Angle East / West along Equator from Prime Meridian Latitude: 40º North Latitude Equator 83º West Longitude Angle North / South along the Meridian from Equator Columbus, Ohio: 80 W, 40 N Celestial Sphere: a large (imaginary) sphere centered on the Earth. Special locations on celestial sphere: North Celestial Pole = point directly above Earth’s North Pole (near the star Polaris). South Celestial Pole = point directly above Earth’s South Pole (no nearby star). Celestial Equator = great circle directly above the Earth’s Equator. Distances on the celestial sphere are measured in degrees, arcminutes, and arcseconds Sky from the North Pole 360 degrees in a circle, 60 arcminutes in a degree, 60 arcseconds in an arcminute. 9 Celestial Navigation made simple: The Local Sky We only see half of the sky at any instant At Earth’s North Pole: Polaris is directly overhead. Zenith At Earth’s Equator: Polaris is due north, on the horizon. In Earth’s Northern Hemisphere: Polaris is due north – height above horizon (in degrees) equals your latitude. W S N Horizon E NCP Visible Half of the Sky 9 pm N Z W E CEq S Below your Horizon SCP Polaris 11 pm 1 am 40 ° 10 Constellations appear to travel in counterclockwise circles around Polaris (the North Star). 2) The celestial sphere appears to rotate about the celestial poles (1 day cycle) Observation: Stars, Sun, Moon, and planets move in counterclockwise circles around North Celestial Pole. What causes these circular motions?? “Superdome” models could explain this motion by saying the “dome” is the visible half of a rotating celestial sphere, studded with stars. visible half of celestial sphere hidden by opaque flat Earth Hypothesis (Ptolemy, 2nd century): 600 BC: The Greek philosopher Thales is sometimes called “the first scientist”. Thales: the universe is made of physical objects, which can be explained without mythology. Thales: the Earth is flat and stars are stuck to a rotating celestial sphere. Earth is stationary; stars are attached to a sphere that rotates around the Earth once per day. Hypothesis (Copernicus, 16th cent.): Stars are stationary; Earth rotates about its axis once per day. 11 Cosmology version 1.0: Domed (solid) sky over flat earth. Cosmology version 2.0: Rotating domed sky over flat earth. 12
