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Transcript
Astronomy 1001 Lecture 1 5/30/07 The Moon Project • Goal: understand how the moon “works” – Measure Lunar month, explain phases, connect actual observations with scientific model • Requirements: 10 observations (and final project) – Time/date, phase, location • How to make an observation – Finding due south very important What is Astronomy About? • The Universe is comprehensible • Use physics to explain WHY things are as they are • NOT just a collection of facts • Use the Scientific Method Basic Subjects in Astronomy • Naked eye and deep sky objects • “Near-by” objects – Sun, Earth, Moon, planets, asteroids, comets • Galactic objects – Stars, clouds of gas, black holes, ISM • Extra-Galactic objects – Other galaxies, clusters of galaxies, the Universe as a whole Basic Astronomical Units • SI units in general – Giga, mega, kilo, milli, nano • Time – Year, second • Mass – Gram, kilogram • Units of Length – Parsec, Light-year, AU, meter, nanometer, Angstrom Light and Seeing the Past • Light travels at a finite speed, thus it takes time to travel distances • Light from Sirius takes 8 years to reach us • Light from the Orion Nebula takes 1500 years to reach us • Light from Andromeda takes 3 million years to reach us Where are We? • Earth is a planet in solar system • Our solar system is about halfway out in Milky Way Galaxy • Milky Way is part of the Local Group • Local Group is part of the Local Supercluster Scale of the Universe • Even nearby planets are distant compared to normal “human” scales • Stars are very far away – Would take Voyager 1 100,000 years to reach Alpha Centauri • Galaxy even larger – 100 billion stars • Universe contains 100 billion galaxies Where Did We Come From? • Universe began with the Big Bang • Gas collapsed to from early stars • Early stars “burned” for a few million years and blew up (supernova) • Gas from supernovae is recycled into new generation of stars • Left over material forms planets Timekeeping and Navigation • • • • • Four really important motions Earth orbits Sun The tilt of the Earth changes Earth rotates Moon orbits the Earth Days • There are 2 kinds of days – Sidereal (star) day – Solar day Months • Synodic Month • Sidereal Month – Because sidereal months are shorter than synodic months, you can have “Blue Moons” • You will measure the synodic month in the Moon Project Years • Sidereal year • Tropical Year – 20 minutes shorter than sidereal year – Thus, your year would be off by a day every 72 years Keeping Time • Apparent Solar time – What you would get with a Sundial – Noon is when the Sun is directly overhead • Mean Solar time – Day isn’t exactly 24 hours long – Account for variations by taking an average Keeping Time cont. • Standard time – Solar times have major flaws – In the late 19th Century, railroads started using standard times – In principle, standard time and solar time at the center of a time zone are identical – Universal time (UT, UTC, Zulu time) is used for global purposes Time Zones Leap Years • Calendars are historically complicated – Egyptian calendar had 365 days, resulting in a shift of equinoxes by 1 day every 4 years – Julius Caesar introduced leap years in 50 BC – Equinoxes still shifting over periods of centuries – Pope Gregory XIII modified the leap years to account for this Celestial Coordinates • Several different ways – Altitude and direction (azimuth) – Right Ascension and Declination • Declination is how high something is in the sky – Can be positive or negative • RA is how far something is from Meridian – Measured in units of time RA and Dec The Movement of Stars • Stars are at fixed locations • The Earth rotates every ~24 hours • This causes the stars to appear to move Celestial Navigation • Need to find 2 things: latitude and longitude • Historically an important motivation for astronomy • Similar methods were used for precise timekeeping until atomic clocks were invented Latitude • Simply need to determine the altitude of any star as it crosses the meridian • Polaris is the simplest star to use • Your latitude is simply the altitude of the star above your horizon Longitude • More difficult since you need transit times • If you have fast communications you can use a sundial and communication device • If not, you need transit times and a very good clock
