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Starry Monday at Otterbein
Welcome to Starry Monday at Otterbein Astronomy Lecture Series -every first Monday of the month- October 6, 2008 Dr. Uwe Trittmann
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Today’s Topics Practical Astronomy –Star maps and such
The Night Sky in October
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Feedback! Please write down suggestions/your interests on the note pads provided If you would like to hear from us, please leave your / address To learn more about astronomy and physics at Otterbein, please visit (Obs.) (Physics Dept.)
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What’s up in the night sky?
The Celestial Sphere An imaginary sphere surrounding the earth, on which we picture the stars attached Axis through earth’s north and south pole goes through celestial north and south pole Earth’s equator Celestial equator Relative positions of stars do not change -> attached to sphere In ancient times was often literally thought of as a physical sphere rotating about the earth
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What’s up for you? Observer Coordinates
Horizon – the plane you stand on Zenith – the point right above you Meridian – the line from North to Zenith to south
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…depends where you are! Your local sky –
your view depends on your location on earth
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Look North in Westerville
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Look North on Hawai’i
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SkyGazer A computer program that simulates the vision of the sky during day and night Things to observe: Position on Earth: observe how the view of sky changes as you move E,W, N,S Note the distribution of sunlight on Earth! Rotation is around Polaris which is not in zenith
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Star Maps … are a 2D rendering of a 3D situation
They can’t be perfect! You are looking at the inside of a sphere East and West are reversed
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On the Web
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Star Maps 40º 90º Celestial North Pole – everything turns around this point Zenith – the point right above you & the middle of the map
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Daily Rising and Setting
Due to the rotation of the Earth around its axis Period of rotation: siderial day= 23h56m4.1s 1 solar day (Noon to Noon) =24h Stars rotate around the North Star – Polaris Circumpolar – never rise or set
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That’s what you’d actually see!
Confusing?
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Experts’ view Learn to identify crucial constellations
Find your way around the night sky
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Hands On! Dial in the night sky as we will see it NOW! Advance time
Advance date
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How bright are Stars? -The Magnitude Scale
The magnitude is a measure of the apparent brightness Logarithmic scale Notation: 1m.4 (smaller brighter) Originally six groupings 1st magnitude the brightest 6th magnitude the dimmest The absolute magnitude is the apparent magnitude a star would have at a distance of 33 ly: 2M.8 Note higher magnitude means a dimmer star! Abs magnitude is effectively the luminosity; apparent magnitude involves the luminosity and distance It is a property of the eye that a fixed difference in perceived brightness corresponds to a multiplicative factor in energy: thus if one star is one order of magnitude brighter than another, it gives off about 2.5 times as much light; 2 orders of magnitude, 2.5H2.5=6.25 times as much light; etc. 5 orders of magnitude=100 times.
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When can I see a star/constellation?
When the Sun is not in the constellation! As Earth moves around the Sun, the Sun seems to move around the ecliptic: from Aries to Taurus, Gemini, etc. As the Earth rotates, stars rise in the East Wait a while and “your” star will rise Bummer: if you have to wait too long, the Sun will rise, too, and outshine your star.
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Sun’s Apparent Path Slow drift across background of fixed stars caused by rotation of earth about sun Period = 1 year (365 ¼ days) As Earth moves around the Sun, the Sun appears “in front” of the constellations of the ecliptic (Zodiac)
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3D view Vernal equinox: Ecliptic intersects with celestial equator
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When can I see the Moon? Depends on its position relative to Sun, i.e. its phase New Moon: same as Sun Full Moon: opposite of Sun
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When can I see the Planets?
The move slowly around the ecliptic Look up in which constellation they appear Identify them as “the extra star”
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Motion of Sun, Moon and other Planets
All major bodies in the Solar System move around ecliptic Slow drift (from W to E) against the background of stars Skyglobe demo 7 visible “planets” incl. the sun and moon Planet = “wanderer” Days of the week named after the planets
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Night Sky of the Season As a crude way of finding visible constellations, one divides them into Summer, Autumn, Winter and Spring constellations Some constellations are ALWAYS visible – the circumpolar ones that are close enough to the celestial pole
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The Night Sky in October
The sun is past autumn equinox -> longer nights! Autumn constellations are coming up: Cassiopeia, Pegasus, Perseus, Andromeda, Pisces lots of open star clusters! Jupiter is visible all night
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Moon Phases Today (Waning Gibbous, 70%) 10 / 7 (First Quarter Moon)
10/ 14 (Full Moon) 10 / 21 (Last Quarter Moon) 10 / 28 (New Moon)
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Today at Noon Sun at meridian, i.e. exactly south
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10 PM Typical observing hour, early October Moon Jupiter Uranus
Neptune Moon Jupiter
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South-West High in the sky: The summer triangle
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Due North Big Dipper points to the north pole
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High up – the Autumn Constellations
W of Cassiopeia Big Square of Pegasus Andromeda Galaxy
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Andromeda Galaxy “PR” Foto Actual look
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with Plejades and the Double Cluster
East Perseus and Auriga with Plejades and the Double Cluster
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Greek Mytho- logy in the Sky
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South -2006 Planets Uranus Neptune Zodiac: Capricorn Aquarius
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South –2007 Planets Uranus Neptune Zodiac: Capricorn Aquarius
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South –2008 Planets Uranus Neptune Zodiac: Capricorn Aquarius
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Mark your Calendars! Next Starry Monday: November 3, 2008, 7 pm
(this is a Monday ) Observing at Prairie Oaks Metro Park: Friday, October 3, 7:45 pm Friday, January 30, 7:00 pm Web pages: (Obs.) (Physics Dept.)
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Mark your Calendars II Physics Coffee is every Wednesday, 3:30 pm
Open to the public, everyone welcome! Location: across the hall, Science 256 Free coffee, cookies, etc.
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Solar vs Siderial Day Earth rotates in 23h56m also rotates around sun
needs 4 min. to “catch up” Consequence: stars rise 4 minutes earlier each night after 1/2 year completely different sky at night!
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