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ASTR100 (Spring 2006) Introduction to Astronomy Discovering the Universe

ASTR100 (Spring 2006) Introduction to Astronomy Discovering the Universe. Prof. D.C. Richardson Sections 0101-0106. Celestial Sphere. Zenith : Point directly overhead. Horizon : Where the sky meets the ground. Celestial Sphere. North Celestial Pole : Point on

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ASTR100 (Spring 2006) Introduction to Astronomy Discovering the Universe

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  1. ASTR100 (Spring 2006) Introduction to AstronomyDiscovering the Universe Prof. D.C. Richardson Sections 0101-0106

  2. Celestial Sphere Zenith: Point directly overhead Horizon: Where the sky meets the ground

  3. Celestial Sphere North Celestial Pole: Point on celestial sphere above North Pole Celestial Equator: Line on celestial sphere above Equator

  4. What is the arrow pointing to?A. the zenithB. the north celestial poleC. the celestial equator

  5. What is the arrow pointing to?A. the zenithB. the north celestial poleC. the celestial equator

  6. Review: Coordinates on the Earth • Latitude: position north or south of equator • Longitude: position east or west of prime meridian (runs through Greenwich, England)

  7. Altitude of the celestial pole = your latitude

  8. The North Star (Polaris) is 50° above your horizon, due north. Where are you? • You are on the equator. • You are at the North Pole. • You are at latitude 50°N. • You are at longitude 50°E.

  9. The North Star (Polaris) is 50° above your horizon, due north. Where are you? • You are on the equator. • You are at the North Pole. • You are at latitude 50°N. • You are at longitude 50°E.

  10. The sky varies as Earth orbits the Sun • As the Earth orbits the Sun, the Sun appears to move eastward along the ecliptic.

  11. Why do the constellations we see depend on latitude and time of year? • They depend on latitude because your position on Earth determines which constellations remain below the horizon. • They depend on time of year because Earth’s orbit changes the apparent location of the Sun among the stars.

  12. The Seasons TRUE OR FALSE? Earth is closer to the Sun in summer and farther from the Sun in winter.

  13. TRUE OR FALSE? Earth is closer to the Sun in summer and farther from the Sun in winter. Hint: When it is summer in the U.S., it is winter in Australia.

  14. TRUE ORFALSE!Earth is closer to the Sun in summer and farther from the Sun in winter. • • Seasons are opposite in the N and S hemispheres, so distance cannot be the reason. • The real reason for seasons involves Earth’s axis tilt.

  15. What Causes the Seasons? Seasons depend on how Earth’s axis affects directness of sunlight.

  16. Axis tilt changes directness of sunlight during the year.

  17. Summary:The Real Reason for Seasons • Orientation of Earth’s axis relative to the Sun changes as Earth orbits Sun. • Summer occurs in your hemisphere when sunlight hits it more directly; winter occurs when the sunlight is less direct. Spring and fall are in between. • AXIS TILT is the key to the seasons; without it, we would not have seasons on Earth!

  18. Why doesn’t distance matter? • Earth’s orbit nearly circular anyway. • Note: more ocean, less land means less extreme seasons in the southern hemisphere. • Note: Some planets have greater distance variation that DOES affect their seasons, e.g., Mars, Pluto.

  19. How do we mark the progression of the seasons? • We define four special points: • summer solsticewinter solstice • spring (vernal) equinoxfall (autumnal) equinox

  20. We can recognize solstices and equinoxes by Sun’s path across sky: Summer solstice: highest path, rise and set at most extreme north of due east. Winter solstice: lowest path, rise and set at most extreme south of due east. Equinoxes: Sun rises precisely due east and sets precisely due west.

  21. Seasonal changes are more extreme at high latitudes Path of the Sun on the summer solstice at the Arctic Circle

  22. Does the orientation of Earth’s axis change with time? • Although the axis seems fixed on human time scales, it actually precesses over about 26,000 years. • Polaris won’t always be the North Star! • Positions of equinoxes/solstices move. Earth’s axis precesses like the axis of a spinning top.

  23. Phases of the Moon

  24. Why do we see phases of the Moon? • Half the Moon illuminated by Sun and half dark. • We see some combination of the bright and dark faces.

  25. Phases of the Moon

  26. Moon Rise/Set by Phase

  27. Phases of the Moon: 29.5-day cycle new crescent first quarter gibbous full gibbous last quarter crescent } • waxing • Moon visible in afternoon/evening. • Gets “fuller” and rises later each day. } • waning • Moon visible in late night/morning. • Gets “less” and sets later each day.

  28. It’s 9 am. You look up in the sky and see a moon with half its face bright and half dark. What phase is it? • First quarter • Waxing gibbous • Third quarter • Half moon

  29. It’s 9 am. You look up in the sky and see a moon with half its face bright and half dark. What phase is it? • First quarter • Waxing gibbous • Third quarter • Half moon

  30. We see only one side of the Moon Synchronous rotation: The Moon rotates exactly once with each orbit. This is why only one side is visible from Earth.

  31. What causes eclipses? • The Earth and Moon cast shadows. • When either passes through the other’s shadow, we have an eclipse.

  32. When can eclipses occur? • Lunar eclipses can occur only at full moon. • Lunar eclipses can be penumbral, partial, or total.

  33. When can eclipses occur? • Solar eclipses can occur only at new moon. • Solar eclipses can be partial, total, or annular.

  34. Why don’t we have an eclipse at every new and full moon? • The Moon’s orbit is tilted 5° to ecliptic plane… • So we have about two eclipse seasons each year, with a lunar eclipse at full moon and solar eclipse at new moon.

  35. Another look…

  36. Summary: Two conditions must be met to have an eclipse… • It must be full moon (for a lunar eclipse) or new moon (for a solar eclipse). • The Moon must be at or near one of the two points in its orbit where it crosses the ecliptic plane (its nodes). AND

  37. Predicting Eclipses • Eclipses recur with the 18 yr, 11 1/3 day saros cycle, but type (e.g., partial, total) and location may vary.

  38. Ended After a Few More Slides (history of astro) Feb 5/08 (see class04)

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