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Introduction to Astronomy

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Title: PowerPoint Presentation Author: Julie A. Rathbun Last modified by: Julie A. Rathbun Created Date: 8/14/2001 6:19:29 PM Document presentation format – PowerPoint PPT presentation

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Title: Introduction to Astronomy


1
Introduction to Astronomy
  • Physics 103

Dr. Julie A Rathbun Dr. Tyler E Nordgren
2
Topics The Night Sky
3
from the Solar System
4
to the Stars
5
to the Milky Way
6
and to the Universe Beyond.
7
Our Goal
  • Understand
  • The sky above
  • Whats that bright red star to the south?
  • News reports
  • Scientists discover giant black hole.
  • Popular entertainment
  • Armageddon, Mission to Mars, etc
  • Learn how science works and how we know what we
    know.

8
Organization
  • Lecture one night a week for 3 hours
  • 2 lectures plus outdoor viewing
  • Lab one night a week (Wed. or Thurs.)
  • Meet in lab room about EVERY OTHER WEEK.
  • Check the Syllabus for exact dates!

9
How the Class Works
  • Combine 3 hour Lecture with outdoor viewing.
  • Homework assigned in Lecture.
  • Formal Labs about every other week.
  • Weeks without Lab we will assign small Observing
    projects.
  • Record ALL observations in an Observing Notebook.
  • 2 one-hour in-class exams.
  • One final.

10
Grading
  • Labs 18
  • Observing notebook 18
  • Homework assignments 18
  • 2 In-class exams 24
  • Final 22

11
The Sky What do YOU see?
  • A sphere of stars.
  • Are they spaced uniformly?
  • Do they move?
  • Do they move relative to each other?
  • Some do How do they move?
  • What are those two bright things (one of which is
    always up during the day)?
  • How do they move and change?

12
The Projected Sky
  • Stars are at different distances.
  • But we see them projected on to a plane.

13
A Sphere of Stars
  • We see the entire Universe projected on to a
    sphere.
  • The stars are scattered randomly on this sphere
    (except for the Milky Way).
  • In this randomness, we see pictures
    Constellations.

14
Constellations
15
As the World Turns
  • As the Earth turns on its axis, the stars (and
    everything else) move from east to west.
  • Only the North Star (Polaris) appears to stand
    still.
  • There is no Southern Star.

16
The Fixed Stars
  • The stars are fixed relative to one another.
  • The constellations you see today are the ones
    that ancient peoples saw long ago.
  • Over thousands to millions of years even these
    constellations will change as stars move through
    the galaxy.
  • On time scales of weeks to years, however, five
    stars are seen to move relative to the
    others.
  • The Wanderers the 5 naked-eye Planets.

17
Venus
18
The Sun and Zodiac
  • As the Earth orbits the Sun, the Sun appears to
    move through some constellations.
  • These constellations are the Zodiac.
  • The path the Sun follows is called the Ecliptic.
  • The Suns light always blots out the stars behind
    it.
  • Result Seasonal constellations.

19
Seasons
  • The North Pole of the Earth is not perpendicular
    to the plane in which it moves around the Sun.
  • The result is Seasons.
  • Northern Summer When the Northern hemisphere is
    tilted towards the Sun (Southern winter).
  • Northern Winter When the Northern hemisphere is
    pointed away from the Sun (Southern Summer).

20
Solstices, Equinoxes, Oh My.
  • Summer Solstice June 21 The longest day of the
    year. The Sun reaches its highest point in the
    sky.
  • Winter Solstice December 21 The shortest day
    of the year. The Sun is at its lowest.
  • Spring Equinox March 21 The days and nights
    are EQUAL.
  • Fall Equinox September 21 Its the same then
    too.

21
The Moon and Phases
  • The Moon takes 27.3 days to orbit the Earth.
  • The Moon takes 27.3 days to turn on its axis.
  • Result We always see the same face.
  • There is no dark side of the Moon.

22
Lunar Eclipse
  • Sometimes the Moon passes through the Earths
    shadow as cast by the Sun.

23
Composite photo of the January 2001 lunar eclipse.
24
Solar Eclipse
  • Sometimes the Moon passes between the Sun and the
    Earth (and casts a shadow on the Earth).

August 1999 eclipse. Photo from crew of Mir.
25
Composite photo of August 1999 solar eclipse.
26
Types of Solar Eclipses
  • Partial
  • Total
  • Annular

27
Angular Size
  • The Sun is a million times larger than the Earth.
  • The Moon is a fourth the size of the Earth.
  • The distance from the Earth determines their
    ANGULAR SIZE.
  • Angular size How big does something look as
    viewed from the Earth.

28
Angles
  • The sky is 360 arc degrees around.
  • 60 arcminutes 1 arc degree
  • The Full Moon is about half an arc degree
    30 arcminutes.
  • 60 arcseconds 1 arcminute
  • Mars is about 2 arcminutes now.
  • 1000 milliarcsecond 1 arcsecond
  • Polaris is 46 milliarcseconds in diameter
  • An astronaut on the Moon is 2 milliarcseconds
    tall!

29
Angular vs. Linear (True) Size
  • How big an object LOOKS from the Earth depends
    upon its TRUE size (Linear Size) and distance
    from Earth
  • Angle Linear Size / Distance

30
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