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Scale of the Cosmos

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... stars that make up the constellations are not usually physically connected. ... On January 1st Sun is in the constellation Sagittarius. On March 1st in Aquarius ... – PowerPoint PPT presentation

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Title: Scale of the Cosmos


1
Scale of the Cosmos
  • Scientific Notation
  • Powers of Ten
  • Examples
  • 300 3.0 x 102
  • 3000 3.0 x 103
  • 0.03 3/100 3.0 x 10-2
  • Why do we need this?
  • Radius of the Earth 6378 km
  • Distance to the Sun 149,597,900 km
  • Mass of Earth 5.976 x 1024 kg
  • Mass of hydrogen atom 1.674 x 10-24 kg

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Some new terms
  • Light-Year distance light travels in one year
  • 9.46 x 1015 m
  • Note Distance velocity x time, so
  • Light-year speed of light x one year
  • Astronomical Unit average distance between the
    Earth and the Sun (1.5 x 1011 m)

3
A bit of an Overview
  • We Live
  • on a Planet Earth
  • Which is part of a Solar System
  • Including the Sun
  • Which is a Star
  • Part of a Galaxy
  • Of which there are billions!

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The Night Sky
  • Constellations star patterns, Orion, Scorpius
  • There are also asterisms like the Big Dipper
  • Used by ancient cultures
  • I.A.U. lists 88 official constellations
  • The stars that make up the constellations are not
    usually physically connected.
  • Within a constellation
  • Brightest star is alpha (a), next beta (ß)then
    numbers (1,2,) e.g. 47 Ursa Majoris

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MODELS
  • Scientific Models
  • A mental or mathematical conception
  • Useful for describing, or understanding how
    things work
  • Example the Celestial Sphere
  • Some terms zenith, nadir, celestial poles (North
    and South), celestial equator, horizon.
  • Need some math here
  • Circle 360 degrees
  • 1 degree 60 minutes of arc
  • 1 minute of arc 60 seconds of arc

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  • Angular distance as along the surface of a
    sphere
  • Angular diameter The Moons is 0.5 degrees
  • How do Earth longitude and latitude correspond to
    Celestial coordinates?
  • Washington, DC 39? north latitude
  • So, 39? N celestial latitude is directly
    overhead (at the zenith)
  • How far is the North Celestial Pole above the
    horizon?
  • How about the Celestial Equator (when facing due
    South?)

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  • Circumpolar does not go below horizon
  • At our latitude, stars with celestial latitudes
    from 51? to 90? are circumpolar
  • At the North Pole, stars from 0? to 90? are.
  • What about at the Equator?
  • Some other terms Celestial Latitude
    declination, Celestial longitude Right
    Ascension
  • Near the North Celestial Pole the North Star
    Polaris (also known as a Ursa Minoris)

15
Precession
  • The Earths axis is inclined 23.5? from vertical
    (actually relative to its direction of motion)
  • Due to the Earths equatorial bulge, plus the
    pull of the Moon and the Sun (more about gravity
    later) the axis precesses
  • Like a tilted spinning top
  • As a result, over time, the axis will trace a
    circle on the sky and you get different North
    Stars.

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Brightness of Stars
  • Magnitude Scale first used by Hipparchus (160
    127 B.C.)
  • 1st magnitude brightest
  • Then 2nd, 3rd .....5th
  • 6th magnitude is the faintest you can see with
    the naked eye
  • Each difference in magnitude is a factor of 2.512
    in Intensity, or
  • Intensity of Star A / Intensity of Star B
    2.512(magnitude of B magnitude of A)

20
  • What is Intensity ?
  • Light Energy that hits one square meter in one
    second
  • Sun has a magnitude of -26.5 (need negative
    numbers for objects brighter than 1st magnitude)
  • Faintest stars that can be detected with the
    Hubble Space Telescope magnitude of 28
  • What were using here is
  • Apparent Visual Magnitude
  • What do we mean by this?

21
Movement of Celestial Bodies
  • Rotation of a body about an axis
  • Revolution motion of a body around a point
    located outside the body
  • Example
  • The Earth (we now know) rotates on its axis once
    per day, while it revolves around the Sun once
    per year.

22
  • During a year, the Sun moves eastward against the
    background of the stars.
  • On January 1st Sun is in the constellation
    Sagittarius
  • On March 1st in Aquarius
  • The path of the Sun on the sky is called the
    Ecliptic
  • The Ecliptic is a great circle which means it
    bisects a sphere (the Celestial Sphere) through
    its center.
  • Note the Celestial Equator is another great
    circle
  • Why dont the Ecliptic and the Celestial lie
    right on top of each other?

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  • Since the Earths axis is tilted
  • Equinoxes where ecliptic crosses the equator
    (vernal and autumnal)
  • Solstices when the Suns at its most northern
    point summer solstice at most southern point
    winter solstice
  • declination of Sun is 00 at equinoxes
  • , or 23.50 at the solstices
  • Note equinox equal night
  • Solstice standing sun

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Seasons
  • The practical consequence of the Earths tilt
  • Different Seasons
  • Summer more daylight, less spreading of
    Sunlight (Sun is higher in the sky)
  • Which means greater Intensity
  • Note Hottest days occur after the summer
    solstice Why??

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  • Earth is closest to the Sun on Jan. 4
    perihelion
  • We are furthest from the Sun on July 4 aphelion
  • Why doesnt this have a bigger effect?
  • Difference is only a couple of
  • Other planets have more eccentric orbits, hence
    greater ranges in the intensity of the Sunlight

31
Climate
  • Climate has changed over time,
  • For example there have been ice ages currently
    the Earth appears to be warming
  • Milankovitch hypothesis the climate is affected
    by orbit, precession, and inclination
  • Note the inclination varies from 220 to 240 over
    a period of 41,000 years

32
  • Proof? Ocean temperatures, based on seafloor
    samples show correlation with orbital and
    rotational variations
  • But. Devils Hole, Nevada a deep, water-filled
    crack, showed evidence that the end of the last
    ice was 1000s of years too early
  • Explanation Devils Hole shows evidence of local
    climate change seafloor shows effects of global
    change
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