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250 light years

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Virgo cluster of galaxies. Such galaxies are oval in shape, have no discernible spiral ... Virgo is. small by comparison. The local 3 billion light years ... – PowerPoint PPT presentation

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Title: 250 light years


1
250 light years
About 250,000 stars lie within 250 light years
of the Earth. Beyond this distance it is
increasingly difficult to see stars in the plane
of the Milky Way Galaxy because of the presence
of dust. Only the 1500 brightest of these stars
are plotted. Most of them are visible to the
unaided eye. Note the presence of the Hyades
cluster.
lt 1500 stars are visible to the unaided eye.
More often its a few hundred.
2
The Hyades Open cluster of stars (151 light years)
This cluster of stars is only about 660 million
years old and is in the process of coming apart.
Stars like this are born from a giant cloud of
molecular gas, most of which is blown away by
the young stars.
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(about 200 in our Galaxy)
Globular Clusters
47 Tuc
M13
Second brightest globular cluster (behind Omega
Cen). There are about 200 globular clusters
altogether. This one is near the SMC in the sky
and about 20,000 ly distant. Lots of red
giants visible here.
This globular cluster in Hercules is 22,000 ly
distant and contains 105 106 stars. Age 12 to
14 billion years. It is about 150 light years
across.
4
The entire visible galaxy is about 80,000 light
years across. Note orbiting galaxy and globular
clusters
5
These other spiral galaxies are thought to look
very similar to our own Milky Way.
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Besides spiral galaxies like Andromeda
(2.2 Mly)
Similar to but somewhat larger and brighter than
the Milky Way (has about 250 globular clusters
and many orbiting dwarf ellipticals)
9
There are also Elliptical galaxies
For example, the massive elliptical galaxy M87
at the center of the Virgo cluster of galaxies.
Such galaxies are oval in shape, have no
discernible spiral structure, and little gas or
dust. Reddish in color. Very few new
stars being born. Elliptical galaxies come in
all sizes from just a little larger than
globular clusters to 10 times the mass of the
Milky Way. The most common kind of galaxy
nowadays are the dwarf ellipticals.
10
The SMC contains several hundred million stars
The LMC is the fourth largest galaxy in the
local group and contains about a million stars
11
The Local Group of Galaxies
(500,000 ly)
12
Fornax dwarf galaxy
450,000 ly distant, discovered in 1937 Age 3
to 10 billion years
Like most dwarf galaxies it doesnt look
very impressive. Contains only a few million
stars. Orbited by six globular clusters
13
The Local Group
The Local Group which contains three large
Galaxies and several dozen dwarf galaxies.
Probably not all the dwarf galaxies have been
discovered yet.
Scale About 1.5 million light years - 30
times the radius of the Milky Way
14
About 3 billion years in the future, our galaxy
and Andromeda will merge. Calculation by John
Dubinsky at CITA.
15
Galaxies collide .
The Antenna Galaxy is not one but two galaxies
in the process of merging. New generations of
stars are being born, even new globular
clusters, in the blue regions. Note also the
presence of a lot of dust.
16
Clusters of Galaxies
  • Rich clusters of galaxies
  • thousands of galaxies
  • concentrated toward the center
  • more ellipticals
  • hot gas
  • lots of mergers
  • Poor clusters of galaxies
  • just a few galaxies
  • ragged shapes
  • more spirals,
  • fewer ellipticals

17
Virgo Supercluster
The Local Supercluster
Scale about 40 million ly 30 times the radius
of the Local Group
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NeighboringSuperclusters
Radius one billion light years
Galaxies and clusters of galaxies collect into
vast streams, sheets and walls of galaxies
surrounding large voids with very few galaxies.
The map shows only about one fifteenth of the
diameter of the entire visible Universe.
19
One Billion Light Years
7 of the radius of the visible
universe 80 superclusters 160,000 galaxy
groups 3 million large galaxies 30 million dwarf
galaxies 500 million billion stars The nearest
really large supercluster is in Centaurus.
Virgo is small by comparison
20
The local 3 billion light years
The fact that there seem to be fewer galaxies
farther away in this picture is due to the
observational difficulty of measuring even
bright galaxies so far away. On the whole the
universe is homogeneous.
21
The Hubble Deep Field
This is a long exposure (3 weeks) of one
tiny field of view (about 1 arc minute) of a
dark portion of the sky within the
constellation Ursa Major (Big Dipper). Almost
every dot is a galaxy and most are located 5 to
10 billion light years away.
22
(a sketch)
Approximately 15 Billion Light Years
300,000 superclusters 1010 large galaxies
2000 billion billion stars
The end of the road ...
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Back to the stars
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Why stars are important
  • Necessary for life
  • Are most of the visible matter in the universe
  • In our Galaxy - 90 to 95 of the mass
    internal to the
    suns orbit
  • True stars (as opposed to any white dwarfs,
    neutron stars, brown dwarfs, etc.) are
    gravitationally confined thermonuclear
    reactors. They obtain their energy by
    nuclear reactions in their deep interiors.
    Because they radiate, they must make energy and
  • because they make energy, they must evolve.

25
Why stars are important (contd)
  • Stars have the unusual property that when they
    radiate they become hotter inside rather
    than cooler. The origin of this heat is the
    gravitational work that the star does on
    itself when it contracts.
  • By their fusion reactions, stars create new
    heavier elements from lighter ones and thus
    play an important role in the evolution of
    the composition of the
  • universe, and eventually of life.

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Brightest stars Nearest
Stars
Star name Apparent Star name
distance magnitude
(ly)
Sun -26.8 Sun
- Sirius
-1.46 Proxima
Centauri 4.2 Canopus -0.72
Alpha Centauri AB 4.3 Arcturus
-0.04 Barnards stars
6.0 Alpha Centauri -0.01 Wolf
359 7.7 Vega
0.00 BD 362147
8.2 Capella 0.08
Luyten 726-8AB 8.4 Rigel
0.12 Sirius A B
8.6 Procyon 0.38
Ross 154 9.4 Betelgeuse
0.41 Ross 248
10.4
most nearby stars are too faint to see without a
telescope
27
In a volume limited sample counting all stars
To 33 ly
Most stars are less luminous than the sun, only a
few are brighter.
28
Masses and luminosities
In binary star systems we can determine the
mass of the star. For stars thar are
spectroscopically main sequence the stars
luminosity is correlated with its mass.
e.g., 10 solar masses is between 103 and 104
times more luminous than the sun. 0.1 solar
masses is down by 103
29
Stellar Lifetimes
On the main sequence i.e., for stars fusing
hydrogen
in their centers
  • Luminosity is determined by mass
  • If we assume that the star has a total energy
    reservoir proportional to its mass (i.e., a
    certain fraction of its mass is burns by
    nuclear reactions).
  • Then the lifetime, t, is approximately given by

30
To summarize
  • There are many more faint stars than bright
    ones
  • Faint stars also have low mass
  • Low mass stars live a long time

The converse is also true
  • Bright (high luminosity) stars are rare
  • Bright stars are more massive (exception red
    giants)
  • Massive stars have short lives

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Stellar Populations
I
II
Mass
high and low
low Luminosity bright and faint
faint Color
blue and red
red Age lt age of
galaxy age of
galaxy v-perpendicular low
high Heavy elements
0.02
ltlt 0.01 Example sun
globular
cluster found
in disk found in halo and
bulge
33
Orion Nebula M-42
1600 light years away in the sword of Orion,
easily visible to the naked eye. 85 x 60 across
and part of a larger cloud spanning 20 degrees.
Diameter 30 ly, Mass 200,000 solar masses.
Star Nursary
34
Constellations
Orion Nebula
Betelgeuse and Rigel are a and b-Orionis
35
The Pleiades M45
A young cluster of stars with over 100 members, 6
to 9 of which are visible to the unaided eye
(depending on eyesight and viewing conditions.
The nebula is about 380 ly away and its members
are only about 60 80 My old. The blue color
is indicative of a Refection Nebula
36
NGC 3293
An open cluster near the Carina Nebula. These
stars are only about 5 million years old.
37
Stellar Evolution - very briefly
For stars lighter than about 8 solar masses...
38
A Planetary Nebula
NGC 2440
The star in the center is a white dwarf with one
of the highest known temperatures (200,000 K).
It is very young and about 250 times brighter
than the sun. Soon astronomically speaking
it will cool down and become faint.
39
The Ring Nebula M57
4100 light years distant, T 100,000 K
40
Globular Clusters - the old guys on the block
47 Tuc
M13
Second brightest globular cluster (behind Omega
Cen). There are about 200 globular clusters
altogether. This one is in the direction of the
SMC in the sky, but only about 20,000 ly
distant. Lots of red giants visible here.
This globular cluster in the constellation
Hercules is 22,000 ly distant and contains 105
106 stars. Age 12 to 14 billion years. It is
about 150 light years across.
41
For stars heavier than about 8 solar masses
42
For stars over 8 solar masses
43
The Crab Nebula M1
July 4, 1054 AD.
44
SN 1987A
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Black holes
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i.e., that fraction of the mass comprised of
elements heavier than helium
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