Post on 08-May-2022
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Lecture 32
The Milky Way Galaxy
January 15a, 2014
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Size of the Universe
• The Milky Way galaxy is very much larger
than the solar system, from which no man-
made object has ever fully escaped
(Voyagers 1 and 2 are getting close to
escaping)
• Powers of Ten interactive applet
• Original Powers of Ten video
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Galaxies
• Large collections of stars, dust and gas
• Held together by their gravity.
• Contain millions to billions of stars.
• Stars rotate around the center of the galaxy.
• Our galaxy is the Milky Way
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Structure of the Milky Way
• Hard to observe our Galaxy -- we are inside.
• William Herschel -- tried to find where Sun was
in the galaxy by counting stars
– Found same density of stars on all sides
– Concluded we are in the center.
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Dust Blocks Our View of the
Center of the Milky Way
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Shapley Uses Globular Clusters
to Find the Center
• Globular Clusters
often orbit outside
disk of MW.
• Shapley observed
them mainly on one
side of the sky.
• We are not at the
center of the galaxy. Figure 23.9,
Chaisson and McMillan,
6th ed. Astronomy Today,
© 2008 Pearson Prentice Hall
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Structure of the Milky Way
Figure 23.10,
Chaisson and McMillan,
6th ed. Astronomy Today,
© 2008 Pearson Prentice Hall
Astronomers deduce that the Milky Way is a
disk because they
A. see stars arranged in a circular pattern around the
north celestial pole.
B. see far more stars along the band of the Milky
Way than in other directions.
C. see a large, dark circle silhouetted against the
Milky Way in the Southern Hemisphere.
D. see the same number of stars in all directions in
the sky.
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Astronomers deduce that the Milky Way is a
disk because they
A. see stars arranged in a circular pattern around the
north celestial pole.
B. see far more stars along the band of the Milky
Way than in other directions.
C. see a large, dark circle silhouetted against the
Milky Way in the Southern Hemisphere.
D. see the same number of stars in all directions in
the sky.
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Components of the Milky Way
• Disk
– Young and
older stars.
– Much gas and
dust.
– Extends ~30
kpc in diameter
– Sun is midway
between center
and edge of the
disk.
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Motions of gas and stars • Disk
– Takes 225 million yrs for Sun to go about the center.
– Stars rotate differentially
• Takes different amounts of time for stars to get around the
center
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• Bulge
– Young and
older stars
– Gas and dust.
– At center of
disk.
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• Halo
– Mostly old
stars.
– Many stars in
globular
clusters
orbiting center.
– Little gas so no
new star
formation.
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• Halo and bulge
– Stars move in all
directions around
the center
Motions of Stars
Figure 23.13,
Chaisson and McMillan,
6th ed. Astronomy Today,
© 2008 Pearson Prentice Hall
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Edge-on Spiral Galaxy
Galaxy NGC 4565 Figure 23.3b,
Chaisson and McMillan, 6th ed. Astronomy Today,
© 2008 Pearson Prentice Hall
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Milky Way
Milky Way galaxy from our perspective and at visible wavelength of light
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Mapping the Structure of the
Milky Way
• Dust obscures our view of the galaxy
• Need to use radio and IR wavelengths of light
• 21 cm Emission Line
– Can observe neutral hydrogen (not ionized)
– The radio wavelength is not obscured by dust
– H very common in the universe
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• Hydrogen emits 21-cm light because of a
“spin-flip” transition.
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Milky Way Optical
Near - IR
21 - cm
Radio
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Distribution of Gas
• Much of the gas is
concentrated in arms
in the disk spiraling
around the center
Figure 15.18,
Arny and Schneider,
5th ed. Explorations, © 2008 The McGraw-Hill
Companies
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Spiral Structure in the Milky Way
A "God's view" map of Milky
Way as seen from far Galactic
North (in Coma Berenices).
The star-like lines center in a
yellow dot representing the
position of Sun. The spokes of
that "star" are marked with
constellation abbreviations,
"Cas" for "Cassiopeia", etc.
The spiral arms are colored
differently in order to highlight
what structure belongs to
which arm. HII regions are
marked as dots colored in the
same color as their spiral arm.
From Krisciunas and Yenne,
The Pictorial Atlas of the
Universe, p.145 (ISBN 1-
85422-025-X)
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Spiral Structure in the Milky Way Recent (2008) data from the
Spitzer Space Telescope
indicates our galaxy has a
large bar and perhaps only two
major arms with several minor
arms. Note in this diagram our
Sun is at the bottom. (NASA)
Our galaxy may therefore
resemble NGC 1365 (below),
click here for image info.
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Destruction of Spiral Structure
If the spiral arms consisted of matter moving together
with the stars, they would “wind up” and be
destroyed within a few rotations.
Figure 23.17, Chaisson and McMillan, 6th ed. Astronomy Today, © 2008 Pearson Prentice Hall
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Density Waves Form Spiral Arms
• Spiral structure may be caused by waves of
higher density.
• Same material is not always in the arm, just
temporarily compacted. (See Applet)
– Slinky
– Traffic on the highway
Slow moving car Density wave Lower density
Area
Lower density
Area
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Spiral Arm Formation
Figure 23.18,
Chaisson and McMillan,
6th ed. Astronomy Today,
© 2008 Pearson Prentice Hall
Density Wave Theory holds that the spiral
arms are waves of gas compression that
form stars as they go. In the painting at
right, gas enters an arm from behind, is
compressed, and forms stars. The inset
shows spiral galaxy NGC 1566.
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Spiral Arm Formation
• Stars form in arms
since they have higher
density.
• Recent star formation
indicated by some O
and B stars.
– Arms are bright, blue
regions
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Spiral Arm Formation
• Between arms, star
formation less recent,
less bright.
• Arms have only 5%
more stars than the
other area, but they
are all very luminous
(O and B spectral
types)
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Self-Propagating Star Formation
• Stars form in higher density area.
• Supernovae later on compress nearby areas, start
new star formation Figure 23.19,
Chaisson and McMillan,
6th ed. Astronomy Today,
© 2008 Pearson Prentice Hall
Radio waves of 21-cm wavelength originate from
which component of the interstellar medium?
Cool,
neutral .
..
Cool,
carb
on m...
Cold
, mole
cula
...
Hot,
ionize
d a...
25% 25%25%25%
0 of 78
90
A. Cool, neutral atomic hydrogen
B. Cool, carbon monoxide, CO
C. Cold, molecular hydrogen, H2
D. Hot, ionized atomic hydrogen
How can you tell the difference between a young
collection and an old collection of stars?
Colle
ctio
ns of y
oung sta
r...
Colle
ctio
ns of y
oung sta
r...
Colle
ctio
ns of y
oung sta
..
Colle
ctio
ns of y
oung sta
r...
0% 0%0%0%
A. Collections of young stars are redder.
B. Collections of young stars are darker.
C. Collections of young stars move faster.
D. Collections of young stars are bluer.
0 of 78
90
Astronomers think the Milky Way has spiral
arms because
A. they can see them unwinding along the celestial
equator.
B. radio maps show that gas clouds are distributed in
the disk with a spiral pattern.
C. young star clusters, HII regions, and associations
outline spiral arms.
D. globular clusters outline spiral arms.
E. Both (b) and (c) are correct.
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Astronomers think the Milky Way has spiral
arms because
A. they can see them unwinding along the celestial
equator.
B. radio maps show that gas clouds are distributed in
the disk with a spiral pattern.
C. young star clusters, HII regions, and associations
outline spiral arms.
D. globular clusters outline spiral arms.
E. Both (b) and (c) are correct.
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Two Populations
• A clue to the formation of the Milky Way
comes from two populations of stars
• Population II – old, contain few heavy
elements, follow steeply inclined orbits,
probably formed early from infalling gas
• Population I – younger, more heavy
elements, circular orbits in disk. Probably
formed after Milky Way got its overall
structure.
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Center of the Galaxy
• Center suspected to contain billions of stars
• Cannot observe center in visible light due to dust,
so we use IR and radio observations
• Bright source near center in radio - Sagittarius A*
• Probably a black hole at the center…
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Galactic Center Radio image of Galactic center.
~60 parsecs across
Filaments may be associated with
magnetic field.
Radio image of Galactic center
~7 parsecs across
Sagittarius A* at center.
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Black Hole at the Center
• Stars are orbiting center (Sagittarius A*) very quickly.
• Estimated 4.3 million solar masses contained in an area 0.30 AU across
• Likely black hole.
IR image of Galactic Center movie
A young, blue star moving along a circular
orbit in the disk of the Milky Way is a
A. Population I star
B. Population II star
C. Not enough information
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A young, blue star moving along a circular
orbit in the disk of the Milky Way is a
A. Population I star
B. Population II star
C. Not enough information
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