the milky way galaxy - george mason...
TRANSCRIPT
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The Milky Way Galaxy
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Guiding Questions
1. What is our Galaxy? How do astronomers know where we are located within it?
2. What is the shape and size of our Galaxy?3. How do we know that our Galaxy has spiral
arms?4. What is most of the Galaxy made of? Is it stars,
gas, dust, or something else?5. What is the nature of the spiral arms?6. What lies at the very center of our Galaxy?
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Interstellar dust obscures our view at visible wavelengths along lines of sight that lie in the plane of the galactic disk
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William Herschel maps out the distribution of stars and gets:
The sun The
“universe” of
Herschel
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William Parsons, 3rd Earl of Rosse, builds the “Leviathan of Parsonstown” - draws “spiral nebulae”
What were they?
Stars & planetary systems forming in our own “universe”?
Separate “island universes”?
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Henrietta Leavitt & the Cepheid P-L Relationship
Light curve of a Cepheid variable
Large & Small Magellaic Clouds Period versus magnitude of Cepheids in SMC
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H. Shapley maps distribution of Globular Star Clusters using “Cepheids”
(“where’s the mass centered?”)
We are NOT at the center.
What happened?
Globular cluster with variable stars
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“Dust Happened”At visible wavelengths, the center of our galaxy suffers ~ 30 mag of extinction by dust!! Even with big modern telescopes, we cannot see very far in the plane of our galaxy at visible wavelengths
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The Shapley-Curtis Debate (1920)
MWG MWG
ShapleyCurtis
The debate solved nothing!
Questions in science are not resolved by debates, but by observations & experiments
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Nature of the Spiral Nebulae and the Great Debate
Shapley
Novae brightnesses incompatible with M31 being as big as MWG
Rotation of M101
Curtis
Novae indicate a smaller MWG than Shapley’s
Galaxy proper motions undetected
Zones of avoidance in other systems
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1923 - Hubble Measures Distance to M 31 using
Cepheid Variables
100-inch Hooker Telescope, Mt. Wilson
Edwin Hubble
Debate OVER!Discovery of
Cepheids in M 31
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Star cluster is really HERE
But the extinction makes it fainter, so we would incorrectly think that it is HERE based on brightness measurements
Region with dust absorption: A mags
Ignoring the extinction due to dust will result in deriving a photometric distance that is too large by a factor of 10A/5!
Trumpler - 1929
Shapley’s MWG was too big for a couple of reasons:
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Using RR Lyrae stars & Type II Cepheids, thinking they are Type I, will make the distances appear larger
For a given apparent brightness, a higher L star must be more distant. Observed Type II’s, but used L’s of Type I’s.
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Other problems:
S Andromedae, a “nova” in the Andromeda Galaxy, was actually a supernova -with much higher L and hence distance
Proper motions in galaxies “measured” would require speeds greater than light if they were distant - these measurements turned out to be wrong!
Summary: Shapley’s MWG was too big, and his distances to the spiral nebulae too small
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Stellar Photometric Distances
For an apparent (observed) magnitude m, absolute magnitude M, and distance d in parsecs:
Without dust: m = M+5logd-5 and so d = 10(m-M+5)/5 pc
(reminder: m = Md=10pc )
With dust: m = M+5logd-5+A and d = 10(m-M-A+5)/5 pc
where A is the extinction by dust in magnitudes
(Note: sometimes astronomers use the “distance modulus” m-M = 5logd-5 to express the distance to some objects)
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This dilemma was resolved by observing parts of the Galaxy outside the disk
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Determining the distance and direction of the globular clusters gave us the Sun’s location
Our Sun lies within the galactic disk, some 8000 pc (26,000 ly) from the center of the Galaxy
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Observations at different wavelengths help reveal the shape of the Galaxy
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There are about 400 billion (4 × 1011) stars in the Galaxy
• Our Galaxy has a disk about 50 kpc (160,000 ly) in diameter and about 600 pc (2000 ly) thick, with a high concentration of interstellar dust and gas in the disk
• The Sun orbits around the center of the Galaxy at a speed of about 790,000 km/h
• It takes about 220 million years to complete one orbit
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• The galactic center is surrounded by a large distribution of stars called the central bulge
• This bulge is not perfectly symmetrical, but may have a bar
• The disk of the Galaxy is surrounded by a spherical distribution of globular clusters and old stars, called the galactic halo
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The spin-flip transition in hydrogen emits 21-cm radio waves
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• This is the same physical principle behind magnetic resonance imaging (MRI), an important diagnostic tool of modern medicine
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These emissions easily penetrate the intervening interstellar dust
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Spiral arms can be traced from the positions of clouds of atomic hydrogen
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OB associations, H II regions, and molecular clouds in the galactic disk outline huge spiral arms
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The rotation of our Galaxy reveals the presence of dark matter
From studies of the rotation of the Galaxy, astronomers estimate that the total mass of the Galaxy is about 1012
M
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Only about 10% of this mass is in the form of visible stars, gas, and dust
• The remaining 90% is in some nonvisible form, called dark matter, that extends beyond the edge of the luminous material in the Galaxy
• Our Galaxy’s dark matter may be a combination of MACHOs (dim, star-sized objects), massive neutrinos, and WIMPs (relatively massive subatomic particles)
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Spiral arms are caused by density waves that sweep around the Galaxy
• There are two leading theories of spiral structure in galaxies
• According to the density- wave theory, spiral arms are created by density waves that sweep around the Galaxy
• The gravitational field of this spiral pattern compresses the interstellar clouds through which it passes, thereby triggering the formation of the OB associations and H II regions that illuminate the spiral arms
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• According to the theory of self-propagating star formation, spiral arms are caused by the birth of stars over an extended region in a galaxy– Differential rotation of the galaxy stretches the
star forming region into an elongated arch of stars and nebulae.
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The innermost part of the Galaxy, or galactic nucleus, has been studied through its radio, infrared, and X-ray emissions (which are able to pass through interstellar dust)
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A strong radio source called Sagittarius A* is located at the galactic center
This marks the position of a supermassive black hole with a mass of about 3.7 × 106 M
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Jargon• central bulge (of a galaxy)• dark matter• density wave• disk (of a galaxy)• far-infrared• flocculent spiral galaxy• galactic nucleus• galaxy• globular cluster• grand-design spiral galaxy• H I• halo (of a galaxy)• high-velocity star• interstellar extinction• Local Bubble
• magnetic resonance imaging (MRI)• massive compact halo object (MACHO)• microlensing• Milky Way Galaxy• near-infrared• rotation curve• RR Lyrae variable• Sagittarius A*• self-propagating star formation• spin (of a particle)• spin-flip transition• spiral arm• 21-cm radio emission• weakly interacting massive particle
(WIMP)• winding dilemma