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Transcript 
Hubble Ultra Deep Field
Local Group – Scaled Universe
•  15 elliptical, 4 spiral & 13 irregular galaxies within a Megaparsec
•  Star 1mm diam spaced 1km apart: Jupiter is .1mm diam 5cm from sun
•  Then Milky Way (100,000ly) ~size of Earth
M31 & M33
•  Andromeda Galaxy would be
another Earth at distance of
Moon (2.5million light years)
Virgo Galaxy Cluster
•  A collection of galaxies held together by their
mutual gravitational attraction
•  At distance of Mars/Venus (60million light years)
Clusters of Galaxies
•  Coma=300million ly and
Hercules=500million lys
•  End of universe at orbit of
Uranus 13.8Billion light years
Dark Matter: A Galaxy’s Mass
1. Rotation Curve
•  The more massive the galaxy the faster it rotates
•  Mass comes from Newton’s/Kepler’s Law M X P2 = A3
Dark Matter: 2. Galaxy Orbits
•  Velocity of galaxies orbiting
each other depends on mass
•  Small galaxies orbiting
Andromeda Galaxy
•  Indicate lots of Dark Matter
Dark Matter:
3.Velocity Dispersion
•  Escape velocity of galaxies in Coma
Cluster depends on mass of cluster
•  Multiobject spectrograph measures
velocities of many galaxies at once
•  Cluster contains lots of Dark Matter
Dark Matter:
4.Gravitational Lensing by a Galaxy
•  Background galaxy lensed by mass of foreground galaxy
Dark Matter
5.Gravitaional
Lensing by a
Galaxy Cluster
•  Background spiral galaxy
lensed/ distorted by
foreground galaxy cluster
•  Gravitational lensing
measures mass of galaxy
cluster including Dark
Matter & stars etc.
Dark Matter:
6.Intracluster Gas
•  Hot (10million K) X-ray
emitting gas must move
with less than escape
velocity
•  Stars ~5%, Hot_gas~10%,
~90% of mass is dark
matter
Modified Newtonian Dynamics:MOND
•  Fix gravity and maybe dark
matter will go away??? No!
•  Clusters of galaxies colliding
with hot X-ray gas left behind
•  Dark matter as measured by
gravitational lensing goes thru
How Much Dark Matter?
•  ~90% of the matter in the
universe is Dark Matter
•  Galaxies are “White caps on
the waves of Dark Matter”
•  Dark Matter in Fornax
cluster
Galactic Collisions
•  Since average separation is ~20 times diameter of galaxies
•  Galaxy collisions must be frequent
Galactic
Cannibalism
NGC 1232
•  Stars are like fish in school
•  Star’s separation 107 times
star’s diameter so star
collisions will be very rare
Tidal Tails
•  Dark Matter in red &
stars in blue
•  Tidal tails form during
merger
Formation of Ring
Galaxy
•  Cartwheel
Galaxy formed
from a merger
of a galaxy
moving
perpendicular
to the disk
Andromeda & Milky Way Merger
•  Andromeda is approaching the Milky Way
•  Will impact in ~3 Billion years & merge in ~1billion years
•  Stars, planets (Earth) & Dark Matter pass by each other, but
gas clouds will collide and form new stars
Starburst Galaxy
•  Colliding Giant Molecular Clouds form lots of stars
•  Notice the OB stars, open clusters, H II regions, etc.
Multiple Nuclei - NGC 6230
•  Multiple nuclei indicate mergers
•  Central black holes will merge in ~a hundred million years
•  Binary supermassive black holes orbit in 100years, at
6000km/sec, at separation of 20,000AU’s
•  Even systems with 3 accreting black holes
Merging Black Holes
• 
• 
• 
• 
Galaxies merge
Galaxies have supermassive black holes in nucleus
Black Holes merge? Yes, according to Gezari & Liu 2015
They found one that will merge? within the next ~20 years?
Hercules Cluster of
Galaxies and
NGC1316
•  Small spiral
merges with
large elliptical
–dust to no dust
•  Gives random
orientation for
star’s orbits
•  Spiral’s disks
are fragile so
unlikely to have
had big mergers
Hierarchical Merging
•  So distant we look-back in time 10-13 billion years
•  More small blue irregular/spiral galaxies; fewer ellipticals
•  Merge into large elliptical galaxies we see today
Superclusters
•  Our Billion
light year
neighborhood
•  Shows the
clusters of
galaxies are
organized into
superclusters
Redshift Surveys
•  In the 1980’s Margaret Geller measured redshifts of
galaxies passing overhead and plotted them according to
distance and direction in space
•  Superclusters: clusters of clusters of galaxies
•  Voids: huge volumes of space with no galaxies
Voids & Superclusters
•  Galaxy distribution shows
large-scale structure
•  Like a sponge, beer bubbles
or soap bubbles
•  SLOAN great wall is a billion
light years long and a billion
light years from us
Which of the following statements is incorrect?
a)  The mass of a galaxy can be measured from its
rotation curve.
b)  More than 90% of the mass of the universe is dark
matter
c)  When Milky Way & Andromeda Galaxy merge,
GMC (Giant Molecular Clouds) will collide & lots
of new stars will form
d)  Galaxies are distributed around huge empty
volumes called voids
e)  All of these are correct
Hubble Deep Field Movie
•  342 pictures over 10 days
•  ~100 Billion Galaxies in sky
• 
• 
• 
• 
Dark Matter: A Galaxy’s Mass
Radio observations superimposed on DSS image of galaxy
Atomic hydrogen gas extends far beyond visible disc
From 21-cm line gas beyond disc it rotates rapidly
Galactic Halo of Dark Matter must be ~10 times size of
stellar disk ~ 100kpc radius
NGC5907
Lots of First Detections of Dark Matter
• 
• 
• 
• 
• 
CDMS2 in mine in Minnesota- maybe
Fermi Gamma-ray space telescope-maybe
PAMELA satellite- maybe
ATIC Antarctic balloon experiment maybe
DAMA/NaI - claims to have seen it
UltraLuminous IR Galaxies
• 
• 
• 
• 
ULIRG’s emit 100X Milky Way in IR
Thought to be multiple galaxies merging
Lots of dust masks bright stars
Supernovae blow away dust leaving elliptical galaxy(?)
Inner Part of M64 Rotates Backward
Abell 2667 Galaxy Cluster
•  Galaxy in upper left is moving through cluster and gas is being ram
stripped and forming trailing stars
•  On right is background lensed galaxy
Great Attractor
•  Local Group and Virgo cluster are falling into Great Attractor
•  Cluster 250 Million light years away hidden behind Milky Way dust
•  Maybe??
Local
Supercluster
Walls,
Filaments and
Voids
•  Observe redshift
•  Hubble law gives
distance
•  Galaxies distributed
like soap suds or a
sponge
Superclusters
Supermassive Black Holes / Bulge
•  A galaxy’s bulge seems to be related to the size of its
nuclear black hole so they must have formed together.
•  Why is the black hole 0.15% of the mass of the bulge?
Supermassive Black Holes in Galaxies
•  Zooming in on the center of NGC 1097
reveals a ring of dust and stars forming
around a very bright black hole
•  Red drawing of nucleus shows gas spiraling
into central black hole emitting jet.
Galactic Mass from Rotation Curve
• 
• 
• 
• 
Mass comes from Newton’s/Kepler’s Law M= A3 /P2
Or can use velocity and radius
Galaxy masses range from 50X Milky Way for Giant Ellipticals=1012
To a million solar masses for dwarf ellipticals/irregulars
Canis Major Dwarf Merges with
Milky Way
•  42,000 light years from
center of Milky Way
•  Mass is 1% of Milky Way
Galaxy
Galactic Collisions
in Abell 1185
•  Classified Galaxies
into Elliptical, Spiral,
Barred Spiral and
Irregular
•  Hubble Law
•  Galaxy masses from
rotation, cluster
motions, X-ray gas,
lenses = Dark Matter
•  Clusters
•  Mergers
Most distant galaxy cluster z=5.3
•  1.1 billion years
after Big Bang
Milky Way
Hubble Ultra Deep Field
•  Look Back time ranges from Aldebaran 100light
years to first galaxies 13Billion light years
•  100Billion galaxies
Galaxy
Cluster
Abell
1689
•  Very distant
rich cluster
of galaxies
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