Other galaxies Stars rarely collide… Stars rarely collide… But galaxies do… But galaxies do…...
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Transcript of Other galaxies Stars rarely collide… Stars rarely collide… But galaxies do… But galaxies do…...
Other galaxies
Stars rarely collide…Stars rarely collide…
But galaxies do…But galaxies do…
(observations !)(observations !)
Other Galaxies
galaxy mergersgalaxy mergers
(computer simulation !)(computer simulation !)
Other galaxies
Do other galaxies also contain supermassive Do other galaxies also contain supermassive black holes ? black holes ? YES !YES !
Similar to accretion Similar to accretion
disk-jet connection in disk-jet connection in
young stellar objectsyoung stellar objects
Going to larger scales:
•Many galaxies are in Many galaxies are in clustersclusters (“group”= small cluster)(“group”= small cluster)
• Local groupLocal group: : - - small cluster containing the milky waysmall cluster containing the milky way - about 20 galaxies within a cubic parsec- about 20 galaxies within a cubic parsec - 3 spirals: Milky Way, Andromeda - 3 spirals: Milky Way, Andromeda (“M31”),(“M31”),
M33M33 - 4 irregulars: MW-satellites - 4 irregulars: MW-satellites SmallSmall and and LargeLarge Magellanic CloudsMagellanic Clouds - several dwarf ellipticals- several dwarf ellipticals
•Virgo ClusterVirgo Cluster: - nearest rich cluster: - nearest rich cluster - about 2500 galaxies- about 2500 galaxies - distance about 15 Mpc- distance about 15 Mpc
Virgo Cluster
Midterm exam:
• datedate: May 11, 2005, 8:15 a.m.: May 11, 2005, 8:15 a.m.• locationlocation: Conrad Naber Hall: Conrad Naber Hall• bring bring pocket calculatorpocket calculator• NO text books, notes laptops etc.NO text books, notes laptops etc.• do NOT bring your own paperdo NOT bring your own paper• write on exam sheets directlywrite on exam sheets directly
astrophysicsastrophysics
Spacephysics: Spacephysics: see web sitesee web site
Cosmology
Ancient Mythology and Modern Ancient Mythology and Modern Cosmology:Cosmology:
Is there a/Where is the difference ?Is there a/Where is the difference ?
Example of a creation Story:The Christian/Jewish View
Genesis: Genesis: In the beginning God created the heavens In the beginning God created the heavens and the earth. And the earth was waste and void; and the earth. And the earth was waste and void; and darkness was upon the face of the deep …and darkness was upon the face of the deep …
Common Concepts:
Action of a supreme craftsmanAction of a supreme craftsman Generation from a seedling/eggGeneration from a seedling/egg Imposition of order over “chaos”Imposition of order over “chaos” Life cycle dominates over Life cycle dominates over
eternal/unchanging: there is a beginningeternal/unchanging: there is a beginning Hybrid schemes: act of creation, but Hybrid schemes: act of creation, but
supreme being/chaos existed foreversupreme being/chaos existed forever
Scientific “Creation” Story 2005:
In the beginning there was neither space nor time In the beginning there was neither space nor time as we know them, but a shifting foam of strings as we know them, but a shifting foam of strings and loops, as small as anything can be. Within the and loops, as small as anything can be. Within the foam, all of space, time and energy mingled in a foam, all of space, time and energy mingled in a grand unification. But the foam expanded and grand unification. But the foam expanded and cooled. And then there was gravity, and space and cooled. And then there was gravity, and space and time, and a universe formed. …time, and a universe formed. …
Is there a difference ?Is there a difference ?
The Scientific Method
specific instancesspecific instances
observationsobservations
inductioninduction
general principlegeneral principle
deductiondeduction
predictionprediction
individual eventsindividual events
revisionrevision
Sir Isaac Newton:(1643-1727)
Cosmology as a Science
• Mathematical description Mathematical description of the Universeof the Universe
• The same physical lawsThe same physical laws apply to earth and Universeapply to earth and Universe
Newton: Fundamental contributions
•MathematicsMathematics: - series expansions: - series expansions - differential calculus- differential calculus - approximation methods- approximation methods - …- …• OpticsOptics: - spectral analysis of white light: - spectral analysis of white light• PhysicsPhysics: - ‘Principia mathematica…’: - ‘Principia mathematica…’• AstronomyAstronomy: - : - derive derive Kepler’s laws from Kepler’s laws from gravitational forcesgravitational forces• … …....
A toy universe
According to Newton, what is going to happen ?According to Newton, what is going to happen ? The model Universe is going to collapse under The model Universe is going to collapse under
its own gravityits own gravity
boundaryboundary
constant densityconstant density
(homogeneous)(homogeneous)
Newton’s Conclusion:
In order to avoid collapseIn order to avoid collapse homogeneoushomogeneous isotropicisotropic infinite sizeinfinite size no centerno center
infinite in timeinfinite in time has always beenhas always been will always bewill always be
perfect cosmological principleperfect cosmological principle
The perfect cosmological principle homogeneous: homogeneous: the universe looks the same the universe looks the same
everywhere on large scaleseverywhere on large scales there is no special place (center) there is no special place (center)
isotropic:isotropic: the universe looks the same in all the universe looks the same in all
directions on the skydirections on the sky there is no special direction (axis) there is no special direction (axis)
unchanging: unchanging: The universe looks the same atThe universe looks the same at
all timesall times there is no special epoch there is no special epoch
Olber’s Paradox
• If the universe is i) If the universe is i) eternaleternal ii) ii) (more or less)(more or less) uniformly filleduniformly filled with stars with stars iii) iii) infiniteinfinite
• then there is a star along each line of sightthen there is a star along each line of sight
so: so: Why is the night sky dark ?Why is the night sky dark ?
Shell of radius rShell of radius r11::
Surface: SSurface: S11=4=4 r r1122
Volume: VVolume: V11=4=4 r r1122xx
# of stars: N# of stars: N11= 4= 4 r r1122xx
luminosity per star: lluminosity per star: l**
luminosity of shell:luminosity of shell:
LL11 = 4 = 4 r r1122x lx l**
Shell of radius rShell of radius r2 2 = 2r= 2r1 1 ::
Surface: SSurface: S22=4=4 (2r (2r11))22
Volume: VVolume: V22=4=4 (2r (2r11))22xx
# of stars: N# of stars: N22= 4= 4 (2r (2r11))22xx
luminosity per star: lluminosity per star: l**/4/4
luminosity of shell:luminosity of shell:
LL22 = 4 = 4 (2r (2r11))22x lx l**/4/4
= 4= 4 r r1122x lx l* * = L= L11
Shell of radius rShell of radius r3 3 = 4r= 4r1 1 ::
Surface: SSurface: S33=4=4 (4r (4r11))22
Volume: VVolume: V33=4=4 (4r (4r11))22xx
# of stars: N# of stars: N33= 4= 4 (4r (4r11))22xx
luminosity per star: lluminosity per star: l**/16/16
luminosity of shell:luminosity of shell:
LL33 = 4 = 4 (4r (4r11))22x lx l**/16/16
= 4= 4 r r1122x lx l* * = L= L11
Problems with an infinite universe Olber’s Paradox: Why is the night sky Olber’s Paradox: Why is the night sky
dark?dark?
Olber’s Paradox:
Each shell contributesEach shell contributes
LL11 = 4 = 4 r r1122x lx l**
infinite number of shellsinfinite number of shells
infinite luminosityinfinite luminosity
(at least) one of the (at least) one of the assumptions must be wrong !assumptions must be wrong !
How to solve Olber’s paradox ?
Universe is finiteUniverse is finite Universe has finite ageUniverse has finite age The distribution of stars throughout space is The distribution of stars throughout space is
not uniformnot uniform The wavelength of radiation increases with The wavelength of radiation increases with
timetime
Note:Note: for the big bang model, all thesefor the big bang model, all these conditions are satisfied conditions are satisfied
Einstein:• speed of light = constspeed of light = const relativity of relativity of simultaneity,simultaneity, special relativityspecial relativity
• general relativity: general relativity: space-time is curvedspace-time is curved
• prediction of prediction of black holesblack holes• prediction of prediction of gravitational wavesgravitational waves
Einstein• Universe Universe has to be static!has to be static!• only possible if extra-term is included in only possible if extra-term is included in equations to counter-balance attractionequations to counter-balance attraction cosmological constantcosmological constant
• Einstein’s Einstein’s “biggest blunder”“biggest blunder”
Edwin Hubble (1889-1953)Four major accomplishments Four major accomplishments in extragalactic astronomyin extragalactic astronomy The establishment of the The establishment of the
Hubble classification Hubble classification scheme of galaxiesscheme of galaxies
The convincing proof that galaxies are island The convincing proof that galaxies are island “universes”“universes”
The distribution of galaxies in spaceThe distribution of galaxies in space The discovery thatThe discovery that the universe is expanding the universe is expanding
Doppler effect (for light)
The light of an approaching source is shifted to the The light of an approaching source is shifted to the blue, the light of a receding source is shifted to the blue, the light of a receding source is shifted to the redred
Doppler effect
red shiftred shiftblue shiftblue shift
The light of an approaching source is shifted to the blue, The light of an approaching source is shifted to the blue,
the light of a receding source is shifted to the red.the light of a receding source is shifted to the red.
Doppler effect
redshift:redshift:
zz=0: not moving=0: not moving
zz=2: =2: vv=0.8=0.8cc
zz==: : vv==cc
em
emobsz
em
emobsz
The redshift-distance relation
Key results Most Most galaxiesgalaxies are moving are moving away from usaway from us The recession The recession speed vspeed v is is larger for more distant larger for more distant
galaxiesgalaxies. The relation between recess velocity. The relation between recess velocity vv and distanceand distance dd fulfills a linear relation: fulfills a linear relation: v = Hv = H0 0 d d
Hubble’s measurement of the constantHubble’s measurement of the constant HH00::
HH00 = 500 km/s/Mpc = 500 km/s/Mpc
today’s best fit value of the constant:today’s best fit value of the constant: HH00 = 71 km/s/Mpc = 71 km/s/Mpc (WMAP)(WMAP)
Question:If all galaxies are moving away from us,If all galaxies are moving away from us,
does this imply that we are at the center?does this imply that we are at the center?
Answer:Not necessarily, it also can indicate that the Not necessarily, it also can indicate that the universe is expanding and that we are at no universe is expanding and that we are at no special place.special place.
Einstein’s General Relativity +Einstein’s General Relativity +observation of expanding Universe:observation of expanding Universe:
Universe started from a point:Universe started from a point:
““Big Bang Model”Big Bang Model”
Big Bang Model
Big Bang in a nutshell:
Cosmological redshift
While a photon travels from a distant source While a photon travels from a distant source to an observer on Earth, the Universe to an observer on Earth, the Universe expands in size fromexpands in size from RRthenthen toto RRnownow..
Not only the Universe itself expands, but Not only the Universe itself expands, but also the wavelength of the photonalso the wavelength of the photon ..
emittedthen
nowreceived R
R emittedthen
nowreceived R
R
Cosmological redshift
General definition of redshift:General definition of redshift:
for cosmological redshift: for cosmological redshift:
emitted
emittedreceivedz
emitted
emittedreceivedz
then
now
emitted
received
R
Rz
1then
now
emitted
received
R
Rz
1
A large redshift z implies ...
The spectrum is strongly shifted toward red The spectrum is strongly shifted toward red or even infrared colorsor even infrared colors
The object is very far awayThe object is very far away We see the object at an epoch when the We see the object at an epoch when the
universe was much younger than the universe was much younger than the present day universepresent day universe
most distant astrophysical object discovered most distant astrophysical object discovered so far: z=5.8so far: z=5.8
z>5.8: “dark ages”z>5.8: “dark ages”
Are there any indications that this picture is correct?
Yes !Yes !
Primordial NucleosynthesisPrimordial Nucleosynthesis
Cosmic Microwave backgroundCosmic Microwave background
Primordial NucleosynthesisGeorgy Gamov (1904-1968)
If the universe is expanding, then If the universe is expanding, then there has been a big bangthere has been a big bang
Therefore, the early universe must Therefore, the early universe must have been very dense and hothave been very dense and hot
Optimum environment to breed the elements by Optimum environment to breed the elements by nuclear fusion (Alpher, Bethe & Gamow, 1948)nuclear fusion (Alpher, Bethe & Gamow, 1948) success: predicted that helium abundance is 25%success: predicted that helium abundance is 25% failure: could not reproduce elements more massive failure: could not reproduce elements more massive
than lithium and beryllium (than lithium and beryllium ( formed in stars) formed in stars)
The Cosmic Microwave Background (CMB)
Last scattering surface transparenttransparent
opaqueopaque
Penzias and Wilson 1965
Working at Bell labsWorking at Bell labs Used a satellite dish to measure radio Used a satellite dish to measure radio
emission of the Milky Wayemission of the Milky Way They found some extra noise in the They found some extra noise in the
receiver, but couldn’t explain itreceiver, but couldn’t explain it discovery of the background radiation discovery of the background radiation
Most significant cosmological observation Most significant cosmological observation since Hubblesince Hubble
Nobel prize for physics 1978Nobel prize for physics 1978
The cosmic microwave background radiation (CMB)
Temperature of Temperature of 2.728±0.004 K2.728±0.004 K
isotropic to isotropic to 1 part in 100 0001 part in 100 000
perfect black bodyperfect black body 1990ies: CMB is 1990ies: CMB is
one of the major tools to study cosmologyone of the major tools to study cosmology Note: ~1% of the noise in your TV is from Note: ~1% of the noise in your TV is from
the big bangthe big bang
More results from the CMB
The Earth is moving The Earth is moving with respect to the with respect to the CMB CMB Doppler shift Doppler shift
The emission of the The emission of the GalaxyGalaxy
Fluctuations in the Fluctuations in the CMBCMB
•Fluctuations in CMB responsible for structure formation in the universe
Cosmic Structure formation
New developments:Science discovery of the year 1998
qq00 = 0 = 0qq00 = 0.5 = 0.5
more distantmore distant
fain
ter
fain
ter
Data indicates:Data indicates:
qq00 < 0 < 0
Expansion Expansion
is acceleratingis accelerating
From Supernova observations:
The expansion of the universe is The expansion of the universe is accelerating !!!accelerating !!!
But gravity is always attractive, so it only But gravity is always attractive, so it only can deceleratecan decelerate
Revival of the cosmological constant Revival of the cosmological constant
k=+1
=0
>0
The fate of the Universe for >0
Wilkinson Microwave Anisotropy Probe (WMAP) (2003)
COBE COBE (1992)(1992) WMAP WMAP (2003)(2003)
Summary of most important results of
WMAP
• Age of the UniverseAge of the Universe: : 13.7 billion13.7 billion years years• First starsFirst stars: : 200 million200 million years years after Big Bangafter Big Bang• CMBCMB: decoupled : decoupled 379 000379 000 years years after Big Bangafter Big Bang• Hubble constant: Hubble constant: HH00= 71 (km/s)/Mpc= 71 (km/s)/Mpc• Content of the UniverseContent of the Universe:: - - 4% Atoms4% Atoms - - 23 % cold, dark matter23 % cold, dark matter -- 73 % ‘Dark Energy’ 73 % ‘Dark Energy’