MIDTERM #2 THURSDAY APRIL 16, 2015 AST142 1. Black hole

MIDTERM #2 THURSDAY APRIL 16, 2015
AST142
1. Black hole Growth
The number of quasars per unit volume peaks at a redshift of about 2. This time is
thought to be the epoch of massive black hole growth.
How long would it take a 106 M black hole accreting at its Eddington luminosity to
increase to 109 M ? Assume the luminosity L = M˙ c2 where M˙ is the mass accretion
rate onto the black hole, c is the spead of light and an efficiency of = 0.1.
———————————Solution
38
LED = 1.3 × 10 erg s
−1
M
M
We set this equal to M˙ c2 and solve for the black hole mass as a function of time. Since
M˙ ∝ M the solution is an exponential.
1.3 × 1038 erg s−1
M˙
=
= 7.2 × 10−16 s−1
M
M c2
ts = M/M˙ = 4.5 × 107 years
M (t) = M (t = 0) exp(t/ts )
At t = 0 we have 106 M and at t later we have 109 M . The ratio of masses is 1000.
ln 1000 = 6.9 = t/ts
So the time is t = 6.9ts = 3 × 108 years.
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2. Correcting for Extinction
A standard interstellar dust extinction law is listed in Table 1.
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2 MIDTERM #2 THURSDAY APRIL 16, 2015
AST142
Table 1
Band
Wavelength A(λ)/AV
B
0.45 µm
1.29
V
0.55 µm
1.00
R
0.66 µm
0.75
J
1.2 µm
0.28
H
1.6 µm
0.19
K
2.2 µm
0.112
An F0 main sequence star has an absolute magnitude of MV = 2.7 and intrinsic color
(B − V )0 = 0.30. You observe an F0 main sequence star (with spectral type identified
spectroscopically) finding apparent magnitudes mV = 10.00 and mB = 10.56.
(a) What is the extinction AV for this star?
(b) What is the distance to this star?
————————————
Solutions
Corrected or intrinsic magnitudes
mV 0 = mV − AV
mB0 = mB − AB = mB − 1.29AV
giving
mB0 − mV 0 = (B − V )0 = 0.30
mB0 − mV 0 = mB − mV − (1.29 − 1)AV = 12.56 − 12.0 − 0.29AV = 0.56 − 0.29AV
Set these two together
0.30 = 0.56 − 0.29AV
0.26 = 0.29AV
AV = 0.26/0.29 = 0.90
And this gives
mV 0 = 10.00 − 0.90 = 9.10
and
mB0 = 10.56 − 0.90 × 1.29 = 9.40
Let’s check. The difference is 0.3 as we expected!
The observed V (corrected for extinction) is 9.10 and the absolute magnitude is 2.7.
The distance modulus is 6.3 giving a distance
d = 106.3/5 × 10 = 182pc
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MIDTERM #2 THURSDAY APRIL 16, 2015
AST142 3
3. Dark matter in the Coma Cluster
The Coma cluster is a nearby cluster of over 1000 galaxies. Zwicky measured the
radius of the Coma cluster to be about a Mpc and a radial velocity dispersion of about
vr2 ∼ 5 × 105 (km/s)2 .
a. Estimate the total mass in the cluster using the virial theorem.
b. Suppose the mean mass of each galaxy is 5×1010 M . What does your mass estimate
say about the dark matter fraction in the cluster? (Ignore the mass in X-ray emitting
gas in the intercluster medium).
——————————–
Solutions
Using the virial theorem kinetic energy is equal to twice the potential energy. And
there is a factor of 3 giving
6vr2 r0
= 7 × 1014 M
G
If each galaxy has 5 × 1010 M then we are still a factor of 10 low in accounting for the
matter in the cluster. Lots of dark matter. At 90%.
M=
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4. Short description
Discuss one of the following
a. Processes affecting galaxy morphology
b. Part of the astronomical distance ladder
c. Active Galactic nuclei (AGNs), their diversity and unification