Spring 2021 ASTR 3740 Homepage
Spring 2021 ASTR 3740 Final Review
This Final review sheet is posted at
http://jila.colorado.edu/~ajsh/courses/astr3740_21/review_final.html
The final will be a take-home, 5-hour, open-book, open-internet exam.
It will be published on canvas in the morning of Saturday May 1.
You have at most 5 consecutive hours to complete it.
Do not collaborate.
The final will test all the material covered cumulatively
during the semester,
but with an emphasis on the material covered since
Spring Break, that is, on Cosmology.
Review the review sheets for the midterms
to brush up on Special Relativity and General Relativity.
There are 21 short answer questions at 4 points each.
You should write 2 out of 4 essays at 8 points each.
The total is 100 points.
Review Questions
-
Hubble expansion
- Hubble law
- Hubble parameter H, Hubble constant H0
- redshift
- distances
- Cepheid variables
- Type Ia supernovae
-
Geometry
- Cosmological Principle
- Closed, flat, open
- Omega: Ω ≡ ρ/ρcrit
- Horizon
- Hubble distance c/H
-
FLRW (Friedmann-Lemaître-Robertson-Walter) metric
- embedding diagram
- comoving coordinates
- cosmic scale factor a
- curvature constant κ
-
Friedmann equations
- = Einstein equations for FLRW metric
- Newtonian derivation
- relate curvature and energy density
- determine evolution of cosmic scale factor
-
Matter, radiation, vacuum
- mean, in a cosmological context?
- equation of state p/ρ for each species of energy-momentum
- deceleration, acceleration
- evolution of the horizon
- wavelength λ ∝ a ∝ 1/T
- redshift z of an epoch: 1 + z ≡ λobs/λemit ∝ 1/a
- which species dominated when?
-
Cosmic Microwave Background (CMB)
- Observed:
- blackbody spectrum with T = 2.725 K
- dipole from our motion through it
- after subtraction of constant and dipole, uniform to few × 10−5 on the sky
- power spectrum of fluctuations
- Theory:
- comes from the epoch of Recombination
- ⇒ Universe was simple! — uniform, and in thermodynamic equilibrium
- before Recombination: ionized; opaque; baryons coupled to photons
- sound waves in the photon-baryon fluid, generated during inflation ⇒ peaks in CMB power spectrum
- after Recombination: neutral; transparent; baryons fall into CDM potential wells
- Observed power spectrum fits inflationary model with just 6 parameters:
- Hubble parameter today H0 = 67 km/s/Mpc
- Omega in Dark Energy (Λ), non-baryonic Cold Dark Matter, and baryons: ΩΛ = 0.69, ΩCDM = 0.26, Ωb = 0.05
- Amplitude A and spectral index n of the noise spectrum of vacuum fluctuations in the vacuum energy that drove inflation
-
Inflation
- what is it?
- Offers a solution to:
- horizon problem
- flatness problem
- why the Universe is expanding
- the origin of matter and radiation
- the origin of flucutations in the Universe
- Generically predicts:
- almost flat Universe
- scale-invariant initial fluctuation spectrum
- causal acoustic peaks in CMB power
-
Dark Energy (Λ)
- Observational evidence:
- Hubble diagram of high redshift Type Ia supernovae
- CMB
- ΩΛ = 0.7
- What is it? No one really knows. Vacuum energy (of what)? Something else?
-
Dark Matter
- Non-baryonic Cold Dark Matter (CDM):
- solves the isotropy problem
(how can the tiny fluctuations in the CMB grow into observed galaxies in only the age of the Universe)
- required by CMB power spectrum
- ΩCDM = 0.26
- Dark Matter, baryonic or non-baryonic
- shows up in rotation curves of spiral galaxies
- ubiquitous in galaxy clusters
-
Primordial Nucleosynthesis (NOT DONE)
- produces the light elements H, D, 3He, 4He, Li
- reproduces the observed abundances provided that
Ωb ≈ 0.05
-
What happened in the beginning?
Updated 2021 Apr 26