Review Sheet: Test 2
Date of Exam: May 8, 2009

Version Date: May 2, 2009--I removed some information about stellar evolution. I will get somewhere in the STAR FORMATION section by the end of Wednesday. How far I get by the end of Wednesday determines the extent of the information which my be covered on the exam.

Material: Class notes, Web notes, and relevant parts of Chapters 16, 17, 18, 19. The class notes have the final say on things.
Formulas:

Blackbody Laws:

Wien's Law -- The wavelength at which a blackbody appears the brightest is inversely proportional to the temperature of the blackbody, i.e.,
W = 3x10⁷/T(K) Angstroms, or T = 3x10⁷/W K
where 1 Angstrom = 10^-8cm

Stefan-Boltzmann Law -- The power radiated per unit area from a blackbody is proportional to fourth power of the temperature, i.e.,

Flux = constant x T⁴

Flux from a star at distance, D:

Flux ~ Power / D²

Luminosity of a star of temperature T and radius R:
L = 12.6 R² T⁴

Lifetime of a Main Sequence Star with mass M > 0.7 Solar Masses:
lifetime = [M/(Mass of Sun)]^-310¹⁰ years

Old Test
Topics:
STELLAR PROPERTIES

What are Main Sequence Stars, giants (Red Giants), Super-Giants, Asymptotic Giant Branch (AGB) stars, white dwarfs, planetary nebulas, neutron stars?
What is the range of Main Sequence stars in terms of their mass?
What is the Mass-Luminosity relation? How can it be used to infer a scaling law for stellar lifetimes?
What kinds of stars are the most numerous? High or Low luminosity stars?
All stars on the Main Sequence must obey which two equilibrium laws?

Poperties of the Sun:

What is the Solar Activity Cycle?
What is meant by the Quiet Sun? What is meant by the active Sun?
Describe the appearance of the Quiet Sun and list its properties. What are the properties of the photosphere, the chromosphere, the corona? Why is the Corona hotter than the Photosphere? What is the transition region? What is granulation? What causes granulation?
What are sunspots? What are the umbra and the penumbra of a sunspot? How many times brighter is the surrounding Solar photosphere than the umbra of a sunspot? What are plages? How long do sunspots live, on average? What about sunspot groups?
What are quiescent and eruptive prominences? What is the Solar Wind? What are coronal holes? What are filaments? What are flares? How are flares classified? What are CMEs? What effects do flares and CMEs have on the Earth? What property of the Sun seems to unite all the phenomena of the Solar Activity Cycle? roughly, describe the mechanism which is though to drive the Solar Activity Cycle. The Sun is in differential rotation. What does this mean?
What is the period of the solar activity cycle? Is this the same as the period for the variation of the number of sunspots visible on the surface of the Sun? What is the Butterfly Diagram? What is the Maunder minimum? What is the significance of the Little Ice Age which struck Europe in the mid 1600s (in terms of Solar variability)? Roughly, how large is the variation of the Solar power (Solar constant) over a Sunspot cycle. Are there noticeable effects of this variation on the climate of the Earth?

Theoretical Properties of the Sun and Stars:

What are the different ways discussed in class that stars can generate energy? What is the most efficient way to generate energy of those mentioned in class? What mechanism is used by Main Sequence stars to generate energy? What physical concept underlies the famous Einstein result that E = mc²?
Nuclear Energy Generation--the conversion of 4 hydrogen nuclei into a helium nucleus + energy + other particles. What are neutrinos? Why is nuclear fusion so difficult (that is, what is the major impediment to fusion)?
What is the proton-proton cycle (pp-cycle)? What is the carbon-nitrogen-oxygen cycle (CNO cycle)?
How can fission and fusion both generate energy? In this context, why is iron such an important elemnet? Since fusion and fission can both generate energy, does it then follow that nuclear reactions are a source of unlimited energy?
What are the energy transport mechanisms used by stars? Which ones are the most important for the Sun?
What important role outside of energy transport does convection play in the observable properties of the Sun?
Why is qunatum mechanical tunneling important for stars? What is the Heisenberg Uncertainty Principle? Compare and contrast matter and anti-matter. What is annihilation? What is the matter/anti-matter asymmetry problem?
Main Seqeunce stars are in equilibrium; both mechanical equilibrium (hydrostatic equilibrium -- stars are not changing in size very quickly) and thermal equilibrium (the temperature structures of stars are not changing very quickly -- the energy losses due to radiation and particles from stars are roughly balanced by the energy production due to nuclear fusion reactions).

Hydrostatic Equilibrium -- We need to address what holds stars together (gravity), and to address what keeps stars from collapsing into dense balls (gas pressure).
Thermal Equilibrium --We need to address the energy source for stars and how stars lose energy.
Why are neutrinos so much useful as probes of the interior of the Sun than are photons (the light we receive from the Sun)? What other methods are used to probe the interior of the Sun? What was the Solar Neutrino Problem? How was the Solar Neutrino Problem resolved?

STAR FORMATION

Is star formation an ongoing process in our Galaxy? How do we deduce whether or not star formation is an ongoing process? Will the star formation process continue forever?
In which region of the Milky Way Galaxy does star formation occur? How do we deduce based on observations the locations of star formation in our Galaxy? What are the spiral arm tracers?
In what kind of Interstellar Medium (ISM) cloud does star formation occur? What are the properties of these clousd? Which objects are markers for the star formation process? For example, what kinds of ISM clouds are characteristicof star formation regions?
Describe the process of star formation--what triggers star formation? What force drives star formation?
What are the different components of the ISM? Which parts are important for star formation? What is dust? What are some reasons dust is important to astronomers? What blocks out the visual light from distant stars? Gas or dust? Explain why your answer is correct? Why is the setting Sun red? Why is the sky blue?
What is a protostar? At what point does a protostar become a star? What supplies the energy which allows a protostar to shine? What event signals the end of the protostar phase of evolution?
What is a Giant Molecular Cloud, a GMC?
Why do upper and lower limits for the masses of Main Sequence stars arise?

What is a brown dwarf?
What is degeneracy pressure? How does the pressure change as a degenerate gas is heated? as it is cooled?

Why stars have to evolve? Does the Sun (stars) evolve while they are on the Main Sequence? What formula relates the Main Sequence lifetime of a star to its mass? How long will a 50 solar mass main sequence star live? How long will a 0.1 solar mass main sequence star live?
What is nucleosynthesis? What is the most massive element made in normal stellar evolution? In what nuclear burning stage is the Sun?
What forms of energy transport are important for stars?