6.6-8 Flashcards
Interstellar Gas Dynamics
what physics is considered and what types of gases are there?
Complex physics including:
- dynamical processes
- radiation processes
- gravity
with different kinds of gases like:
- diffuse gas (cold, warm, and hot)
- dense gas (molecular clouds and HII regions)
quite random on one hand, but maybe also a good summary, idk
Cooling and Heating Processes
Context: MW Galaxy
- Λ(T): Cooling increases strongly with T for T ≈ 100 K (CO lines) and T ≈ 10’000 K (nebular lines)
- Γ(r): Heating depends strongly on location relative to dominant radiation sources
Thermal Equilibrium
when is it stable / unstable?
- cooling equals heating (L = Λ - Γ = 0)
- stable for ∂L/∂T > 0
- unstable for ∂L/∂T < 0
Pressure Equilibrium
and values for different types of gas
Pressure equilibrium between different gas components is approximated by:
Pgas = n · k B · T
- Diffuse gas: n · T ≈ 109±1 m-3 K
- Dense gas: n · T ≈ 1012±2 m-3 K
Jeans Mass
numerical examples
Jeans mass for equilibrium:
Mcloud(T,rho bar) prop to T^3/2 / rhobar^1/2
- HI cloud: ≈ 2 · 104 M⊙
- Molecular cloud: ≈ 2 M⊙
Mcloud(T, rhobar) = [(375/4π)(1/2)] · [(kB · T)/(G · mH * mu)](3/2) · (1/rhobar)(1/2)
Star Formation
is influenced by:
Star formation is influenced by:
- Gravitational equilibrium
- Angular momentum
- Magnetic fields
- Star formation feedback
Molecular clouds collapse due to these factors.
Initial Mass Function
Stars are born with a universal mass distribution, described by:
dNS/dM ∝ M-2.35
for M > 0.5 M⊙.
-> lower mass stars far more numerous
Galactic Center Observations (3)
Observations of the Galactic center reveal:
- strong foreground dust extinction
- Central disk of HI and CO gas
- Supermassive black hole.
Size of a Black Hole
Schwarzschild Radius (r_S) for a black hole is estimated by:
rS = 2 · G · M / c2
(Size depends on the black hole’s mass.)
