Lecture 19 The Interstellar Medium The Stuff Between The Stars.
The Formation of Stars Chapter 11. Previous chapters have used the basic principles of physics as a...
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Transcript of The Formation of Stars Chapter 11. Previous chapters have used the basic principles of physics as a...
![Page 1: The Formation of Stars Chapter 11. Previous chapters have used the basic principles of physics as a way to deduce things about stars and the interstellar.](https://reader037.fdocuments.us/reader037/viewer/2022102900/5517a7055503463e368b5cc6/html5/thumbnails/1.jpg)
The Formation of StarsChapter 11
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Previous chapters have used the basic principles of physics as a way to deduce things about stars and the interstellar medium. All of the data we have amassed will now help us understand the life stories of the stars in this chapter and those that follow.
In this chapter, we use the laws of physics in a new way. We develop theories and models based on physics that help us understand how stars work. For instance, what stops a contracting star and gives it stability? We can understand this phenomenon because we understand some of the basic laws of physics.
Throughout this chapter and the chapters that follow, we search for evidence. What observational facts confirm or contradict our theories? That is the basis of all science, and it must be part of any critical analysis of what we know and how we know it.
Guidepost
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I. Making Stars from the Interstellar MediumA. Star Birth in Giant Molecular CloudsB. Heating By ContractionC. ProtostarsD. Evidence of Star Formation
II. The Source of Stellar EnergyA. A Review of the Proton-Proton ChainB. The CNO Cycle
III. Stellar StructureA. Energy TransportB. What Supports the Sun?C. Inside StarsD. The Pressure-Temperature Thermostat
Outline
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IV. The Orion NebulaA. Evidence of Young Stars
Outline (continued)
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The Life Cycle of StarsDense, dark clouds, possibly forming stars in the future
Young stars, still in their birth
nebulae
Aging supergiant
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Giant Molecular Clouds
VisibleInfrared
Barnard 68
Star formation from the collapse of the cores of giant molecular clouds: dark, cold, dense clouds obscuring the light of stars behind them.
(More transparent in infrared light.)
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Parameters of Giant Molecular Clouds
Size: r ~ 50 pcMass: > 100,000 Msun
Dense cores:
Temp.: a few 0K
R ~ 0.1 pcM ~ 1 Msun
Much too cold and too low density to ignite thermonuclear processes
Clouds need to contract and heat up in order to form stars.
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Contraction of Giant Molecular Cloud Cores
• Thermal Energy (pressure)• Magnetic Fields• Rotation (angular momentum)
External trigger required to initiate the collapse of clouds
to form stars.
Horse Head Nebula
• Turbulence
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Shocks Triggering Star Formation
Globules are sites where stars are being born right now!
Trifid Nebula
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Sources of Shock Waves Triggering Star Formation (1)
Previous star formation can trigger further star formation through:
a) Shocks from supernovae
(explosions of massive stars):
Massive stars die young.
Supernovae tend to happen
near sites of recent star
formation
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Sources of Shock Waves Triggering Star Formation (2)
Previous star formation can trigger further star formation through: b) Ionization
fronts of hot, massive O or B
stars which produce a lot of
UV radiation:
Massive stars die young. O and B stars only exist
near sites of recent star
formation
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Sources of Shock Waves Triggering Star Formation (3)
Giant molecular clouds are very large and may occasionally
collide with each other
c) Collisions of giant
molecular clouds.
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Sources of Shock Waves Triggering Star Formation (4)
d) Spiral arms in galaxies like our Milky Way:
Spirals’ arms are probably
rotating shock wave patterns.
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Protostars
Protostars = pre-birth state of stars:
Hydrogen to Helium fusion
not yet ignited
Still enshrouded in opaque “cocoons” of dust, so barely visible in the optical, but bright in the infrared.
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Heating By Contraction
As a protostar contracts, it heats up:
Free-fall contraction→ Heating
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Protostellar Disks
Conservation of angular momentum leads to the formation of protostellar disks – the birth place of planets and moons
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Protostellar Disks and Jets – Herbig Haro Objects
Disks of matter accreted onto the protostar (“accretion disks”) often lead to the formation of jets (directed outflows; bipolar outflows): Herbig Haro Objects
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Protostellar Disks and Jets – Herbig Haro Objects (2)
Herbig Haro Object HH34
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Protostellar Disks and Jets – Herbig Haro Objects (3)
Herbig Haro Object HH30
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From Protostars to Stars
Ignition of hydrogen (H)
to helium (He) fusion processes
Star emerges from the
enshrouding dust cocoon
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Evidence of Star Formation
Nebula around S Monocerotis:
Contains many massive, very young stars,
including T Tauri Stars: strongly variable; bright
in the infrared.
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Evidence of Star Formation (2)
The Cone Nebula
Optical Infrared
Young, very massive star
Smaller, sunlike stars,
probably formed under
the influence
of the massive
star
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Evidence of Star Formation (3)
Star Forming Region RCW 38
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Globules
about 10 to 1000 solar masses;
Contracting to form protostars
Bok Globules:
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Globules (2)Evaporating Gaseous Globules (“EGGs”) are newly forming stars exposed by the ionizing radiation from nearby massive stars
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Open Clusters of Stars
Large masses of Giant Molecular Clouds means stars do not form isolated, but in large groups, called Open Clusters of Stars.
Open Cluster M7
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Open Clusters of Stars (2)
Large, dense cluster of (yellow and red) stars in the foreground; about 50 million years old.
Scattered individual (bright, white) stars in the background; only about 4 million years old.
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The Source of Stellar Energy
In the sun, this happens primarily through the proton-proton (PP) chain
Recall from our discussion of the sun:
Stars produce energy by nuclear fusion of hydrogen into helium.
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The CNO Cycle
In stars slightly more massive than the sun, a more powerful
energy generation mechanism than
the PP chain takes over:
The CNO Cycle.
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Energy TransportEnergy generated in the star’s center must be transported to the surface.
Inner layers:
Radiative energy transport
Outer layers (including photosphere):
Convection
Bubbles of hot gas rising up
Cool gas sinking downGas particles
of solar interiorg-rays
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Conduction, Convection, and Radiation
(SLIDESHOW MODE ONLY)
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Stellar Structure
Temperature, density and pressure decreasing
Energy generation via nuclear fusion
Energy transport via radiation
Energy transport via convection
Flo
w o
f en
erg
y
Basically the same structure for all stars with approx. 1 solar
mass or less.
Sun
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The Sun
(SLIDESHOW MODE ONLY)
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Hydrostatic Equilibrium
Imagine a star’s interior composed of
individual shells.
Within each shell, two forces have to be in equilibrium with
each other:
Outward pressure from the interior
Gravity, i.e. the weight from all layers above
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Hydrostatic Equilibrium (2)
Outward pressure force must exactly balance the
weight of all layers above everywhere in
the star.
This condition uniquely determines the interior
structure of the star.
This is why we find stable stars on such a narrow strip
(Main Sequence) in the Hertzsprung-Russell diagram.
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H-R Diagram (showing Main Sequence)
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Energy Transport Structure
Inner radiative, outer convective
zone
Inner convective, outer radiative
zone
CNO cycle dominant PP chain dominant
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Summary: Stellar Structure
MassSun
Radiative Core, convective envelope;
Energy generation through PP Cycle
Convective Core, radiative envelope;
Energy generation through CNO Cycle
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The Orion Nebula: An Active Star-Forming Region
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In the Orion Nebula
The Becklin-Neugebauer Object (BN): Hot star, just reaching the
main sequence
Kleinmann-Low nebula (KL):
Cluster of cool, young
protostars detectable only in the infrared
Visual image of the Orion Nebula
Protostars with protoplanetary disks
B3
B1B1
O6
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shock wavefree-fall contractionprotostarcocoonprotostellar diskbirth lineT Tauri starBok globuleHerbig–Haro objectbipolar flowassociationT associationO associationCNO (carbon–nitrogen–oxygen) cycle
opacityhydrostatic equilibrium
New Terms