The Deaths of Stars – Part I - George Mason...
Transcript of The Deaths of Stars – Part I - George Mason...
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The Deaths of Stars –
Part I
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Guiding Questions1.
What kinds of nuclear reactions occur within a star like the Sun as it ages?
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Where did the carbon atoms in our bodies come from?
3.
What is a planetary nebula, and what does it have to do with planets?
4.
What is a white dwarf star?5.
Why do high-mass stars go through more evolutionary stages than low-mass stars?
6.
What happens within a high-mass star to turn it into a supernova?
7.
Why was SN 1987A an unusual supernova?8.
What was learned by detecting neutrinos from SN 1987A?
9.
How can a white dwarf star give rise to certain types of supernovae?
10.What remains after a supernova explosion?
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Pathways of Stellar Evolution GOOD TO KNOW
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Low-mass stars go through two distinct red-giant stages
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A low-mass star becomes–
a red giant when shell hydrogen fusion begins
–
a horizontal-branch star when core helium fusion begins
–
an asymptotic giant branch (AGB) star when the helium in the core is exhausted and shell helium fusion begins
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Bringing the products of nuclear fusion to a giant star’s surface
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As a low-mass star ages, convection occurs over a larger portion of its volume
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This takes heavy elements formed in the star’s interior and distributes them throughout the star
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Low-mass stars die by gently ejecting their outer layers, creating planetary nebulae
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Helium shell flashes in an old, low-mass star produce thermal pulses during which more than half the star’s mass may be ejected into space
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This exposes the hot carbon-oxygen core of the star
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Ultraviolet radiation from the exposed core ionizes and excites the ejected gases, producing a planetary nebula
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Why do planetary nebulae look so different from one another?
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The burned-out core of a low-mass star cools and contracts until it becomes a white dwarf
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No further nuclear reactions take place within the exposed core
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Instead, it becomes a degenerate, dense sphere about the size of the Earth and is called a white dwarf
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It glows from thermal radiation; as the sphere cools, it becomes dimmer
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High-mass stars create heavy elements in their cores•
Unlike a low-mass star, a high mass star undergoes an extended sequence of thermonuclear reactions in its core and shells
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These include carbon fusion, neon fusion, oxygen fusion, and silicon fusion
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In the last stages of its life, a high-mass star has an iron-rich core surrounded by concentric shells hosting the various thermonuclear reactions
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The sequence of thermonuclear reactions stops here, because the formation of elements heavier than iron requires an input of energy rather than causing energy to be released
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High-mass stars violently blow apart in supernova explosions
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A high-mass star dies in a violent cataclysm in which its core collapses and most of its matter is ejected into space at high speeds
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The luminosity of the star increases suddenly by a factor of around 108
during this explosion,
producing a supernova•
The matter ejected from the supernova, moving at supersonic speeds through interstellar gases and dust, glows as a nebula called a supernova remnant
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In 1987 a nearby supernova gave us a close-up look at the death of a massive star
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Neutrinos emanate from supernovae like SN 1987A
More than 99% of the energy from such a supernova is emitted in the form of neutrinos from the collapsing core
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White dwarfs in close binary systems can also become supernovae
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An accreting white dwarf in a close binary system may become a supernova when carbon fusion ignites explosively throughout the degenerate star
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Type Ia
supernovae are those produced by accreting white dwarfs in close binaries
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Type Ib
and Type Ic
supernovae occur when the star has lost a substantial part of its outer layers before
exploding
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Type II supernovae are created by the deaths of massive stars
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Most supernovae occurring in our Galaxy are hidden from our view
by interstellar dust and gases but a supernova remnant can be detected at
many wavelengths for centuries after the explosion
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Jargon•
asymptotic giant branch•
asymptotic giant branch star(AGB
star)•
carbon fusion•
carbon star•
Cerenkov radiation•
Chandrasekhar limit•
core helium fusion•
dredge-up•
helium shell flash•
horizontal branch•
mass-radius relation•
neon fusion•
neutron capture•
nuclear density•
oxygen fusion
•
photodisintegration•
planetary nebula•
progenitor star•
red-giant branch•
shell helium fusion•
silicon fusion•
supergiant•
supernova (plural supernovae)•
supernova remnant•
thermal pulse•
Type I supernova•
Type Ia
supernova•
Type Ib
supernova•
Type Ic
supernova•
Type II supernova•
white dwarf