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Transcript
The Life Cycle
of Stars
If you were preparing a timeline of your
life, what would you include?
The Birth of a Star
• Stars originate from
nebulae.
• These clouds were
created from the
masses of:
1. The original Big
Bang
and/or
2. Stars that have
expanded or
exploded
Orion Nebula
The Birth of a Star
• GRAVITY causes this gas and dust to come together,
forming larger and larger balls of gas and dust molecules.
• When the mass becomes large enough, gravitational
contraction results in high pressure and temperature, and
a protostar is formed.
This protostar is located at a distance of 1140 light-years from Earth,
and found in the constellation Vela.
The Birth of a Star
A star is born when nuclear fusion begins .
H + H + H + H (4.030 amu) -----> He (4.003 amu)
+
electromagnetic energy
+
heat, sound, or subatomic particles
Less massive elements combine to form more massive ones.
Low and Medium Mass Stars
• After they spend most of their lives as main sequence stars, further
evolution depends on the star's original mass.
Stars the size of our Sun (low to average mass) spend billions of years
as main sequence stars
Expand to become RED GIANTS
Use up most of their fuel, blow away outer atmosphere
(planetary nebula), and remaining core becomes WHITE DWARFS
Cool down to become BLACK DWARFS
Low and Medium Mass Stars
High Mass Stars
Star remnants that are over 1.5 times the mass of our Sun exist for a
SHORTER time (100,000,000 years) as MAIN SEQUENCE stars
Expand to become RED SUPERGIANTS
Explode as SUPERNOVA
High mass star remnant (1.5 to 2 times bigger than our Sun) become
NEUTRON stars, and very high mass star remnant (3 times bigger
than our Sun) become BLACK HOLES
High Mass Stars
Explosion of star at various wavelengths
Luminosity
Q: How do astronomers express the true brightness
(luminosity) of a star?
A: As if all stars are seen from the same distance