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1 Stellar Lifecycles The process by which stars are formed and use up their fuel. What exactly happens to a star as it uses up its fuel is strongly dependent on the star’s mass . Orion Nebula - Birthplace of stars

1 Stellar Lifecycles The process by which stars are formed and use up their fuel. What exactly happens to a star as it uses up its fuel is strongly dependent

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Page 1: 1 Stellar Lifecycles The process by which stars are formed and use up their fuel. What exactly happens to a star as it uses up its fuel is strongly dependent

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Stellar Lifecycles• The process by which stars

are formed and use up their fuel.

• What exactly happens to a star as it uses up its fuel is strongly dependent on the star’s mass.

The Orion Nebula - Birthplace of stars

Page 2: 1 Stellar Lifecycles The process by which stars are formed and use up their fuel. What exactly happens to a star as it uses up its fuel is strongly dependent

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A Star is Born• Stars form from huge, cold, clouds of

gas and dust.• At some point this cloud collapses on

itself.• Its own gravity causes clumps of

material to form. These clumps heat up as material continues to fall upon them.

• Eventually temperatures are high enough in the center of these clumps to allow nuclear fusion reactions to occur.

• Often several large clumps can form within the cloud. Clusters of stars can all form at the same time from the same cloud.

A cluster of massive, hot blue starshave formed still surrounded byclouds of gas that may form new stars.

Page 3: 1 Stellar Lifecycles The process by which stars are formed and use up their fuel. What exactly happens to a star as it uses up its fuel is strongly dependent

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Main Sequence Stars• Once nuclear fusion has

begun, pressures in the core grow high enough to stop the stars from collapsing any further. It is then in Hydrostatic Equilibrium.

• These are now Main Sequence stars

• Their position along the line of the Main Sequence depends on their mass.

• Almost the entire lifetime of a star is spent on the Main Sequence.

The H-R diagram showing the Main Sequence line (in purple).More massive stars are to the upper left,less massive stars to the lower right.

Page 4: 1 Stellar Lifecycles The process by which stars are formed and use up their fuel. What exactly happens to a star as it uses up its fuel is strongly dependent

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Differences Between High Mass and Low Mass Stars

• Stars that are more massive than the Sun have stronger gravitational forces.

• These forces need to be balanced by higher internal pressures.

• These higher pressures result in higher temperatures which drive a higher rate of fusion reactions.

• The Hydrogen within the core of a high mass star therefore gets used up much faster than in the Sun and “ages” faster.

• Low mass stars “age” slower.

A star like our Sun will remainon the Main Sequence for about 10 billion years. A very massivestar may only be on the MainSequence for a few million years.

Page 5: 1 Stellar Lifecycles The process by which stars are formed and use up their fuel. What exactly happens to a star as it uses up its fuel is strongly dependent

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When the Sun Leaves the Main Sequence

• When a star uses up the Hydrogen in its core it can no longer support itself against gravity.

• The core compresses and temperatures begin to rise.

• Temperatures may get high enough outside the core to begin Hydrogen fusion there instead.

• The pressure from this shell around the core pushes the outer layers of the star out.

• These outer layers cool and get redder.

The life cycle of a star like the Sun

Page 6: 1 Stellar Lifecycles The process by which stars are formed and use up their fuel. What exactly happens to a star as it uses up its fuel is strongly dependent

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The Last Years of the Sun• During this Red Giant stage the

core of the Sun will continue to contract and heat up.

• Eventually temperatures will be high enough for the fusion of Helium in the core. The Sun then converts Helium into Carbon & Oxygen. The surface temperature of the Sun increases and it becomes a Yellow Giant.

• This stage lasts as long as there is Helium available in the core.

The motion of the Sun through theH-R diagram as the Sun ages. Noticethat the Sun spends most of its life onthe Main Sequence.

Page 7: 1 Stellar Lifecycles The process by which stars are formed and use up their fuel. What exactly happens to a star as it uses up its fuel is strongly dependent

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The Sun’s Planetary Nebula• As the core exhausts its

Helium fuel it begins to contract and heat causing the Helium to get used even faster. The Sun increases its luminosity. The outer layers of the Sun expand, cool and redden again.

• The outer layers of the Sun start streaming away from the core. This material forms a nebula surrounding the Sun.Except for the core, the rest of the Sun

will eventually be dispersed into spaceforming a planetary nebula like this one.

Page 8: 1 Stellar Lifecycles The process by which stars are formed and use up their fuel. What exactly happens to a star as it uses up its fuel is strongly dependent

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White Dwarf Stars• The core of the Sun

eventually stops all nuclear fusion but remains extremely hot.

• The core will form a White Dwarf star, a very dense, small object about the size of the Earth.

• Over time the White Dwarf will cool and dim.

• By measuring the temperature of white dwarfs you can estimate how long ago they formed.

White Dwarf stars are very hotbut also very small. They appearin the lower left corner of the H-R Diagram.

Page 9: 1 Stellar Lifecycles The process by which stars are formed and use up their fuel. What exactly happens to a star as it uses up its fuel is strongly dependent

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How do High Mass Stars Evolve?

• For stars greater than 8 times the Sun’s mass after Helium fuel is exhausted the core of the star contracts, heats up and starts to fuse Carbon & Oxygen into Neon and Silicon.

• Helium and Hydrogen fusion continue in shells around the core.

• As long as the star can raise its core temperature high enough it can continue to fuse new elements. Until iron is created.

Page 10: 1 Stellar Lifecycles The process by which stars are formed and use up their fuel. What exactly happens to a star as it uses up its fuel is strongly dependent

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High Mass Stars Evolve Quickly

Compare the duration of the stages of a high mass star’s life to that of a solar-mass star (two slides back).

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Supernova• The formation of iron actually absorbs rather than

releases energy.• Nuclear fusion at the core stops and it begins to

collapse.• The pressures of the surrounding layers are so

high that the atoms of the iron core are crushed, smashing the electrons into the protons forming neutrons.

• Once neutrons are formed the collapse stops, the surrounding gas is heated and explodes off the core. This is a supernova explosion.

• The explosion is so energetic that it can outshine the combined light of a galaxy!

• Heavy elements are formed in the material blown off the star. These elements are dispersed into space where they can be used to form planets and new stars.

• Depending on its mass the core may become a neutron star or collapse further to a black hole.

Page 12: 1 Stellar Lifecycles The process by which stars are formed and use up their fuel. What exactly happens to a star as it uses up its fuel is strongly dependent

Testing Stellar Evolution Theories

Page 13: 1 Stellar Lifecycles The process by which stars are formed and use up their fuel. What exactly happens to a star as it uses up its fuel is strongly dependent

Open Clusters: Young Stars

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Page 14: 1 Stellar Lifecycles The process by which stars are formed and use up their fuel. What exactly happens to a star as it uses up its fuel is strongly dependent

Pleiades HR Diagram: A Young Cluster

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Blue Dots: PleiadesOrange crosses: Coma Bernice Gray Circles: Hyades

Page 15: 1 Stellar Lifecycles The process by which stars are formed and use up their fuel. What exactly happens to a star as it uses up its fuel is strongly dependent

Hyades:Older than the Pleiades

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Page 16: 1 Stellar Lifecycles The process by which stars are formed and use up their fuel. What exactly happens to a star as it uses up its fuel is strongly dependent

M67: Open ClusterGetting older

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Page 17: 1 Stellar Lifecycles The process by which stars are formed and use up their fuel. What exactly happens to a star as it uses up its fuel is strongly dependent

Globular Clusters: Old Stars

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Page 18: 1 Stellar Lifecycles The process by which stars are formed and use up their fuel. What exactly happens to a star as it uses up its fuel is strongly dependent

47 Tucanae: Globular Cluster Red Giant Stars

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Page 19: 1 Stellar Lifecycles The process by which stars are formed and use up their fuel. What exactly happens to a star as it uses up its fuel is strongly dependent

47 Tucanae: Globular Cluster Blue Straggler Binaries

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