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1st step: stars form from nebulas regions of concentrated dust and gas

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1st Step: Stars form from nebulas Regions of concentrated dust and gas Gas and dust begin to collide, contract and heat up All due to gravity

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Life Cycle of Stars. 1st Step: Stars form from nebulas Regions of concentrated dust and gas Gas and dust begin to collide, contract and heat up All due to gravity. Life Cycle of Stars. 2nd Step: As nebula contracts, a small star is formed Called a protostar - PowerPoint PPT Presentation

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Page 1: 1st Step: Stars form from nebulas Regions of concentrated dust and gas

• 1st Step:– Stars form from nebulas

• Regions of concentrated dust and gas

– Gas and dust begin to collide, contract and heat up• All due to gravity

Page 2: 1st Step: Stars form from nebulas Regions of concentrated dust and gas

• 2nd Step:– As nebula contracts, a small star is formed

• Called a protostar

– Eventually, the protostar will begin nuclear fusion• Hydrogen protons attract to each other

– Strong nuclear force– Fusion begins

• Necessary for stars to survive

Page 3: 1st Step: Stars form from nebulas Regions of concentrated dust and gas

• 3rd Step:– Star joins the main sequence

• 90% of stars spend life here• Nuclear fusion = Hydrogen into Helium• Mass of star determines location on main sequence

Page 4: 1st Step: Stars form from nebulas Regions of concentrated dust and gas

• Beginning of the End:– Stars begin to die when they run out of

hydrogen• Gravity begins to take over

– Star begins to shrink; outer core of hydrogen begins to fuse• Star gets bigger

Page 5: 1st Step: Stars form from nebulas Regions of concentrated dust and gas

• Beginning of the End:– When star gets bigger, it cools down

• Red giant

– Eventually, star can fuse helium into other elements• Carbon, oxygen, and other heavier elements

Page 6: 1st Step: Stars form from nebulas Regions of concentrated dust and gas

• Beginning of the End:– Once star runs out of “fuel”, star shrinks under

its own gravity

– Turn into a white dwarf, neutron star, or black hole

Page 7: 1st Step: Stars form from nebulas Regions of concentrated dust and gas

• Death of Stars:– What stars end up as depend on mass

– Low and Medium mass stars• Planetary nebula --------- white dwarf

– High mass stars• Supernova --------- neutron star or black hole

Page 8: 1st Step: Stars form from nebulas Regions of concentrated dust and gas

• Death of Stars: Low and Medium Mass

Red Giant

Main Sequence Star

Planetary Nebula

White Dwarf

Page 9: 1st Step: Stars form from nebulas Regions of concentrated dust and gas

• Death of Stars: High Mass

Red Super Giant

Main Sequence Star

Supernova

Neutron Star Black Hole

Page 10: 1st Step: Stars form from nebulas Regions of concentrated dust and gas

Black Holes Info Sheet

• What is a Black Hole???

– An object so massive and dense that not even light can escape its gravity

– The end result from a supernova of a star that has a mass greater than 3x the sun

Page 11: 1st Step: Stars form from nebulas Regions of concentrated dust and gas

• High Mass Stars:– Mass greater than 8x our sun

• Create high mass elements such as iron

– Neutron Star• Formed if remaining star < 3x sun’s mass

– Black Holes• Formed if remaining star > 3x sun’s mass

Page 12: 1st Step: Stars form from nebulas Regions of concentrated dust and gas

• As fusion begins to slow down, the core of the sun will contract

• Temperature in the core will rise

• The outer layers of the sun will expand, consuming in the inner planets

• Sun will become a Red Giant

Page 13: 1st Step: Stars form from nebulas Regions of concentrated dust and gas
Page 14: 1st Step: Stars form from nebulas Regions of concentrated dust and gas

– Core of the sun will begin to fuse helium into larger elements such as carbon and oxygen

– Continuing over the next 100 million years…• Core will become entirely carbon and oxygen• Core will contract• Outer layers will expand

– Outer layers will form a planetary nebula• Core of sun will become a white dwarf


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