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Created with Fabric.js 1.4.5 Nebula:Nebula are collapsing clouds of gas, and dust. This is where all stars start. Main Sequence: This is just the series of the star turning hydregion into helium. This is where similarities in stars stop. Sun-Like Stars( stars sup to 1.5 times of the mass of our Sun). Giant Stars ( Stars that are 3 times of more the mass of our Sun Huge Stars ( A star 1.5-3 times the mass of our Sun. Red Giant: A Red Giant star is a star in ti's last stages of evolution, the outer shell expands and becomes red. Red Super Giant: A Red Super Giant is an aging star that has consumed its core's hydrogen fuel. Super Nova: A super nova occurs when a Red Super Giant explodes. It can outshine a entire galaxy for a brief time. Planetary Nebula: A planetary Nebula is a kind of emission nebula, consisting of a ejecting glowing shell of ionized gas from a old Red Giant Star. White Dwarf: A White Dwarf is a very dense star, its density is comparable to that of the Sun. Though its size is comparable to that of the Earth. Black Dwarf: A Black Dwarf is a White Dwarf that has cooled down to that of the cosmic microwave background so it is invisible. Although Black Dwarfs are hypothetical Super Nova: A super nova occurs when a Red Super Giant explodes. It can outshine a entire galaxy for a brief time. Neutron Star: This star is the densest type of star. They are only 12-13 km. in Radius. They result in gravitational collapse after a Supernova Red Super Giant: A Red Super Giant is an aging star that has consumed its core's hydrogen fuel. Black Hole: If a star is big enough when it turns to a Supernova, it's gravitational pull can be so massive it implodes on itself and creates a Black Hole. Life Cycle of A Star By David Brackett
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