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Transcript
Life Cycle of a Star Star Life Cycle: Stars are like humans. They are born, live and then die. _____________ Interstellar _____________ Medium is the total mass of the gas and dust between the stars. NEBULA _____________: A dense cloud of gas and dust The nebula begins to contract due to __________ and the pressure and temperature gravity PROTOSTAR increase and becomes a ________________. When the temperature gets hot enough, _______________ fusion begins and a _______ ____________ star is born. MAIN SEQUENCE A star loses ____________ mass during fusion as energy is released. This decreases the star’s gravity. A star will expand, becoming a ___________ ____________, when RED GIANT fusion the outward force of ________________ is greater than gravity the inward force of ______________. fusion slows down. When the As the fuel runs out in a star, _________ ______________ force of fusion is less than the ____________ outward inward force of gravity, the star will shrink in size, becoming a WHITE DWARF _________ ____________. White Dwarf A ____________ PULSAR is a rotating white dwarf emitting radio waves. SUPERNOVA explosion A ___________________ is an _________________ that marks the end of a very massive star’s life. When it occurs, the exploding star can outshine all of the other stars in the galaxy in total for several days and may leave behind only a crushed core. The life cycle of stars depends on their mass. Small and medium stars become __________________ once they die. NEUTRON STAR Larger stars become novae and die as: ____________ The most massive stars become supernovae and die as: BLACK HOLE ______________________ A black hole is an extremely massive remnant from which light can not escape http://chandra.harvard.edu/photo/2004/rxj1242/index.html Why do larger/hotter stars burn their fuel faster and live shorter lives than the Sun? Large, more massive stars have much more _____________ gravity than the sun. This greater internal pressure causes fusion reactions to occur __________. This causes the largest stars to burn their quickly quickly fuel, and eventually run out, much more ______________. lives Larger stars live shorter _____________. Bigger stars are brighter and hotter due to the rapid rate of fusion __________. Where do we get the elements?? All stars spend the majority of their lives fusing __________ the main hydrogen into ________________: helium sequence. When all of the __________ hydrogen in the central regions is converted to helium, the star will begin to “burn” carbon helium into _______________. sun Stars heavier than about 5 times the mass of the ______ hydrogen can do this with no problem: they burn _____________, helium carbon and then _______________, and then _____________, oxygen _______________, silicon, and so on…until Iron. energy Iron is the lightest element that doesn’t release __________ when you attempt to fuse it together. You actually end up with less energy than you started with! So instead of generating pressure to hold up the outer layers, the iron fusion actually takes it out of the core. Thus, there is nothing left to combat ________________ gravity from the outer layers. The result: ___________! collapse This implosion (___________) supernova happens very, very quickly: about 15 seconds. During the collapse, the nuclei in the outer parts of the star are pushed together, so close that Iron elements heavier than __________ are formed.
