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Title: Carbon fusion in massive stars combines helium and carbon to produce oxygen. This is followed by ... Post by: staedtler on Mar 19, 2017 Carbon fusion in massive stars combines helium and carbon to produce oxygen. This is followed by oxygen fusion in which oxygen is burned to produce sulfur. Why is a higher temperature required for oxygen fusion than for carbon fusion?
A) Because of extensive mass loss between the carbon-fusion and oxygen-fusion stages, higher temperatures are required for nuclear reactions in the relatively rarified stars in which oxygen fusion takes place. B) Larger nuclei, like oxygen, have more protons and are therefore repelled more strongly from other nuclei. Thus, faster speeds (at higher temperatures) are required to bring these nuclei together than are required for smaller nuclei. C) Free neutrons are required in greater numbers to enable the oxygen reaction, and this requires higher temperatures to produce them. D) The enormous neutrino flux in the core of a massive star inhibits nuclear reactions. High temperatures are necessary to force these neutrinos out of the star so nuclear reactions can proceed. Title: Re: Carbon fusion in massive stars combines helium and carbon to produce oxygen. This is followed ... Post by: discoverer on Mar 19, 2017 Content hidden
Title: Re: Carbon fusion in massive stars combines helium and carbon to produce oxygen. This is followed by ... Post by: staedtler on May 1, 2017 ;D Exactly what I needed
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