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Download Notes: Stellar Nucleosynthesis
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Transcript
10/26/16 Stellar Nucleosynthesis Objective: I will model the steps of nuclear fusion in stars similar to our Sun. PAGE 31 Hydrogen Burning (Proton-Proton Chain) • 1H + 1H → 2H 1 1 1 1 • 2H + 1H → 3He 1 1 2 • 3He + 3He → 4He 2 2 2 This process is the longest stage in a star’s life! Proton-Proton Chain • primary nuclear fusion process in stars similar to our Sun • this process is the longest stage in a star’s life! Step 1: Proton-Proton Fusion • Start with two sets of 2 1H atoms • 1H has only 1 proton, no neutron • As the 1H atoms fuse: • positron (creates energy) and neutrino released • one of the protons becomes a neutron • Finish with one 2H (deuterium) atom • With a nucleus that has 1 proton and 1 neutron Step 2: Deuterium Proton Fusion • Fuse one 1H and one 2H • 1H is 1 proton nucleus • 2H is 1 proton, 1 neutron nucleus • Gamma ray (energy) released • Finish with one 3He atom • 3He is 2 protons and 1 neutron nucleus Step 3: Helium-3 Fusion • Start with two 3H atoms • 3H is 2 protons and 1 neutron nucleus • Finished with a 4He atom • 4H is 2 protons and 2 neutrons • Two 1H atoms released released • Start the process all over again Proton-Proton Chain • 1H + 1H → 2H 1 1 1 1 • 2H + 1H → 3He 1 1 2 • 3He + 3He → 4He 2 2 2 This process is the longest stage in a star’s life! Summary of Proton-Proton Chain • Begins when two 1H atoms fuse into 2H • positron and neutrino released (energy!) • 2H atom then fuses with 1H to form 3He • gamma ray released (energy!) • Two 3He atoms fuse into the final product, 4He • At each step, a small amount of matter is lost and converted into a large amount of energy! Proton-Proton Chain • 1H + 1H → 2H 1 1 1 1 • 2H + 1H → 3He 1 1 2 • 3He + 3He → 4He 2 2 2 This process is the longest stage in a star’s life! Fusion of Heavier Elements • When all hydrogen is used up, heavier elements begin to be fused • ex. Carbon, Oxygen, Silicon • Elements up to Iron are created Fusion of Heavier Elements • Iron is a “star killer” • fusion of iron takes energy (endothermic) instead of giving off energy (exothermic) • therefore, stars begin to “die” once iron is created. Carbon-Nitrogen-Oxygen Cycle (Large Stars) • In stars much more massive than our Sun: • 1H and deuterium (2H) get used up very fast • Therefore, nuclear fusion must occur through the CNO Cycle in these stars Hydrogen Burning (CNO Cycle) Carbon Burning 16O + + + + 12C → 6 + + + + + + 12C + 12C → + + + + + + + + + 12C + 12C 12C 6 + + 6 + + 6 + + + 6 + + + + + 6 + + + + + + + 8 4He + + + + → 20Ne 10 + + + ++++ + + ++ 23Na + 4He 2 + 11 + + + + + + + + 2 + + + 4He + 2 + 2H 1 + + Neon Burning → 20Ne 2 0 + 8 1 6 + + 1 0 1 0 20 + 4He 2 4 + 2 + → 4He 2 4 2 8 20Ne 10 16O 24Mg 1 2 24 12 + + Oxygen Burning 16O + + 16O + → + 16O + 16O + 28Si + 4He + → 31P + + + 1H + Silicon Burning A chain of alpha processes 28Si + 4He → + + 32S + 4He + + 28S + → 36Ar + Silicon Burning (cont) 36Si + 40Ca + + 4He → + + 4He + 40Ca + → 44Ti + Silicon Burning (cont) 44Ti + 4He + + 48Cr + → + 4He + 48Cr + → 52Fe + Hydrogen Burning (Proton-Proton Chain) 1. 2. 3.
