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Stellar Evolution It’s all about Gravity The evolution of a star governed by a balance between the effects of nuclear reactions, pressure, quantum mechanics, and GRAVITY. Stellar Evolution It’s all about Gravity Two scenarios: stars with as mass less than 8 times the mass of the sun and stars with a mass greater than 8 times the mass of the sun. Stellar Evolution It’s all about Gravity In General: stars live their lives producing energy through the nuclear fusion of elements. While on the main sequence, hydrogen is fused to produce helium. Once the hydrogen fuel depletes, a series of events occur which involves the fusion of heavier elements, changes in luminosity, contractions and expansions, and ultimately the final resting place of the star that began its life on the main sequence. On the main sequence – stars are fusing hydrogen, and are in hydrostatic equilibrium. The amount of time spent on the main sequence is determined by the mass of the star. Stellar Evolution More Nuclear Physics Why do stars eventually burn out and die? * High pressures and temperatures in the core break atoms into a soup of protons (hydrogen nuclei) and electrons. * Electrons do not feel a strong force, and therefore cannot fuse. * Protons do feel the strong force and can fuse to heavier elements. Nuclei that are involved in the fusion process are called parent nuclei Nuclei that are the result of a fusion process are called daughter nuclei Stellar Evolution More Nuclear Physics – The Nuclear Binding Curve Can elements fuse indefinitely? No. * When lighter elements fuse, they form an element which is “more stable” than the parent elements, and in the process release energy. * The MOST STABLE of all elements is iron. * Beyond iron, elements no longer undergo fusion. It is more energetically favorable for heavier elements to split and release energy, a process called fission. Stellar Evolution More Nuclear Physics – The Nuclear Binding Curve Stellar Evolution More Nuclear Physics Notice, however, that when particular parent nuclei fuse, the daughter nucleus contains more protons that the parent. * Because of electrical repulsion, heavier nuclei are harder to fuse. * Once the hydrogen is fused, hydrostatic equilibrium can no longer be maintained * The core will collapse (gravity cannot be turned off) until temperatures and pressures become high enough to fuse heavier elements. * The dance between collapse and the fusion of heavier nuclei is the hallmark of the evolution of a star once it leaves the main sequence. Stellar Evolution More Nuclear Physics How it gets to the end point is where the action is….
