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Chapters 14 and 15 Stellar Evolution and Stellar Remnants.

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Presentation on theme: "Chapters 14 and 15 Stellar Evolution and Stellar Remnants."— Presentation transcript:

1 Chapters 14 and 15 Stellar Evolution and Stellar Remnants

2 Star Birth: Nebula

3 Young star: Protostar

4 As the temperature in the interior rises, nuclear reactions produce outward force and balances the inward force of gravity  hydrostatic equilibrium = star becomes stable and contraction stops  main-sequence star Adult: Main Sequence

5 Energy Sources in Stars 4 hydrogen nuclei fuse to become 1 helium nucleus Since the mass of 4 hydrogen nuclei is greater than the mass of 1 helium nucleus, the leftover mass (0.7%) is converted to energy by Einstein’s equation: E=mc 2

6 The more massive a star, the faster it consumes its fuel, the shorter its lifetime The end states of stars depends upon its mass!

7 A B C

8 Evolution of Low Mass Stars including our Sun M < 10 Solar Masses

9 Old Age: Red Giant

10

11 Elderly, core: White Dwarf The core of the white dwarf star is now all carbon and oxygen

12 Ring NebulaEskimo Nebula Elderly, envelope: Planetary nebula

13 Yeah, but what about the really Massive stars?

14 Old Age: Red Supergiant

15

16 Figure 13.19 Elderly, dying star: Supernova

17 Super Nova Remnants

18 Our Sun will never explode. Only massive stars explode as supernova!

19 Elderly, core: Neutron Star Core High mass stars becomes so dense that protons and electrons combine to become neutrons and star becomes neutron star

20 Life Cycle of a Low Mass Star

21 Life Cycle of a High Mass Star

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