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Beyond the Solar System

Beyond the Solar System. Terms. Quark Subatomic particle Makes up protons and neutrons Degenerate matter Compressed atoms Electrons pushed close to nucleus. Terms. Interstellar “Between the stars” Any part of the universe not within a solar system Parsec (pc): 3.26 light-years

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Beyond the Solar System

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  1. Beyond the Solar System

  2. Terms • Quark • Subatomic particle • Makes up protons and neutrons • Degenerate matter • Compressed atoms • Electrons pushed close to nucleus

  3. Terms • Interstellar • “Between the stars” • Any part of the universe not within a solar system • Parsec (pc): 3.26 light-years • Kiloparsec (Kpc): 1000 parsecs • Megaparsec (Mpc): 1 million parsecs

  4. Terms • Magnitude • Brightness of a celestial object • Higher number = dimmer object

  5. Beyond the Solar System PSCI 131: Beyond the Solar System • Introduction to the Universe • Interstellar Matter • Classifying Stars • Stellar Evolution • Stellar Remnants

  6. Introduction to the Universe PSCI 131: Beyond the Solar System

  7. How the Universe is Organized PSCI 131: Beyond the Solar System – Intro to the Universe • Galactic clusters • Galaxies • Stars/solar systems • Where are we? • Local Group galactic cluster • Milky Way galaxy • Our solar system Map of the Local Group. pc: parsec. Mpc: megaparsec.

  8. Size of the Known Universe PSCI 131: Beyond the Solar System – Intro to the Universe • 100s of billions of galaxies • Nearest large galaxy: 2.5 million ly (light-yrs) • Furthest object observed: 13 billion ly From: nasa.gov Hubble Telescope “Deep Field” image. Most objects are distant galaxies.

  9. History of the Universe PSCI 131: Beyond the Solar System – Intro to the Universe • Age: about 13.7 billion years From: tandempost.com The Big Bang and the evolution of the universe. Matter has cooled and “clumped” over time to form galaxies and stars.

  10. Interstellar Matter PSCI 131: Beyond the Solar System

  11. Interstellar Matter PSCI 131: Beyond the Solar System • Matter that occupies space between solar systems • Mostly dispersed hydrogen and helium atoms (99%) • Rest is atom-sized dust of other elements • Nebula: localized concentration of gas and dust into a cloud

  12. Role of Nebulae PSCI 131: Beyond the Solar System: Interstellar Matter • Birth of stars and solar systems

  13. Types of Nebulae PSCI 131: Beyond the Solar System: Interstellar Matter • Bright • Emission • Reflection • Planetary • Dark

  14. Bright Nebulae: Emission PSCI 131: Beyond the Solar System: Interstellar Matter • Emit their own radiation • Glowing gases The Lagoon Nebula, 1,250 parsecs from Earth.

  15. Bright Nebulae: Reflection PSCI 131: Beyond the Solar System: Interstellar Matter • Reflect radiation from other sources From: thinkquest.org The Merope Nebula, in the Pleiades star cluster.

  16. Bright Nebulae: Planetary PSCI 131: Beyond the Solar System: Interstellar Matter • Envelope of gases ejected from a dying medium-mass star • Gases glow (emit their own radiation) From: thinkquest.org The Helix Nebula, remnant of a dead Sun-like star.

  17. Dark Nebulae PSCI 131: Beyond the Solar System: Interstellar Matter • Not hot enough to glow • Not close enough to light sources to reflect The Horsehead Nebula. From: nasa.gov

  18. Classifying Stars PSCI 131: Beyond the Solar System

  19. Luminosity PSCI 131: Beyond the Solar System: Classifying Stars • Brightness relative to the Sun (Sun=1) • Expresses “true” brightness of an object • Distance from Earth is factored out

  20. The Herzsprung-Russell Diagram PSCI 131: Beyond the Solar System: Classifying Stars Brightest Luminosity Dimmest Hottest Coolest Surface temperature

  21. Stellar Evolution PSCI 131: Beyond the Solar System

  22. Two Key Forces Within Stars PSCI 131: Beyond the Solar System: Stellar Evolution • Gravity • Promotes contraction • Gas pressure • Outward movement of gas and energy from star’s core • Promotes expansion • Stellar evolution is a balance between them

  23. Steps in a Star’s Life Cycle PSCI 131: Beyond the Solar System: Stellar Evolution • Birth • Protostar • Main-sequence • Red Giant* • Death *Medium- and high-mass stars only Stellar evolution of a medium-mass star, plotted on the H-R diagram.

  24. Stellar Birth PSCI 131: Beyond the Solar System: Stellar Evolution • Contraction and heating of nebular gases (mostly hydrogen)

  25. Protostar PSCI 131: Beyond the Solar System: Stellar Evolution • Contracting nebula becomes hot enough to glow

  26. Main Sequence PSCI 131: Beyond the Solar System: Stellar Evolution • Nuclear fusion begins • Gas pressure balances gravity • Star becomes stable • Longest part of cycle

  27. Red Giant PSCI 131: Beyond the Solar System: Stellar Evolution • Hydrogen fuel in core runs out • Star expands, cools

  28. Red Giant PSCI 131: Beyond the Solar System: Stellar Evolution • Core • Hydrogen fuel depleted, nuclear fusion stops • Core collapses and heats up • Heat radiates into outer shell

  29. Red Giant PSCI 131: Beyond the Solar System: Stellar Evolution • Outer shell • Nuclear fusion continues • Accelerated by heat from core • More gas pressure, so outer shell expands and cools

  30. Red Giant PSCI 131: Beyond the Solar System: Stellar Evolution • Outer shell • Gravity balances gas pressure • Expansion stops • Size of star becomes stable • Core • Still contracting and heating: 2 million degrees F • Starts to fuse helium, forming carbon

  31. Stellar Death: Low-mass stars PSCI 131: Beyond the Solar System: Stellar Evolution • Stars with less than one-half of Sun’s mass • No red giant stage • Not enough heat from gravitational collapse • Contract into a white dwarf star when hydrogen depleted

  32. Stellar Death: Medium-mass stars PSCI 131: Beyond the Solar System: Stellar Evolution • Stars one-half to eight times Sun’s mass • Core contracts into a white dwarf when helium gone • Outer shell ejected into space: planetary nebula

  33. Stellar Death: High-mass stars PSCI 131: Beyond the Solar System: Stellar Evolution • Stars more than eight times Sun’s mass • Core collapses • Heat causes outer shell to explode in a supernova • Brightness increases by millions of times • Generates heavier elements (gold, lead, uranium, etc.) • Collapsed core becomes a neutron star or black hole, depending on star’s mass

  34. Stellar Remnants PSCI 131: Beyond the Solar System

  35. Types of Stellar Remnants PSCI 131: Beyond the Solar System • White dwarf • Low- and medium-mass stars • Neutron star • High-mass stars • Black hole

  36. White Dwarf PSCI 131: Beyond the Solar System: Stellar Remnants • About Earth-sized, but mass is similar to Sun’s • Degenerate matter • Extremely dense • A handful would weigh many tons

  37. Neutron Star PSCI 131: Beyond the Solar System: Stellar Remnants • Denser than white dwarf • Electrons pushed into nucleus • A handful would weigh millions of tons Hypothesized cross-section of a neutron star. Note mass and diameter.

  38. Black Holes PSCI 131: Beyond the Solar System: Stellar Remnants • Densest known objects • Remnants of highest-mass stars (more than 25 times Sun’s mass) • Radiation (light) can’t escape gravity

  39. Black Holes PSCI 131: Beyond the Solar System: Stellar Remnants Artist’s conception of a black hole. Matter being pulled in gives off energy as it is compressed, creating detectable signals from around the black hole itself. Inset shows jet of electrons from a black hole in galaxy M87 (bright area).

  40. End of Chapter

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