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Chapter 14 Dark Matter and Dark Energy

Chapter 14 Dark Matter and Dark Energy. What do we mean by dark matter and dark energy?. Unseen Influences. Dark Matter: An undetected form of mass that emits little or no light, but whose existence we infer from its gravitational influence

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Chapter 14 Dark Matter and Dark Energy

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  1. Chapter 14Dark Matter and Dark Energy

  2. What do we mean by dark matter and dark energy?

  3. Unseen Influences Dark Matter: An undetected form of mass that emits little or no light, but whose existence we infer from its gravitational influence Dark Energy: An unknown form of energy that seems to be the source of a repulsive force causing the expansion of the universe to accelerate

  4. Contents of Universe • “Ordinary” matter: ~ 4.4% • Ordinary matter inside stars: ~ 0.6% • Ordinary matter outside stars: ~ 3.8% • Dark matter: ~ 23% • Dark energy ~ 73%

  5. What is the evidence for dark matter in galaxies?

  6. We measure the mass of the solar system using the orbits of planets: • orbital period • average distance • For circles: • orbital velocity • orbital radius

  7. Rotation curve A plot of orbital velocity versus orbital radius The solar system’s rotation curve declines because the Sun has almost all the mass.

  8. Who has the largest orbital velocity? A, B, or C?

  9. Who has the largest orbital velocity? A, B, or C? Answer: C

  10. The rotation curve of a merry-go-round rises with radius.

  11. The rotation curve of the Milky Way stays flat with distance. Mass must be more spread out than in the solar system.

  12. Mass in the Milky Way is spread out over a larger region than its stars. Most of the Milky Way’s mass seems to be dark matter!

  13. Mass within the Sun’s orbit: 1.0  1011MSun Total mass: ~1012MSun

  14. The visible portion of a galaxy lies deep in the heart of a large halo of dark matter.

  15. Spiral galaxies all tend to have flat rotation curves, indicating large amounts of dark matter.

  16. Does dark matter really exist? Insert TCP 6e Figure 22.11 unannotated

  17. Our Options • Dark matter really exists, and we are observing the effects of its gravitational attraction. • Something is wrong with our understanding of gravity, causing us to mistakenly infer the existence of dark matter.

  18. Our Options • Dark matter really exists, and we are observing the effects of its gravitational attraction. • Something is wrong with our understanding of gravity, causing us to mistakenly infer the existence of dark matter. Because gravity is so well tested, most astronomers prefer option #1.

  19. What is the role of dark matter in galaxy formation?

  20. Gravity of dark matter is what caused protogalactic clouds to contract early in time.

  21. Dark matter is still pulling things together. After correcting for Hubble’s law, we can see that galaxies are flowing toward the densest regions of space.

  22. What are the largest structures in the universe?

  23. Maps of galaxy positions reveal extremely large structures: superclusters and voids.

  24. Time in billions of years 2.2 5.9 8.6 13.7 0.5 35 70 93 140 13 Size of expanding box in millions of light-years Models show that gravity of dark matter pulls mass into denser regions—the universe grows lumpier with time.

  25. Models show that gravity of dark matter pulls mass into denser regions—universe grows lumpier with time.

  26. Will the universe continue expanding forever?

  27. Does the universe have enough kinetic energy to escape its own gravitational pull?

  28. The fate of the universe depends on the amount of dark matter.

  29. Since the amount of dark matter is ~25% of the critical density, we expect the expansion of the universe to overcome its gravitational pull.

  30. In fact, the expansion appears to be speeding up! Dark energy?

  31. Estimated age depends on the amount of both dark matter and dark energy.

  32. Is the expansion of the universe accelerating?

  33. Insert TCP 6e Figure 20.14 The brightness of distant white dwarf supernovae tells us how much the universe has expanded since they exploded.

  34. An accelerating universe best fits the supernova data.

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