1 / 62

ASTR 1020

ASTR 1020. First Homework Due Today Second Homework due Feb 9 Next Observatory Session Tonight at 7pm. Website http://casa.colorado.edu/~wcash/APS1020/APS1020.html. Escape Velocity. R. Fall from Large Height. Same Energy Needed to Reverse and Fly Away. Escape velocity is the speed

Patman
Télécharger la présentation

ASTR 1020

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. ASTR 1020 First Homework Due Today Second Homework due Feb 9 Next Observatory Session Tonight at 7pm Website http://casa.colorado.edu/~wcash/APS1020/APS1020.html

  2. Escape Velocity R Fall from Large Height Same Energy Needed to Reverse and Fly Away Escape velocity is the speed at which object must be thrown upward to escape and never come down. G=6.7x10-11 in mks units

  3. The Sun

  4. The Sun Falls into “Disk Stability” 99.9% Ended in Sun (0.1% in Jupiter) Probably the Same Around All Stars -- Planets are Common Shoots Planet-Size Bullets into Space

  5. Most of Mass Forms Ballin Center A Star Is a Hot Ball of Hydrogen (plus 11% Helium) One Million Miles

  6. What Stops the Fall? Gravity Gets Stronger As Material Gets More Dense R smaller implies F greater The smaller it gets, the faster it falls in! Why doesn’t it just become a black hole? Or worse yet, a point-like singularity of mass?

  7. Scaling Scientists often do “scaling” do avoid all those large numbers. For example, the Sun is ABOUT a million times the mass of the Earth and a hundred times the size.

  8. Question What is the surface gravity of the Moon in gees? R=.01Re, M=.25Me? a).04 b)4 c)16 d).16

  9. Answer d

  10. Temperature Temperature is a Measure of the Random Kinetic Energy per Particle The faster the atoms move, the higher the temperature. But we’re talking about random motion. If they all move together, then the object moves.

  11. Thermal Pressure Thermal Gas Pressure Balances Gravitational Pressure Balloon Every Time An Bounces Off Edge of Balloon It Keeps It From Collapsing That’s Pressure Pressure is Force per Unit Area

  12. Pressure is Proportional to Temperature Low Temperature Atoms Move Slowly High Temperature Atoms Move Fast

  13. A Star Is Held Up ByThermal Pressure From Below Gravity Outer Mass Individual Atoms Don’t Orbit Entire Inside of Star Like This They Jostle Each Other But Effect Is The Same

  14. Temperature Scales • Fahrenheit – • 0=salt water freeze 100=human body • Celsius • 0=pure water freeze 100=water boil (sea level) • C=(F-32)x5/9 • Kelvin • 0=absolute zero 100 degrees between freeze and boil • K=C+273 • -273C = 0K = Absolute Zero At Absolute Zero Atoms Stop Moving

  15. Thermal Pressure P Pressure V Volume n # moles R Constant T Temperature (K) Ideal Gas Law Chemistry Style P Pressure V Volume N # atoms k Constant T Temperature (K) Ideal Gas Law Physics Style Pressure Is Proportional to Temperature x Density

  16. Pressure Balance A Star Always Balances Gravitational Pressure with Thermal Pressure At Each Point Inside Thermal Pressure (Jostling) Gravity

  17. But We Have a Problem The Sun is Luminous Radiates Energy Into Space Luminosity is Power Radiated -- ergs/second The Energy Comes From Motion of the Atoms Temperature Drops What Happens When T Drops?

  18. Luminosity Effect When T Drops Thermal Pressure Can’t Hold Off Gravity The Sun Shrinks -- Radius Drops Energy is Released as Gas Falls Deeper Into Gravity Field Temperature Rises Note – Loss of Energy Results in a) Temperature Rise b) Radius Decrease

  19. But Wait A Minute…Isn’t the Sun Stable? The Sun has been remarkably stable for 4 billion yearsas evidenced by geological records. This collapse is the process by which the Sun coalesced. But then it stopped. Why? The Sun collapsed until a new source of energy offset the losses to radiation. NUCLEAR FUSION --- IT’S BURNING HYDROGEN As long as it burns H at this rate, it will be stable.

  20. Fusion Increases with T As T in core of Sun increases so does energy production Sun shrank steadily, with T rising until, about 10 million years after it started to form, it reached its current size There is a VERY fast increase in nuclear energy production above 1,000,000K. At 15,000,000K in the core nuclear power generated finally balanced the luminosity from the surface. That’s the equilibrium we are still in.

  21. The Nuclear Core Envelope 1 Million K core 15x106K Photosphere 5000K At Surface

  22. Cosmic Composition • H hydrogen 89% by number • He helium 11% • O oxygen 0.1% • C carbon 0.06% • N nitrogen 0.015% Pretty much the composition of the entire universe. Sun and Jupiter have this composition Earth does not.

  23. Fusion vs. Fission Fusion: Atoms unite and release energy (Fuse) New atom must be no heavier than iron z=26 Fission: Heavy atoms split to release energy Initial atom must be heavier than iron WWII Nukes were fission bombs made of U and Pu Sun works on FUSION of H into He

  24. Proton-Proton Chain Bottom Line: H+H+H+H  He 1H1 +1H1 1H2 + e+ + n 1H2 +1H1 2He3 + g 2He3 +2He3 2He4 + 1H1+ 1H1 5x106 < T < 2x107K

  25. CNO Cycle 6C12 +1H1 7N13 + g 7N13 6C13 + e+ + n 6C13 +1H1 7N14 + g 7N14 +1H1 8O15 + g 8O15 7N15 + e+ + n 2x107 < T < 108K 7N15 +1H1 6C12 + 2He4 Net: 1H1 +1H1 + 1H1 +1H1 2He4 + 2e+ + 4g +2n hydrogen -> helium + energy

  26. Triple-a Reaction 2He4 +2He4 4Be8 + g T < 108K 4Be8 +2He4 6C12 + g Must be very dense for this to work Be8 decays back into helium very quickly unless struck by another He4 Too low density in Big Bang Net: 2He4 +2He4 + 2He4 +2He4 6C12 + 2g helium -> carbon + energy

  27. Solar Schematic

  28. Sunspots Seen by Ancient Persians (and me!)

  29. Groups of Sunspots

  30. Solar Corona Visible in Eclipse

  31. The Sun Viewed in X-rays

  32. X-ray Movie

  33. X-ray Loops

  34. Magnetic Structure

  35. Dynamic Structure

  36. Solar Turbulence

  37. Differential Rotation Rotates in 25 days at Equator 28 days Mid Latitude 30 days Poles Rapidly Twists Up

  38. Sunspots Erupt in Groups

  39. Sunspot Cycle During mid 1600’s sunspots became non-existent Maunder Minimum

  40. Solar Wind 5x105K Corona 2x106K Transition Region 105K Chromosphere 104K Photosphere 5500K

  41. Solar Wind Passes Earth

  42. Summary: Sun as a Star • Formed from cloud 4.6x109 years ago • Collapsed to present size • stabilized by nuclear reactions • Emits 4x1026 W • Runs on proton-proton chain and CNO cycle • Now 20% brighter • Turbulent upper envelope • Magnetic Fields from Differential Rotation • Sunspots, Corona, Solar Wind • Activity Cycle 11 years

  43. STARS

  44. Stars are grouped in Galaxies • Sun and all the stars we see are part of Milky Way Galaxy • We all orbit a common center • Sun is 3x1020m from center of MW You are here Each star orbits center Disk Stability Again

  45. Distances to the Stars • Closest Star, Proxima Centauri is 4x1016m away. (Alpha Cen ~4.3x1016m) • Need a more convenient unit

  46. The Light Year Light Travels at 300,000km/s (186,000miles/s = 3x108m/s) That’s one foot per nanosecond One Year is 3.15x107 seconds long In one year light travels 3.15x107x3x108 = 1016m This is the definition of a light year. Prox Cen is at 4ly.

  47. Question • There’s a big black hole in the Center of the Milky Way at a distance of 3x1020m. How long does it take for its light to reach us? • A) 3years • B) 30 years • C) 300 years • D) 3000 years • E) 30,000 years

  48. Question • There’s a big black hole in the Center of the Milky Way at a distance of 3x1020m. How long does it take for its light to reach us? • A) 3years • B) 30 years • C) 300 years • D) 3000 years • E) 30,000 years

More Related