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Confessions of a Pluto Hater

Confessions of a Pluto Hater. Megan K. Pickett Associate Professor of Physics Lawrence University. 14 November 2006. Friends, Students, Scientists, lend me your ears; I come to bury Pluto, not to praise it. The evil this rock does lives in our books,

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Confessions of a Pluto Hater

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  1. Confessions of a Pluto Hater Megan K. Pickett Associate Professor of Physics Lawrence University 14 November 2006

  2. Friends, Students, Scientists, lend me your ears; I come to bury Pluto, not to praise it. The evil this rock does lives in our books, The small good was interred with Clyde's bones; So let it be with Pluto...The noble Newton Hath told you Pluto was Perturber: If it were so, it was a grievous fault, And grievously hath Pluto not answer'd it... Here, under leave of Lowell and the rest- (For Lowell was a crazy nearsighted man; who saw lines on Mars and shouted "water, ho!")- Come I to speak on Pluto, Dwarf Planet...

  3. Formerly the Ninth Planet of the Solar System Average Orbital Distance: 40 AU Orbital Period: 248 years Orbital Inclination: 17o Orbital Eccentricity: 25% Rotation Period: -6.4days Radius: 0.6 RM Mass: 0.3MM Average Density: 2100 kgm-3 Surface Temperature: 33 - 55 K Atmosphere: CH4 and N2 Surface: CH4 ice (?) Interior (?): Silicates & ices uto

  4. Formerly the Ninth Planet of the Solar System Average Orbital Distance: 40 AU Orbital Period: 248 years Orbital Inclination: 17o Orbital Eccentricity: 25% Rotation Period: -6.4days Radius: 0.6 RM Mass: 0.3MM Average Density: 2100 kgm-3 Surface Temperature: 33 - 55 K Atmosphere: CH4 and N2 Surface: CH4 ice (?) Interior (?): Silicates & ices uto

  5. Formerly the Ninth Planet of the Solar System Average Orbital Distance: 40 AU Orbital Period: 248 years Orbital Inclination: 17o Orbital Eccentricity: 25% Rotation Period: -6.4days Radius: 0.6 RM Mass: 0.3MM Average Density: 2100 kgm-3 Surface Temperature: 33 - 55 K Atmosphere: CH4 and N2 Surface: CH4 ice (?) Interior (?): Silicates & ices uto

  6. Formerly the Ninth Planet of the Solar System Average Orbital Distance: 40 AU Orbital Period: 248 years Orbital Inclination: 17o Orbital Eccentricity: 25% Rotation Period: -6.4days Radius: 0.6 RM Mass: 0.3MM Average Density: 2100 kgm-3 Surface Temperature: 33 - 55 K Atmosphere: CH4 and N2 Surface: CH4 ice (?) Interior (?): Silicates & ices uto

  7. Formerly the Ninth Planet of the Solar System Average Orbital Distance: 40 AU Orbital Period: 248 years Orbital Inclination: 17o Orbital Eccentricity: 25% Rotation Period: -6.4days Radius: 0.6 RM Mass: 0.3MM Average Density: 2100 kgm-3 Surface Temperature: 33 - 55 K Atmosphere: CH4 and N2 Surface: CH4 ice (?) Interior (?): Silicates & ices uto

  8. Formerly the Ninth Planet of the Solar System Average Orbital Distance: 40 AU Orbital Period: 248 years Orbital Inclination: 17o Orbital Eccentricity: 25% Rotation Period: -6.4days Radius: 0.6 RM Mass: 0.3MM Average Density: 2100 kgm-3 Surface Temperature: 33 - 55 K Atmosphere: CH4 and N2 Surface: CH4 ice (?) Interior (?): Silicates & ices uto

  9. The Pluto Formerly Known as Planet Average Orbital Distance: 40 AU Orbital Period: 248 years Orbital Inclination: 17o Orbital Eccentricity: 25% Rotation Period: -6.4days Radius: 0.6 RM Mass: 0.3MM Average Density: 2100 kgm-3 Surface Temperature: 33 - 55 K Atmosphere: CH4 and N2 Surface: CH4 ice (?) Interior (?): Silicates & ices

  10. History of Discovery Classical Planets: Mercury, Venus, Mars, Jupiter & Saturn Uranus: (1781) Herschel Neptune: (1864) Adams & Leverrier Ceres: (1801) Piazzi (asteroid and now Dwarf Planet)

  11. History of Discovery Pluto: 1930 Clyde Tombaugh Percival Lowell

  12. I.A.U. Circulaire No. 255 BUREAU CENTRAL ASTRONOMIQUE DE L'UNION ASTRONOMIQUE INTERNATIONALE OBSERVATOIRE DE COPENHAGUE TRANSNEPTUNIAN PLANET? Lowell observatory telegraphs systematic search begun years ago supplementing Lowells investigations for Transneptunian planet has revealed object which for seven weeks has in rate of motion and path consistently conformed to transneptunian body at approximate distance he assigned fifteenth magnitude position march twelve three hours G.M.T. was seven seconds of time west from delta geminorum agreeing with Lowells predicted longitude.

  13. History of Discovery Charon: (1978) Christy Nix & Hydra: (2005) Pluto Companion Search Team

  14. History of Discovery 1990’s: Here come the Kuiper Belt Objects! 1992: 1992 QB1 David Jewitt & Jane Luu. Currently ~1000 KBO’s known.

  15. History of Discovery Late 1990’s to Present: A TransNeptunian Zoo.

  16. History of Discovery And then there was Eris (& Dysnomia): “Scatter Disk Object” 2005 Brown, Trujillo & Rabinowitz

  17. A Brief History of the Solar System • Collapse of cold pre-stellar cloud (~5GYA) a) Initial cloud contains mass and angular momentum of Solar system • Why does it collapse? • Marginally unstable to collapse? • Triggered collapse? 100 AU 0.1 pc 105 yrs

  18. A Brief History of the Solar System Well, what next?

  19. A Brief History of the Solar System 2. The Solar Nebula (Kant 1775, Laplace 1796) Close to the Protosun (inside the “frostline”), volatiles are vaporized, and only refractory elements are available for planet building by accumulation and then accretion. • Inner planets are rocky ~8 AU

  20. A Brief History of the Solar System 2. The Solar Nebula (Kant 1775, Laplace 1796) b) Far from the Proto-Sun, Ices are also available for Building planetary cores. • Outer Solar System is (or should be) very different from inner Solar System. ~80 AU

  21. A Brief History of the Solar System 3. Planet Formation Terrestrial Planets: relatively straightforward. Gas & Ice Giant Planets: Phasers at Dawn. “Core Accretion” “Spiral Instability” vs. Takes Too Long Doesn’t Work

  22. A Brief History of the Solar System 4. Planet Billiards Jupiter, Saturn, Uranus & Neptune migrate after formation (e.g., the “Nice Model” 2004) • Initially J,S close; Neptune inside Uranus orbit; KBO 20-30 AU • J,S migrate in and out, respectively=> fling out Neptune, KBO’s • Neptune clears primordial KB, captures Triton, perturbs PLUTO

  23. A Brief History of the Solar System 4. Planet Billiards b) Bombardment • Forms Earth & Moon • May form Martian satellites • May form Pluto-Charon

  24. A Brief History of the Solar System 4. Planet Billiards Populate Scattered Disk, Oort Cloud. Delivers volatiles to inner solar system. • Solar Ignition • Hydrogen Fusion (p-p chain) begins in core of Sun So where does this leave Poor Old Misbegotten Pluto?

  25. Pluto is Not a Planet On August 24 2006, members of the IAU finally came to their collected senses and voted Pluto out of the Ritzy Planet Club. Was this mean? Logical? Or both? What’s the case against Pluto?

  26. Real Planets don’t look like tiny plates of quiche

  27. Real Planets don’t look like tiny plates of quiche a) Pluto is Bloody Tiny.

  28. Real Planets don’t look like tiny plates of quiche b) Pluto’s orbit is unlike any of the other planets.

  29. Real Planets don’t look like tiny plates of quiche c) There are a lot of tiny icy bodies out there, too.

  30. Real Planets don’t look like tiny plates of quiche d) Pluto is a binary object What to do about Pluto, then?

  31. Fortunately, we already have an object parked in Saturn Orbit that seems right for the job.

  32. Real Planets don’t look like tiny plates of quiche Thus Sayeth the IAU: A Planet is an object that 1. orbits the Sun (so far so good); 2. is massive enough to pull itself into a sphere (again, good enough); and 3. has cleared the region of objects, i.e., is in some sense locally gravitationally independent. D’Oh! And so, mercifully, Pluto, along with Eris and Ceres and probably many, many more are ‘Dwarf Planets’.

  33. “Now cracks an icy sheath. Good night, odd ball,
 And flights of comets sing thee to Kuiper!"

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