Asteroids, Comets, and Dwarf Planets - Their Nature, Orbits, and Impacts

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Asteroids, Comets, and Dwarf Planets - Their Nature, Orbits, and Impacts
Chapter 9
Asteroids, Comets, and Dwarf Planets
      Their Nature, Orbits, and Impacts
Asteroids, Comets, and Dwarf Planets - Their Nature, Orbits, and Impacts
Asteroid Facts
• Asteroids are rocky leftovers of planet formation.
• The largest is Ceres, diameter ~1,000 km.
• There are 150,000 in catalogs, and probably over a
  million with diameter >1 km.
• Small asteroids are more common than large asteroids.
• All the asteroids in the solar system wouldn’t add up
  to even a small terrestrial planet.
Asteroids, Comets, and Dwarf Planets - Their Nature, Orbits, and Impacts
Asteroids with Moons
             • Some large asteroids
               have their own
               moon.

             • Asteroid Ida has a
               tiny moon named
               Dactyl.
Asteroids, Comets, and Dwarf Planets - Their Nature, Orbits, and Impacts
Asteroid Orbits
           • Most asteroids orbit
             in a belt between
             Mars and Jupiter.

           • Trojan asteroids
             follow Jupiter’s
             orbit.

           • Orbits of near-Earth
             asteroids cross
             Earth’s orbit.
Asteroids, Comets, and Dwarf Planets - Their Nature, Orbits, and Impacts
Which explanation for the asteroid belt
     seems the most plausible?
1. The belt is where all the asteroids
   happened to form.
2. The belt is the remnant of a large
   terrestrial planet that used to be between
   Mars and Jupiter.
3. The belt is where all the asteroids
   happened to survive.
Asteroids, Comets, and Dwarf Planets - Their Nature, Orbits, and Impacts
Asteroids
1. Are rocky and small–typically the size of a grain
   of rice or a marble
2. Are rocky, with a wide range of sizes, up to
   hundreds of miles in diameter
3. Have only thin atmospheres
4. Are made mostly of metals
5. Are mostly found in the inner solar system
Asteroids, Comets, and Dwarf Planets - Their Nature, Orbits, and Impacts
If you keep pushing a person on a swing with little
pushes, at just the right frequency, they will swing
         very high. This is an example of:
   1.   Newton’s second law
   2.   Newton’s first law
   3.   Energy conservation
   4.   Resonance
   5.   Conservation of angular momentum
Asteroids, Comets, and Dwarf Planets - Their Nature, Orbits, and Impacts
Orbital Resonances
            • Asteroids in orbital
              resonance with
              Jupiter experience
              periodic nudges.

            • Eventually those
              nudges move
              asteroids out of
              resonant orbits,
              leaving gaps in the
              belt.
Asteroids, Comets, and Dwarf Planets - Their Nature, Orbits, and Impacts
Orbits of asteroids in the asteroid
               belt
 1. Often intersect planets
 2. Are mostly between Mars and Jupiter
 3. Are grouped into patterns by resonances with
    Jupiter
 4. Are mostly inside the frost line
 5. All except # 1
Asteroids, Comets, and Dwarf Planets - Their Nature, Orbits, and Impacts
Meteorites come from

1.   Stars–they are falling stars
2.   Destroyed planets
3.   Asteroids
4.   The Moon and Mars
5.   Volcanic ejecta
A typical meteorite is
1. About the size of a house, and makes a crater
   when it lands
2. About the size of a pea or grain of rice and is
   invisible when it lands
3. About the size of a pea or grain of rice. It makes
   a bright streak in the sky and burns up
4. Made of ice
Meteor Terminology
• Meteorite: A rock from space that falls
  through Earth’s atmosphere.

• Meteor: The bright trail left by a meteorite.
Meteorites from Moon and Mars
• A few meteorites arrive from the Moon and
  Mars
• Composition differs from the asteroid
  fragments
• A cheap (but slow) way to acquire moon rocks
  and Mars rocks
How do comets get their tails?
Comet Facts
• Formed beyond the frost line, comets are icy
  counterparts to asteroids.
• The nucleus of a comet is like a “dirty snowball.”
• Most comets do not have tails.
• Most comets remain perpetually frozen in the
  outer solar system.
• Only comets that enter the inner solar system
  grow tails.
Anatomy of a Comet
            • Coma is atmosphere
              that comes from
              heated nucleus.

            • Plasma tail is gas
              escaping from coma,
              pushed by solar
              wind.

            • Dust tail is pushed
              by light.
Growth of Tail
If Earth passed through the tail of a
    comet, what would happen?
   1. People would die from the gasses such as
      methane and ammonia
   2. It depends on if it was the gas tail or the dust tail
   3. Earth might be knocked out of its orbit or its axis
      might get tilted
   4. Nothing. Halley’s comet did this and nothing
      happened
What is plasma (in astronomy)?

1. An element commonly found in space
2. A constituent of blood
3. An ionized or charged gas, made when atoms
   lose one or more electrons
4. Another name for the solar wind
Why do comet tails always point away from the
                    Sun?
    1. They are left behind as the comet moves
    2. Newton’s third law: Comet goes one way, tail
       goes the other
    3. The solar wind blows on them
    4. They don’t; this is just a perspective effect of
       how we view them
Comets eject small particles that follow the comet around in its
orbit and cause meteor showers when Earth crosses the comet’s
orbit.
How big can a comet be?
Is Pluto a Planet?
•   Much smaller than the eight major planets
•   Not a gas giant like the outer planets
•   Has an icy composition like a comet
•   Has a very elliptical, inclined orbit
•   Pluto has more in common with comets than with the
    eight major planets.
Discovering Large Iceballs
                • In summer 2005,
                  astronomers
                  discovered Eris, an
                  iceball even larger
                  than Pluto.

                • Eris even has a
                  moon: Dysnomia.
Other Kuiper Belt Objects
• Most have been discovered very recently so
  little is known about them.
• NASA’s New Horizons mission will study
  Pluto and a few other Kuiper Belt objects in
  a planned flyby.
Have we ever witnessed a major
          impact?
Comet SL9 caused a string of
violent impacts on Jupiter in
1994, reminding us that
catastrophic collisions still
happen.

Tidal forces tore it apart during a
previous encounter with Jupiter.
This crater chain on Callisto probably came from another
comet that tidal forces tore to pieces.
Dusty debris at an impact site
Artist’s conception of SL9 impact
Several impact sites
Impact sites in infrared light
Did an impact kill the dinosaurs?
Mass Extinctions
• Fossil record shows occasional large dips in
  the diversity of species: mass extinctions.
• The most recent was 65 million years ago,
  ending the reign of the dinosaurs.
Iridium Layer
No dinosaur fossils
in upper rock layers

 Thin layer
 containing the rare
 element iridium

  Dinosaur fossils in
  lower rock layers
Consequences of an Impact
• A meteorite 10 km in size would send large
  amounts of debris into the atmosphere.
• Debris would reduce the amount of sunlight
  reaching Earth’s surface.
• The resulting climate change may have
  caused mass extinction.
Likely Impact Site
            • Geologists found a
              large subsurface
              crater about 65
              million years old in
              Mexico.
Comet or
asteroid
about 10
km in
diameter
approaches
Earth
Is the impact threat a real danger
        or just media hype?
Facts About Impacts
• Asteroids and comets have hit the Earth.
• A major impact is only a matter of time: not IF but
  WHEN.
• Major impacts are very rare.
• Extinction level events ~ millions of years
• Major damage ~ tens to hundreds of years
Tunguska, Siberia: June 30, 1908
A ~40 meter object disintegrated and exploded in the atmosphere
Meteor Crater, Arizona: 50,000 years ago (50 meter object)
Frequency of Impacts
             • Small impacts
               happen almost daily.

             • Impacts large
               enough to cause
               mass extinctions are
               many millions of
               years apart.
The Asteroid with Our Name on It

• We haven’t seen it yet.
• Deflection is more probable with years of
  advance warning.
• Control is critical: breaking a big asteroid
  into a bunch of little asteroids is unlikely to
  help.
• We get less advance warning of a killer
  comet.
What are we doing about it?
• Stay tuned to
  http://impact.arc.nasa.gov
Surprising discovery?: A small asteroid that orbits
  within the asteroid belt has an active volcano.
1. Plausible. Several small objects in the solar system have active
   volcanoes (e.g. Io).
2. Plausible. Several asteroids are known to be composed of basaltic
   (lava) material.
3. Implausible. Only planets, not moons or asteroids, have
   volcanoes.
4. Implausible. Asteroids are too small to be geologically active now.
Surprising discovery?: A small asteroid that
                     orbits
within the asteroid belt has an active volcano.
  1.   Plausible. Several small objects in the solar system
       have active volcanoes (e.g. Io).
  2.   Plausible. Several asteroids are known to be composed
       of basaltic (lava) material.
  3.   Implausible. Only planets, not moons or asteroids, have
       volcanoes.
  4.   Implausible. Asteroids are too small to be geologically
       active now.
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