Transcript Slide 1

MINOR MEMBERS
OF THE SOLAR
SYSTEM: Asteroids
• Images of three asteroids, taken during spacecraft
flybys, shown to scale (Mathilde is 59 km wide
and 47 km high)
General Thesis
Asteroids and Comets are relics of
the early stages of accretion of the
solar nebula
I: History of Discovery
• A “gap” in the known planetary system
between Mars (1.5 AU) and Jupiter (5.2 AU)
• The Titius-Bode law (purely numerical
relation) “predicted” a planet in the gap
between Mars and Jupiter
Titius-Bode Law
Planet
Calculated distance True distance
Mercury
(0+4)/10 = 0.4
0.39
Venus
(3+4)/10 = 0.7
0.73
Earth
(6+4)/10 = 1.0
1.00
Mars
(12+4)/10 = 1.6
1.5
?
(24+4)/10 = 2.8
Jupiter
(48+4)/10 = 5.2
5.2
Saturn
(96+4)/10 = 10.0
9.6
Uranus
(192+4)/10 = 19.6
19.2
Asteroid discoveries
• Discoveries: Ceres 1801, Pallas 1802, Juno
1804, Vesta 1807
• Largest is Ceres (940 km diameter)
• Photography (after 1890’s) allowed
discovery of many more asteroids
• As many as several million with diameters
of 1 km or more
• Total mass ~1/20 mass of Moon
II: Classification of Asteroids
Belt Asteroids
• Semimajor axes 2.2–3.3 AU
• Periods 3.3–6 years
• Families of asteroids (similar orbits, surface
appearance) may be fragments of a single asteroid
produced by collisions
• Some gaps in belt caused by resonances with
Jupiter
Belt asteroids
Trojans
• Orbit at Lagrangian Points (60° ahead and
behind Jupiter)
• Stable orbits – the asteroids will not be swept
up by Jupiter
• May be several thousand in number
• Size: Most are a few km, some are >100 km
Trojan Asteroids
Earth-approaching
• May be several thousand >1 km diameter
• Radar images are available for several that
approached Earth
Amor
• Have orbits crossing Mars’s orbit
• Perihelion distances between 1.017 and 1.4
AU (ie between Earth and Mars)
Apollo
• Cross Earth’s orbit but have semimajor
axes greater than 1.0 AU (elliptical orbits!)
Aten
• Have orbits with semimajor axes of less
than 1.0 AU (inside Earth’s orbit!)
Centaurs
• Orbit beyond Jupiter
eg Hidalgo: A = 5.9 AU
Chiron: A= 13.7 AU (beyond Saturn)
Are these asteroids or comets?
Kuiper Belt Asteroids?
• Beyond Neptune (~ 40 AU) a growing number of
small bodies have been discovered
Are these asteroids or comets?
• Distinction may be unimportant – all bodies out
here are ice-balls like comets!
The Kuiper Belt
• A belt of many orbiting icy chunks
• Perturbations alter orbit of Kuiper Belt object and
can send it into inner solar system  comet !
Several space missions have brought back
close-up pictures of asteroids:
– Galileo spacecraft flew by Gaspra and Ida
– NEAR spacecraft flew by Mathilde.
Origin of the Asteroids
• Debris left over from formation of solar system.
(Accretion process limited by tidal effects of
Jupiter).
• Total mass (1/20 mass of moon) is too low to have
been remnants of a planet.
• Collisions between asteroids produce smaller
fragments (families of asteroids) and meteoroids,
some of which fall on Earth.
IV: Collisions between Asteroids
and the Earth?
• Evidence that impact of ~10 km asteroid 65
million years ago, at end of Cretaceous Period
– led to the extinction of the dinosaurs
– enhanced Iridium in layer at K-T (Cretaceous-tertiary)
boundary in sediments worldwide
• Chicxulub crater (200 km) in Yucatan, Mexico
• Tunguska event (30 June 1908) in Siberia, may
have been an impact with a 100,000 ton body
Watch Out!
• Estimated that impacts like the K-T impact
occur about every 100 million years.
• Results could be catastrophic to civilization!