Transcript Document

Inventory of the Solar System
Astr 221 2015
Nightwatch Ch. 7 & 10
• There are eight major planets with nearly
circular orbits.
• Pluto and Eris are smaller than the major
planets and have more elliptical orbits.
What are the major features of
the Sun and planets?
Sun and planets to scale
Planets are very
tiny compared to
distances
between them.
Sun
• Over 99.9% of solar system’s mass
• Made mostly of H/He gas (plasma)
• Converts 4 million tons of mass into energy each second
Mercury
• Made of metal and rock; large iron core
• Desolate, cratered; long, tall, steep cliffs
• Very hot and very cold: 425C (day)–170C (night)
Venus
• Nearly identical in size to Earth; surface hidden by clouds
• Hellish conditions due to an extreme greenhouse effect
• Even hotter than Mercury: 470C, day and night
Earth
Earth and Moon with
sizes shown to scale
• An oasis of life
• The only surface liquid water in the solar system
• A surprisingly large moon
Mars
• Looks almost Earth-like, but don’t go without a spacesuit!
• Giant volcanoes, a huge canyon, polar caps, more
• Water flowed in distant past; could there have been life?
“Canals” on Mars
• Percival Lowell misinterpreted surface features
seen in telescopic images of Mars.
Swarms of Smaller Bodies
• Many rocky
asteroids
and icy
comets
populate the
solar
system.
Asteroids are cratered and not round.
Origin of Asteroid Belt
• Rocky planetesimals
between Mars and
Jupiter did not
accrete into a planet.
• Jupiter’s gravity,
through influence of
orbital resonances,
stirred up asteroid
orbits and prevented
their accretion into a
planet.
Jupiter
• Much farther
from Sun than
inner planets
• Mostly H/He;
no solid surface
• 300 times more
massive than
Earth
• Many moons,
rings
Saturn
• Giant and gaseous like Jupiter
• Spectacular rings
• Many moons, including cloudy Titan
Rings are
NOT solid;
they are made
of countless
small chunks
of ice and
rock, each
orbiting like a
tiny moon.
Artist’s conception
Uranus
• Smaller than
Jupiter/Saturn;
much larger than
Earth
• Made of H/He gas
and hydrogen
compounds
(H2O, NH3, CH4)
• Extreme axis tilt
• Moons and rings
Neptune
• Similar to Uranus
(except for axis
tilt)
• Many moons
(including Triton)
Pluto (and Other Dwarf Planets)
• Much smaller than major planets
• Icy, comet-like composition
• Pluto’s main moon (Charon) is of similar size
Other Icy Bodies
• There are many
icy objects like
Pluto on elliptical,
inclined orbits
beyond Neptune.
• The largest of
these, Eris, was
discovered in
summer 2005, and
is even larger than
Pluto.
• What are the major features of the Sun and
planets?
– The planets are very small compared to
the distances between them.
– The planets of the inner solar system are
rocky and have few moons.
– The planets of the outer solar system are
gaseous and have many moons and
rings.
– Pluto is unlike either the inner or outer
planets.
Anatomy of a Comet
• A coma is the
atmosphere that
comes from a
comet’s heated
nucleus.
• A plasma tail is gas
escaping from coma,
pushed by the solar
wind.
• A dust tail is pushed
by photons.
Only a tiny number of
comets enter the inner
solar system. Most
stay far from the Sun.
Oort cloud:
on random orbits
extending to about
50,000 AU
Kuiper belt:
on orderly orbits
from 30–100 AU in
disk of solar system
Comets eject small particles that follow the comet around in its
orbit and cause meteor showers when Earth crosses the comet’s
orbit.
Processed Meteorites
Where did the solar system
come from?
Evidence from Other Gas
Clouds
• We can see
stars forming in
other
interstellar gas
clouds, lending
support to the
nebular theory.
Was our solar system destined to
be?
•
•
Formation of
planets in the
solar nebula
seems inevitable.
But details of
individual planets
could have been
different.
Giant Impact