formation of the solar system. - university of virginia · formation of the solar system. 2 ... (in...
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The Jovian Planets Huge worlds, heavily mantled in gas at the time of the
formation of the Solar System.
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Composition of the Jovian Planets Jupiter and Saturn attracted so much gas gravitationally
during formation that the have a composition that largely matches the Sun
− Mostly hydrogen, some helium, and a a tiny fraction of the other elements.
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Composition of the Jovian Planets Jupiter and Saturn attracted so much gas gravitationally
during formation that the have a composition that largely matches the Sun
− Mostly hydrogen, some helium, and a a tiny fraction of the other elements.
- Uranus and Neptune are also dominate by Hydrogen and Helium, but not to the degree that Jupiter and Saturn are.
- The significant portion of their mass likely made up by water leads to Uranus and Neptune being called “ice giants”
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Composition of the Jovian Planets Under the immense pressure of the “atmosphere” hydrogen
and helium behave more like liquids in the interior. Only the outermost layers are recognizable as “atmosphere”
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Jovian Planet Surfaces There aren't any... The cloudtops provide an apparent
surface, but beneath is nothing but gas of increasing density.
− The “cartoon” cores do not represent a surface either (in the same way as you would not regard the Earth's core as a “surface”).
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Jovian Cloud Composition Jovian planets, particularly Jupiter and Saturn, have “cloud
decks” of different composition.
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Jovian Cloud Composition The highest (and whitest) clouds are ammonia. Next deepest is ammonium hydrosulfide, and deeper still is
water.
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Jovian Cloud Composition The highest (and whitest) clouds are ammonia. Next deepest is ammonium hydrosulfide, and deeper still is
water.
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Jovian Cloud Composition For Uranus and Neptune it is cold enough that the high cloud
decks are frozen methane.
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Jupiter vs. Saturn Jupiter's cloud features are more sharply defined than
Saturn's because Saturn's cloud decks form lower in the atmosphere.
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Learning about the Jovian Planets Earth-based telescopes can provide plenty of analytic
information about atmospheric composition and bulk weather on Jovian worlds but the view is fuzzy because of our distance.
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Learning about the Jovian Planets Going there makes a huge difference....
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Voyager Two Voyager spacecraft were launched in 1977 and arrived at
Jupiter in 1979. One of the two visited Jupiter, Saturn, Uranus and Neptune – the last in 1989.
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Visits to Jupiter Pioneer flyby(s) - 1973/4 Voyager flyby(s) - 1979 Galileo orbiter - 1995 Cassini flyby - 2000 (on the way to orbit Saturn in 2004) New Horizons flyby – 2007 (on the way to fly by Pluto in 2015)
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Visits to Jovian Planets Jupiter
− Pioneer 10 and 11
− Voyager 1 and 2
− Galileo Orbiter
− Cassini (boost to Saturn)
− New Horizons (boost to Pluto)
− Juno (in transit – arrival 2016)
Saturn
− Pioneer 10 and 11
− Voyager 1 and 2
− Cassini orbiter
Uranus and Neptune
− Voyager 2
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Don't Forget the Moons These spacecraft also provided detailed views of numerous
satellites of these Jovian worlds.
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Rapid Rotation All Jovian planets rotate rapidly. Jupiter completes a rotation
in just under 9 hours.
− The rapid spin leads to significant “flattening”
− The shape of the planets gives away information about the cores.
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Rapid Rotation Rapid rotation also leads to
banded atmospheric circulation – belts and zones.
− These bands correspond to terrestrial high and low pressures systems
− sinking and rising atmosphere respectively.
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Rapid Rotation Rapid rotation also leads to
banded atmospheric circulation – belts and zones.
− These bands correspond to terrestrial high and low pressures systems
− sinking and rising atmosphere respectively.
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Oval Storms on Jupiter The scale of the Great Red Spot
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The Great Red Spot The scale of the Great Red Spot
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Planetary Magnetic Fields
Liquid Metal Core?
Rapid Rotation?
Strong Magnetic Field?
Mercury No No No
Venus Yes No No
Earth Yes Yes Yes
Mars No Yes No
Jupiter Yes Yes, Yes Huge
Saturn Yes Yes, Yes Huge
Uranus/Neptune
Salty slush?
Yes Yes
Rapid rotation combined with a liquid metallic interior leads to the generation of an intense magnetic field
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Interaction with the Solar Wind Planetary magnetic fields shield planets from the solar wind
and cause energetic particles to interact with the planet's atmosphere causing auroral emission.
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Magnetospheres Planetary magnetic fields shield planets from the solar wind
and cause energetic particles to interact with the planet's atmosphere causing auroral emission.
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Jupiter's Immense Magnetic Field
Rapid rotation combined with a liquid metallic interior leads to the generation of a magnetic field so strong that its influence extends beyond Saturn's orbit.
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Aurorae Planetary magnetic fields guide high-energy solar wind particles
to the planetary poles
− The interaction of these particles with atmospheric gases makes the gases emit spectral line radiation causing aurorae.
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Jupiter's Aurora
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Aurorae on Earth The aurora borealis/australis (also known as the “northern
lights” is typically a phenomenon observed at northerly latitudes.
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Earth's Aurora
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Earth's Aurora
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Why isn't Jupiter a Star? It's made of the same mix of elements as the Sun. It's similar in size.
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Why isn't Jupiter a Star? Jupiter may be 1/10th the diameter of the Sun, but it has
1/1000th the mass of the Sun – therein lies the key difference.
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What Keeps the Sun Shining The Sun has maintained its current luminosity of
400,000,000,000,000,000,000,000,000 (4x1026) Joules/second for the past 4.6 billion years.
− A 100 Watt lighbulb consumes 100 Joules/second
− World energy demand is about 1 trillionth of this rate.
The Sun emits enough energy every second to supply the world for a million years.
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What Keeps the Sun Shining The Sun has maintained its current luminosity of
400,000,000,000,000,000,000,000,000 (4x1026) Joules/second for the past 4.6 billion years.
− A 100 Watt lighbulb consumes 100 Joules/second
− World energy demand is about 1 trillionth of this rate.
The Sun emits enough energy every second to supply the world for a million years.
Where does this energy come from?− Chemical burning last only 10,000 years. Gravitational
contraction would supply energy for 10 million years.
The Answer
E = mc2
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E=mc2
Matter and Energy are interchangeable quantities, if you have the right tools.
Einstein's famous formula gives the conversion rate.
− c is the speed of light (3x108 meters/sec) – a huge number... squared here.
− a small amount of matter represents a huge amount of energy.
A penny has a mass of 2.5 grams− converted to energy it could keep a 100
watt light bulb shining for 100,000 years.
− or supply the world's energy needs for 20 seconds.
− or lay waste to a large city....
This 100% conversion is possible if you are able to mix equal quantities of matter and antimatter.
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E=mc2 at 0.7% Efficiency Hydrogen under pressure and heated to 10's of millions of
degrees will fuse to form Helium.
− High temperatures get protons moving fast enough to overcome the repulsive force of their like charges.
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E=mc2 at 0.7% Efficiency At these high speeds the protons can get close enough for the
strong nuclear force to take over and fuse them together.− By the end of the process 0.7% of the mass has
disappeared.
− This small efficiency is enough to have kept the Sun shining for 4.6 billion years.
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A Hot Solar Interior Just as when you descend from a mountain it gets hotter as
you go deeper into the Earth's atmosphere, the crushing pressure of the Sun's outer layers make the Sun's interior immensely hot.
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A Hot Solar Interior The expected central temperature of about 15 million degrees
is just right for thermonuclear fusion to occur.− Jupiter comes up quite short, reaching a central temperature
of a few 10's of thousands of degrees.
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Solar Neutrinos
Each fusion of a pair of protons to form a deuteron produces an energetic neutrino.
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Solar Neutrinos
Atoms are mostly empty space. Squeeze all the “space” out of the Earth and it would fit in Scott Stadium (you would fit in the head of a pin)
NO!
Yes!
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Solar Neutrinos
Neutrinos interact weakly even with protons and neutrons.
- When they are produced in the Sun the fly out of the center of the Sun unimpeded at the speed of light.
– - A trillion (1012) of them are passing through you every second right now.
–
Yes!
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Solar Neutrinos
Yes!
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Energy Still Leaking out of the Interior Jupiter as a thermal (infrared) source
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How Big for Fusion? Jupiter would have had to have been about 80 times more
massive to get hot enough internally to fuse hydrogen into helium.
− We find examples in interstellar space of objects that formed like stars that didn't reach this threshold – Brown Dwarfs.
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How Big for Fusion? Jupiter would have had to have been
about 80 times more massive to get hot enough internally to fuse hydrogen into helium.
− We find examples in interstellar space of objects that formed like stars that didn't reach this threshold – Brown Dwarfs.
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Massive Extrasolar Planets Many of the extrasolar planets being found today are many
times the mass of Jupiter. Planets this large will still exhibit substantial “leftover”
infrared luminosity.
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Massive Extrasolar Planets Many of the extrasolar planets being found today are many
times the mass of Jupiter. Planets this large will still exhibit substantial “leftover”
infrared luminosity – the younger the brighter – ultimately enabling their direct detection.
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Finding Them
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Finding Them
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Finding Them