Jovian Planet Systems - unf.edun00006757/astronomylectures/ECP4e/08... · • Composition of...
Transcript of Jovian Planet Systems - unf.edun00006757/astronomylectures/ECP4e/08... · • Composition of...
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Chapter 8Jovian Planet Systems
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• They are much larger than terrestrial planets• They do not have solid surfaces• The things they are made of are quite different
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• Terrestrial planets are made principally of rock and metal• Jovian planets are not…
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• Composition of Jupiter and Saturn– Mostly H and He– “Gas giants”
• Composition of Uranus and Neptune– Mostly hydrogen compounds: water (H2O), methane (CH4), ammonia (NH3)– Some H, He, and rock– “Ice giants”
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• So why are the jovian planets different from terrestrials?• And why are the gas giants different from the ice giants?• Let’s see…
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The difference between jovian and terrestrial planets
• LOCATION is the reason for the differences between jovians and terrestrials• Remember the frost line?
• The jovian planets formed beyond it, where planetesimals could accumulate ICE (solid hydrogen compounds) as well as rock and metal
• So the jovian cores grew much larger than terrestrial cores…• …and could therefore attract and retain H and He from the surrounding nebula
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The difference between gas giants and ice giants
• Gas giants and ice giants are different mainly in how much H and He they contain• Both LOCATION and TIMING are reasonable explanations for that, based on the
following general hypotheses for any planetary system:
LOCATION• planets forming in denser nebula will start forming their cores first…• …and they will have more material to work with and thus grow faster…• …and they will become big enough to attract H and He first
TIMING• planets that start earlier will capture more hydrogen and helium gas before
the first solar wind blows the leftover gas away
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The difference between gas giants and ice giants
• For our specific solar system:• The solar nebula was denser closer to the center • Jupiter and Saturn formed closer to the center• So they got started first and were therefore able to capture H and He for a
longer time• Uranus and Neptune formed farther out, in a thinner part of the nebula• So they didn’t get started as soon, and didn’t have as much material to feed on• This limited their growth…• …and it also made their composition different from Jupiter and Saturn, with
less H and He compared to H-compounds, rock, and metal• But there is another aspect of the differences between our jovians that can’t be
explained this way…
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The puzzle of jovian planet density differences
• Assume all four have similar rock, metal, and hydrogen compound cores
• Neptune formed farthest from the Sun……in the least dense part of the solar nebula……started gathering gas later, and collected less...…so its composition contains the highest proportion of hydrogen compounds……and it should have the highest density
• Similar logic suggests Uranus should have a slightly lower density
• And the same logic suggests that Saturn should have a lower density…
• And that Jupiter should have the lowest density• But it doesn’t!
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• Jupiter does have the highest proportion of H/He……and so it should have the lowest density
• What’s going on?...…GRAVITY!
• And a stack of pillows will help explain it
The puzzle of jovian planet density differences
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Sizes of Jovian Planets
• If you stack pillows, at first the height of the stack increases one pillow thickness at a time
• But eventually, the weight of the pillows above starts to flatten those below
• And the height doesn’t increase as fast• Same thing happens with balls of gas,
like jovian planets• Adding more gas compresses the
underlying gas layers to high density
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Sizes of Jovian Planets
• Greater compression is why Jupiter is not much larger than Saturn even though it is three times more massive.
• And because it isn’t as much larger as it is more massive, it’s more dense.
• Jovian planets with even more mass can be smaller than Jupiter.
• Compression also affects the interior structure of jovian planets…
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What are jovian planets like on the inside?
• Layers under high pressures and temperatures• Cores (~10 Earth masses) made of hydrogen compounds, metals, and rock• But the layers above the core are different for the different planets•Why would this be?•It’s because of the effect of gravity on internal pressure
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• High pressure inside of Jupiter causes the phase of hydrogen to change with depth.
• So the layering is not from differentiation, but from pressure
• Hydrogen acts like a metal at great depths because it ionizes and its electrons move freely.
Inside Jupiter – Contents Under Pressure
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• Denser rock, metal, and hydrogen compound material settles to the core (this is differentiation)
• But no one knows what the core is like under these extreme conditions of temperature and pressure
Inside Jupiter – Contents Under Pressure
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Comparing Jovian Interiors
• Models suggest that cores of all jovian planets have similar composition.• But less H and He and lower pressures inside Uranus and Neptune mean no
metallic hydrogen.• There is also the possibility of diamonds! • See here for diamonds, but see here for lowly graphite)
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Jupiter’s Magnetosphere
• Jupiter’s enormous metallic hydrogen layer, created by the massive internal pressures, generates a very strong magnetic field and a gigantic magnetosphere.
• It is larger than the Sun• Charged gases escaping Io feed the donut-shaped Io torus.
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Jupiter’s Atmosphere
• Hydrogen compounds in Jupiter form clouds.
• Different cloud layers correspond to condensation points of different hydrogen compounds.
• Other jovian planets have cloud layers for similar reasons.
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Jupiter’s Colors
• Ammonium sulfide clouds (NH4SH) reflect red/brown.• Ammonia, the highest, coldest layer, reflects white.
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Saturn’s Colors
• Saturn’s cloud layers are similar• But because it is colder, they are deeper and more subdued
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The Color of Uranus and Neptune
• Why are they bluish?• Methane gas on Neptune
and Uranus absorbs red light better than blue light.
• Blue light reflects off methane clouds, making those planets look blue.
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Jupiter’s Great Red Spot
A storm twice as wide as Earth, observed for >180 yearsBut unlike typical storms on Earth, it is a high-pressure storm
You can tell this by considering the “Coriolis effect”
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A ball rolled on a rotating disk appears to curveThis is due to the Coriolis effect
It makes it look like a force—the “Coriolis force”—is acting on the ball
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This disk is spinning CCW
The dot doesn’t move because we are on the disk
The Coriolis effect is an illusion……and the “Coriolis force” is fictitious
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The ball curves on the disk, but only because the disk rotatesNot because there is a force acting on it
So there is no such thing as a “Coriolis force”—it is fictitious
If we step off of the disk
This is what we see
The ball actually moves in a straight line
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The Coriolis effect does the same thing to wind on a planetAir streams in toward low pressure centers…
…causing CCW circulation in the northern hemisphere……and CW circulation in the southern hemisphere
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The Great Red Spot is in the southern hemisphere of JupiterSince its circulation is counterclockwise, it is a high-pressure storm
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Weather on Jovian Planets
• All the jovian planets have strong winds and storms.
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Images taken every 10 hours over the course of 34 days by Voyager 1 as it approached Jupiter in 1979
Weather on Jovian Planets
• All the jovian planets have strong winds and storms.• Jupiter’s atmosphere, e.g., is very active
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The Moons of the Jovian Planets
These are the Galilean moonsBut there are many more…
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Medium and Large Moons(diameters > 300 km)
• Enough self-gravity to be spherical• Have substantial amounts of ice• Formed in orbit around jovian planets• Circular orbits in same direction as
planet rotation (prograde)
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Small Moons(diameters < 300 km)
• Far more numerous than the medium and large moons
• Not enough gravity to be spherical: “potato-shaped”
• Many have prograde orbits, and so probably formed along with planet
• But some have retrograde orbits, evidence of capture
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• Here are the Galilean moons and Mercury to scale• Mercury is essentially geologically dead• Why is this not a surprise…?• Because Mercury is a small planet!• So moons that are the same size or smaller than
Mercury should be geologically dead, too• But they’re not…
Jovian moons are surprisingly active geologically
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Io’s Volcanic Activity
• Io, for example, is the most volcanically active body in the solar system
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Io’s Volcanoes
• Ongoing volcanic eruptions change Io’s surface all the time• The reason Io is so volcanic is “tidal heating” caused by its unusually
elliptical orbit
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Because of Io’s elliptical orbit, tidal forces alternately squish and stretch it
But why is its orbit so elliptical?
It’s due to “orbital resonance”
This heats it up…
…which is tidal heating
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Io, Europa, and Ganymede share in a “1:2:4 orbital resonance”
The resonances mean they always come close together at the same locations
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The tugs add up over time, increasing the ellipticity of the orbits tidal heating
When they come close together, they tug on each other
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Io’s Volcanoes
• The tidal flexing probably melts the mantle close to the surface• And this is the source of the magma for Io’s 400 or so active volcanoes
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Europa’s Ocean: Waterworld?
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Tidal Stresses Crack Europa’s Surface Ice
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Tidal stresses crack Europa’s surface ice
Tidal flexing closes crack
Tidal flexing opens crack
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Europa’s Interior Also Warmed by Tidal Heating
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Ganymede• Largest moon in the solar system• Clear evidence of geological
activity – uneven cratering • And it too might have an internal
ocean
• Internal heat from tidal heating (plus heat from radioactive decay?)
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Callisto• Heavily cratered surface• What does that suggest?
Little active geology• No orbital resonances
∴ no tidal heating• But it affects Jupiter’s magnetic field
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Callisto• Heavily cratered surface• What does that suggest?
Little active geology• No orbital resonances
∴ no tidal heating• But it affects Jupiter’s magnetic field
might have an internal ocean
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Callisto• Heavily cratered surface• What does that suggest?
Little active geology• No orbital resonances
∴ no tidal heating• But it affects Jupiter’s magnetic field
might have an internal ocean…possibly due to radioactive heating
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Atmosphere of Saturn’s moon Titan• Titan is the only moon
in the solar system which has a thick atmosphere.
• It consists mostly of nitrogen with some argon, methane, and ethane.
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Titan’s Surface
• The Huygens probe provided a first look at Titan’s surface in early 2005.
• It had liquid methane, and “rocks” made of ice.
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Titan’s “Lakes”
• Radar imaging of Titan’s surface reveals dark, smooth regions that may be lakes of liquid methane.
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Medium Moons of Saturn
• Almost all show evidence of past volcanism and/or tectonics.
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Ongoing Activity on Enceladus
• Fountains of ice particles and water vapor from the surface of Enceladus indicate that geological activity is ongoing.
• The Cassini probe found organic compounds in the plumes of these “cryovolcanoes”
• So Enceladus is an object of astrobiological interest
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Ongoing Activity on Enceladus
• Analysis of Enceladus’s gravity in 2014 suggested a subsurface ocean beneath surface ice (~25 km thick) under south pole
• Subsequent study by Cassini found that the ice shell is detached from the rocky core
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Ongoing Activity on Enceladus
• Analysis of Enceladus’s gravity in 2014 suggested a subsurface ocean beneath surface ice (~25 km thick) under south pole
• Subsequent study found that the ice shell is detached from the rocky core……suggesting that the ocean is global
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Neptune’s Moon Triton
• Larger than Pluto• Voyager saw evidence of
cryovolcanism• Has “retrograde” orbit• Along with its composition,
this suggests it’s a captured Kuiper belt object
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Why are the moons of jovian planets more geologically active than small rocky planets?
• Rock melts at high temperatures
• Rocky planets only have enough heat for geological activity if they are large.
• Ice melts at lower temperatures.
• Tidal heating can melt internal ice, driving “ice geology”.
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Jovian Moons and Life?
• As of today, there are more than 3900 confirmed exoplanets• Of these, almost 300 are in the habitable zone (HZ) of their star• Of these, many are Jupiter-size or bigger• In our solar system, all of the jovian planets have moons• Life as we know it could not exist on a jovian planet• But it could exist on the solid surface of a HZ jovian moon
…think Avatar…• So Earth-like planets in the HZ should not be the only targets of
searches for extraterrestrial life
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Jovian Planet Rings
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Saturn’s rings
• They are made up of numerous, tiny individual particles that are constantly colliding
• Clumps of particles form larger clumps and then break up
• The particles orbit over Saturn’s equator
• Each particle or clump obeys Kepler’s laws
• The rings are very thin
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Earth-Based View
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Spacecraft View
• The rings are actually made of many thin rings• Gaps separate the rings
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Gap Moons
• Some small moons, like Pan shown here in the Encke Gap, create gaps within rings.
• The gravity of the moon keeps the gap clear of ring particles
• This seems odd, but when you think about it, it makes sense
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Gap Moons
• The moon moves a little slower than the inner edge, slowing those particles down
• They lose orbital energy and fall closer to the planet
• The moon moves a little faster than the outer edge, speeding those particles up
• They gain orbital energy and move farther away
• What important law explainsthis?
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Shepherd Moons
• Some small moons “shepherd” ring particles into very thin rings in a similar way
• The gravitational influence of the moons Pandora and Prometheus (at right) keeps the F ring sharp
• A third moon, Janus is visible at upper left
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Jovian Ring Systems
• All four jovian planets have ring systems• The rings of Jupiter, Uranus, and Neptune just have smaller, darker ring
particles than Saturn’s rings
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Why do the jovian planets have rings?• Ring particles are too small to survive for very long periods of time• So there must be a continuous replacement of them• A possible source is continuing impacts between small jovian moons
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• There are many small moons close-in to the jovian planets• They could be remnants of larger moons or comets• The larger moons or comets could have been ripped apart
by straying into the “Roche tidal zone”• Within this zone, tidal forces exceed the gravitational
forces holding large or medium moons together• Only small moons can survive there
• Ring particles are too small to survive for very long periods of time• So there must be a continuous replacement of them• A possible source is continuing impacts between small jovian moons
Why do the jovian planets have rings?
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• The Cassini spacecraft burned up in Saturn’s atmosphere after its “grand finale” orbits • During the grand finale orbits, it studied Saturn’s rings in unprecedented detail• Analysis of these results is sure to help us better understand the rings of Saturn and other
jovian planets• Stay tuned…
Why do the jovian planets have rings?