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Chapter 10: Worlds of Gas and Liquid- The Giant Planets
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The Giant Planets: Jupiter, Saturn, Uranus and Neptune
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Some numbers on the giant planets
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Uranus & Neptune are discovered worlds Near IR and visible light images taken with the Keck telescope using adaptive optics
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William Herschel discovered Uranus in 1781 He tried to name it Georgium Sidus after King George III (yes, it’s the same King George the American colonist called a tyrant). No one outside England liked the name so it became Uranus
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The discovery of Neptune is wrapped up in political intrigue
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John Couch Adams (England) & Urbain Le Verrier (France) independently predicted Neptune in 1846 based on the orbit of Uranus
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After receiving the predicted position from Le Verrier, Johann Galle actually discovered Neptune on September 23, 1846
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Jupiter and Saturn are mostly Hydrogen & Helium with other stuff deep in their interior Atmospheric Composition by mass 75% Hydrogen 24% Helium 1% Other Overall Planet Composition by mass 71% Hydrogen 24% Helium 5% Heavier elements
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Uranus and Neptune have much more heavy elements While the atmosphere is similar in composition to Jupiter and Saturn. The interior is much different. Both have a “rocky” core with a mass about that of Earth and an “icy” mantle with about 10 Earth masses. That makes the overall amount of hydrogen only about 15% of the total mass with helium being only a few percent
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Jupiter and Saturn rotate faster at the equator than at the poles Polar Rotation Period 9 hr 55 min 41 sec Equatorial Rotation Period 9 hr 50 min 28 sec Polar Rotation Period 10 hr 39 min 25 sec Equatorial Rotation Period 10 hr 13 min 59 sec
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Differential Rotation Uranus and Neptune probably have differential rotation too but we haven’t been able to measure it
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When we look at giant planets all we see are the cloud tops
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The wind patterns on Jupiter are extremely complex
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The Great Red Spot is a huge anticyclone
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Saturn’s Atmosphere: Similar to Jupiter but different
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Saturn’s polar vortex storm is very unusual
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The weather on Uranus and Neptune is best seen in IR Uranus, especially, has very few clouds and they are deep in the atmosphere. Neptune is more active.
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Neptune’s Great Dark Spot was actually a hole in the clouds
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The clouds on Jupiter and Saturn are not just water Because Saturn is colder, the layers are deeper down
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Uranus and Neptune have similar cloud layers Uranus and Neptune are colder than Saturn so you have to go even deeper down to find the clouds
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The winds on Saturn are actually stronger than those on Jupiter
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The strongest winds of all are found on Neptune
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The zonal winds on Jupiter are driven by strong storm vortexes
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Similar processes may drive the winds on Saturn
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Much of the internal heat comes from ongoing differentiation This is especially true for Saturn and Neptune
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Differentiation in Jupiter and Saturn has resulted in a layered interior structure Liquid metallic hydrogen requires extreme pressure and high temperatures
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Uranus & Neptune have more “icy” interiors The pressure inside Uranus and Neptune is never high enough to form liquid metallic hydrogen
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The result of all that liquid metallic hydrogen in Jupiter is an enormous magnetosphere
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Jupiter’s magnetic field creates radio waves by synchrotron emission
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The “donut” in the magnetosphere is created by particle spewed out of volcanoes on Io
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Io’s movement through Jupiter’s magnetic field creates a 5 million amp current
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Saturn’s Magnetosphere is not as strong as Jupiter’s Saturn’s liquid metallic hydrogen layer is smaller than Jupiter’s but it still creates a huge magnetic field
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Uranus & Neptune don’t have liquid metallic hydrogen The highly compressed liquid water and ammonia layer is a good conductor so it can create a magnetic field
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Uranus and Neptune have very unusual magnetospheres Their magnetic fields are tilted at an extreme angle from their rotation axis. They are also offset from the center of the planet
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A comparison of the orientation of the giant planets magnetic fields
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