Chapter 10: Worlds of Gas and Liquid- The Giant Planets.

Chapter 10:Worlds of Gas and

Liquid-The Giant Planets

The Giant Planets: Jupiter, Saturn, Uranus and

Neptune

Some numbers on the giant planets

Uranus & Neptune are discovered worlds

Near IR and visible light images taken with

the Keck telescope using adaptive optics

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

The discovery of Neptune is wrapped up in political

intrigue

John Couch Adams (England) & Urbain Le Verrier (France)

independently predicted Neptune in 1846 based on the orbit of Uranus

After receiving the predicted position from Le Verrier, Johann

Galle actually discovered Neptune on September 23,

1846

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 Compositionby mass

• 71% Hydrogen

• 24% Helium

• 5% Heavier elements

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

Jupiter and Saturn rotate faster at the equator than at

the polesPolar Rotation Period 9 hr 55 min 41 sec

Equatorial Rotation Period 9 hr 50 min 28 sec

Polar Rotation Period10 hr 39 min 25 sec

Equatorial Rotation Period10 hr 13 min 59 sec

Differential Rotation

Uranus and Neptune probably have differential rotation too but we haven’t been able to measure it

When we look at giant planets all we see are the

cloud tops

The wind patterns on Jupiter are extremely complex

The Great Red Spotis a huge

anticyclone

Saturn’s Atmosphere: Similar to Jupiter but

different

Saturn’s polar

vortex storm is

very unusual

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.

Neptune’s Great Dark Spot was actually a hole in the

clouds

The clouds on Jupiter and Saturn are not just water

Because Saturn is colder, the layers are deeper down

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

The winds on Saturn are actually stronger than those on

Jupiter

The strongest winds of all are found on Neptune

The zonal winds on Jupiter are driven by strong storm vortexes

Similar processes may drive the winds on Saturn

Much of the internal heat comes from ongoing

differentiation

This is especially true for Saturn and Neptune

Differentiation in Jupiter and Saturn has resulted in a layered

interior structure

Liquid metallic hydrogen requires extreme pressure and high temperatures

Uranus & Neptune have more “icy” interiors

The pressure inside Uranus and Neptune is never high enough to form liquid metallic hydrogen

The result of all that liquid metallic hydrogen in Jupiter is an

enormous magnetosphere

Jupiter’s magnetic field creates radio waves by synchrotron emission

The “donut” in the magnetosphere is created by

particle spewed out of volcanoes on Io

Io’s movement through Jupiter’s magnetic field creates a 5 million amp current

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

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

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

A compariso

n of the orientation

of the giant

planets magnetic

fields