nov14

... Saturn produces more internal Heat than Jupiter Even though Saturn is less massive and nearly as big as Jupiter, it produces 25% more heat per kg than Jupiter. Also Saturn’s atmosphere has only 3.3% He to Jupiter’s 13.6% although we think the overall composition of the two planets is about the ...

The Fathers of the Gods: Jupiter and Saturn

... hydrocarbons, water, etc.. ...

Document

... Planetary Motion to your students? a) Yes, with mathematics ...

The Outer Solar System Chapter 7:

... Jupiter’s liquid hydrogen ocean has no surface: Gradual transition from gaseous to liquid phases as temperature and pressure combine to exceed the critical point. Only very thin atmosphere above cloud layers; transition to liquid hydrogen zone ~ 1000 km below clouds In 1995 the Galileo Space Probe, ...

Today`s Powerpoint

... Radii range from 1570 km (Europa, slightly smaller than our Moon), to 2630 km (Ganymede - largest moon in Solar System). Orbital periods range from 1.77 days (Io) to 16.7 days (Callisto). The closer to Jupiter, the higher the moon density: from 3.5 g/cm3 (Io) to 1.8 ...

Jupiter and Saturn

... The History of Jupiter • Jupiter formed from the colder gases of the outer solar nebula, where ices were able to condense • It became massive enough to trap hydrogen and helium gas directly from the solar nebula • The hydrogen takes the form of liquid metallic hydrogen, which is a very good electri ...

charts_set_6

... Icy/rocky composition Moons: Charon: radius about 590 km or 0.1 REarth . Pluto and Charon tidally locked. Nix and Hydra about 30-100 km. Origin of Pluto Now known to be just the largest known of a class of objects in the outer reaches of the Solar System. These objects are Kuiper Belt Objects. ...

Astronomy 311: Lecture 7 - Resonance • Solar System consists of 8

... • A resonance occurs when there is a simple numerical relationship between frequencies or periods (period is usually 1/frequency). • Could be the rotational and orbital periods of one body: spin-orbit coupling. • Orbit-Orbit coupling • Many possibilities. • Evolutionary forces in Solar System often ...

Chapter8- Jovian Planet Systems

... Jovian Planet Magnetospheres 20,000 times as strong as Earth’s magnetic field. Io Torus – charged particle belt formed by escaping particles from Io which interact with Jupiter’s magnetic field. ...

Name

... Example: The Great Red Spot on Jupiter has been around since: Galileo First used a telescope to look at Jupiter . (around 350 years ago) ...

Chapter 7

... • Used Jupiter’s strong gravity to send them on to Saturn - gravity assist • Voyager 2 used Saturn’s gravity to propel it to Uranus and then on to Neptune • Studied planetary magnetic fields and analyzed multi-wavelength radiation • Both are now headed out into interstellar space! ...

File - We All Love Science

... • Jupiter’s heat radiates up to space, cools and drops in convection currents. • Jupiter’s speedy rotation produces a strong ...

October 2010

... • About 9 hours for Jupiter and Saturn • Differential rotation: rotation speed varies from point to point on the “surfaces” ...

The Jovian Planets

... Jupiter and Saturn are naked eye objects and were known from antiquity; however Uranus and Neptune were discovered fairly recently. Uranus was discovered in 1781 by the English astronomer, William Hershel, who was hunting for comets with his telescope. (Apparently, if you have a very dark sky and kn ...

Jovial Planets

... ripped apart by tidal forces  Secondary – Rings are left over from original nebular material from which saturn formed ...

The Outer Planets

... The Outer Planets ...

Elliptic Orbits

... Sun’s gravity causes it to deviate, it swings around the Sun, then recedes tending to another straight line path as it leaves the System. There is also the theoretical possibility of a parabolic orbit, going out to infinity but never approaching a straight line asymptote. However, this requires exac ...

THE OUTER PLANETS

... the diameter of Earth, but is still much smaller than Jupiter and Saturn. Uranus is a very far from the sun, making it colder than Saturn, and is surrounded by a group of thin, flat rings that are much darker than Saturn’s ...

The Planets - Giants video questions

... from the Sun defied expectations. You would expect the further you get from the Sun, the less energy there is to drive the winds, the winds would be slower. The reason the winds were faster was a lack of _________________. The wind started and just continued. The lack of energy is the reason for the ...

Getting there: how do you fly to Saturn (without a huge cost)? From

... slowdown in the Earth's orbit around the Sun would do harm to the environment. The reply was an emphatic denial, coupled with a more detailed explanation of why the slowdown was insignificantly small. Then, a long-forgotten voice offered a waggish suggestion: in order to restore Earth to its pre-Ga ...

Jupiter

... extreme wind speed, turbulence and convection in their atmospheres • Still .. we cannot rule out life there (floaters?) • Moons such as Europa and Enceladus may have liquid water oceans with Earth-like temperatures and geothermal vents; these may be promising places to search for life • The moon Tit ...

AST 105 HW #10 Solution

... being flexed by changing tidal forces as they orbit. While the tidal heating tries to circularize their orbits, they are trapped in an orbital resonance with each other that keeps their eccentricities larger than they would otherwise be. This explains why these moons show geological activity when we ...

Saturn - Otterbein University

... • The infrared radiation is absorbed by carbon dioxide and water vapor in the atmosphere ...

Planetary Two-Step Reshaped Solar System, Saved Earth?

... gas’s push. Thus unbound, Jupiter can “seems to work really well,” says planride outward, taking Saturn with it, as etary dynamicist David Minton of the the more massive planet pushes off the Southwest Research Institute (SwRI) gas nearer the sun by gravitationally in Boulder, Colorado, who was not ...

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... shown in the diagram. Don’t worry about showing which “side” of the planet is bright -‐-‐ it will always be the one closer to the Sun – but figure out whether Venus as seen from Earth ...

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Juno (spacecraft)

Juno is a NASA New Frontiers mission to the planet Jupiter. Juno was launched from Cape Canaveral Air Force Station on 5 August 2011 and will arrive on 4 July 2016. The spacecraft is to be placed in a polar orbit to study Jupiter's composition, gravity field, magnetic field, and polar magnetosphere. Juno will also search for clues about how the planet formed, including whether it has a rocky core, the amount of water present within the deep atmosphere, how its mass is distributed, and its deep winds, which can reach speeds of 618 kilometers per hour (384 mph).The spacecraft's name comes from Greco-Roman mythology. The god Jupiter drew a veil of clouds around himself to hide his mischief, but his wife, the goddess Juno, was able to peer through the clouds and see Jupiter's true nature.

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Juno (spacecraft)