Quiz #4 ReviewThe Outer or Jovian PlanetsOuter Planets: Gaseous/LiquidOuter or Jovian PlanetsHeating and Condensation of the Solar NebulaGravity does the jobAtmospheresJupiterSlide 9SaturnUranusNeptuneEarthSlide 14The SunThe Sun - InteriorSlide 17Solar Magnetic ActivitySolar CycleThe Sun – AtmosphereSolar Cycle Influence on Earth ClimateQuiz #4 Review17 November 2011The Outer or Jovian Planets•Jupiter, Saturn, Uranus and Neptune share certain characteristics:–All are large, massive, gaseous bodies.–All have very thick atmospheres, with possibly liquid interiors and solid cores–All have rings•They are called Jovian planets because of their resemblance to Jupiter.Outer Planets: Gaseous/Liquid•Gaseous with gradual phase transition to liquid (molecules that have hydrogen: water, ammonia, methane)•Low average density – close to that of liquid water on Earth •Rocky core deduced from spacecraft flybys•Chemical composition similar to that of the Sun•71% Hydrogen, 27% Helium, 2% other (C,N,O,etc.)4Outer or Jovian Planets•All the Jovian planets are larger than the Terrestrial planets.•All have similar compositions and are similar to the Sun.•Solar composition is mostly Hydrogen, some Helium, etc.•All have low average densities,•All have rings and many satellites.•None have surfaces but only increasingly dense atmospheres and rock and metal cores.Heating and Condensation of the Solar Nebula•The heat from the Sun prevents ices from reforming on the dust grains in the region near the Sun.•Ices condensed only in the cooler outer parts of the Solar nebula. •In the hotter inner portion of the disk only materials like iron and silicates (rock) can condense into solids. Slowly they form clumps of material. •In the outer portion of the disk much more material can condense as solids including ice. This extra material allows clumps to grow larger and faster.Gravity does the job•Within the disk, material is constantly colliding with one another. If the collisions are not too violent material (planetesimals) may stick together.•In the outer parts of the Solar Nebula the planets become large enough to have a significant gravitational pull and collect gas around them.–Ice is ten times more abundant than silicates and iron compounds, therefore there is more planet building material in the outer solar system.•Planets in the inner nebula can not grow enough to collect much gas.•Eventually most but not all of the material was swept up by the planets.Atmospheres•Outer planets–Captured Hydrogen from solar nebula•Inner planets (such as the Earth)–Volcanic activity–Captured gas from comets that vaporized on impactJupiter•Has more than 60 moons•Emits more energy than it receives from the Sun – leftover formation energy, contraction, differentiation•300x more massive than the Earth; 1000 times less massive than the Sun •Upper atmosphere contains hydrogen, helium, methane, ammonia, and water, giving Jupiter a multi-colored appearance•Atmosphere shows storm features (great red spot) •Atmosphere shows wind shear features–Alternating bands move in different directions –Due to convection in atmosphere and Coriolis force•Rising and falling gases are deflected in opposite directions at cloud topsJupiter•Tidal forces exerted on nearest moon, Io, are responsible for the tremendous volcanic activity on that moon.•Particles expelled by Io’s volcanoes get trapped in Jupiter’s magnetic field•Particles accelerated by Jupiter’s magnetic field produce radio wave emissions–Strong magnetic field in part due to rotation speed of 10 hours; enhanced dynamo effect•Outer moons show evidence of ice locked in surface–Moon Europa may have an ice crust with an ocean underneath•Jupiter + moons resembles a mini-solar system with dense inner planets/moons and less dense outer planetsSaturn•Also emits more energy than it receives from the Sun, but not as much as Jupiter•No atmospheric bands like on Jupiter seen in visible light due to obscuring ammonia ice clouds (beige/tan color)–Jupiter-like atmospheric bands are apparent in infrared light observations; penetrates upper atmosphere•Ring origin: comet/asteroid/moon collisions and moons ripped apart by tidal forces exerted by Saturn –Roche limit: moon that gets to close to its planet will be ripped apart by tidal forces (forces near side of moon is greater that forces on far side). •Moon Titan has an atmosphere (nitrogen/methane/ethane clouds + lakes)–Temperature is cold enough so that atmospheric gas velocity less than Titan’s escape velocity–Surface features known by radar mappingUranus•No atmospheric bands like on Jupiter seen in visible light due to obscuring methane ice clouds (blue color).–Jupiter-like atmospheric bands are apparent in infrared light observations; penetrates upper atmosphere•Rotation axis is severely tilted (~90 degrees)–Since moons and rings aligned w/ equator, tilt is likely due to a massive impact during its formationNeptune•Weak atmospheric bands like those on Jupiter are seen in visible light due to obscuring methane ice clouds (blue color).–Jupiter-like atmospheric bands are apparent in infrared light observations; penetrates upper atmosphere•Moon Triton orbits backwards – opposite Neptune’s rotation direction – likely captured after formation•Moon Triton has an atmosphere – temperature is cool enough so that gas particle speeds are less than escape velocity.Earth•Atmosphere originally from volcanic activity; vaporized comet impacts–UV sunlight breaks up molecules (photo-disassociation)–Rain removes carbon-dioxide from atmosphere–Plants convert carbon dioxide to oxygen•Interior (size of mantle, core) inferred from seismology observations during earthquakesEarth•Magnetic field due to rotating molten iron outer core•Magnetic field reduces deadly solar wind particle flux on Earth’s surface•Solar wind particles in Earth’s magnetic field strike atmosphere and produce the auroras near the poles–Higher solar activity yields brighter aurorasThe Sun•Sun is 300,000 times more massive than the Earth•Composition: 71% Hydrogen, 27% Helium, 2% other (C,N,O)•All gas, powered by nuclear fusion in core–Hydrogen is combined to form Helium in multi-step process (6 H produce 1 He)•Tremendous energy generated by fusion is balanced by massive solar gravity–Hydrostatic equilibrium prevents the Sun from