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Ch 27-Planets of Solar System

Ch 27-Planets of Solar System. Objectives Nebular hypothesis of the origin of solar system How planets formed Formation of land, atmosphere, oceans of Earth Models of universe developed by Ptolemy and Copernicus Kepler’s laws of planetary motion

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Ch 27-Planets of Solar System

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  1. Ch 27-Planets of Solar System • Objectives • Nebular hypothesis of the origin of solar system • How planets formed • Formation of land, atmosphere, oceans of Earth • Models of universe developed by Ptolemy and Copernicus • Kepler’s laws of planetary motion • Describe how Newton explained Kepler’s laws of motion • Basic characteristics of inner planets • Compare the characteristics of inner planets • Summarize the features that allow Earth to sustain life • Basic characteristics of outer planets that make them different • Compare the characteristics of outer planets • Explain why Pluto is now considered a dwarf planet

  2. Nebular Hypothesis • Solar system-sun and all of the planets and other bodies that travel around it • What is a planet? • Celestial body that orbits the sun, is round cause of its own gravity, and has cleared neighborhood around its orbital path • Nebular hypothesis-states that the sun and planets condensed at about the same time out of rotating cloud of gas and dust-nebula • Scientific calculations support hypothesis • Solar nebula-rotating cloud of gas and dust from which the sun and planets formed • About 99% of all matter contained in solar nebula now exists in sun

  3. Formation of Planets • Planetesimal-small body from which planet originated in early stages of development of solar system • Protoplanets-larger bodies that were formed through collisions and through force of gravity • Moons-smaller bodies that orbit planets • Planets and moons are smaller and denser than protoplanets

  4. Inner Planets • Features depended on distance between the protoplanet and developing sun • What are the inner planets? • Mercury, Venus, Earth, Mars • Contain large quantities of iron and nickel • Solid surfaces that smaller, rockier and denser than outer planets

  5. Outer Planets • Jupiter, Saturn, Uranus, Neptune • Formed in colder regions of solar nebula • Retained their lighter elements-helium and hydrogen and ices-water ice, methane ice and ammonia ice • Gas giants-composed mostly of gases, low density and huge • Jupiter is 11 times Earth’s diameter • What about Pluto? • Dwarf planet, discovered in 1930’s, smaller than Earth’s moon • Ice ball made of frozen gases and rock

  6. Earth • Early Earth-hot enough to melt iron • Differentiation-denser materials sank to center, less dense forced to outer layers • What did this cause? • Core, mantle, crust • Characteristics of present Earth • Cooled enough for solid rock to form

  7. Earth’s Atmosphere • Why did the atmosphere form? • Differentiation caused hydrogen and helium to rise to surface • Atmosphere was to weak to hold hydrogen and helium-escaped becuz at the temp of the gases, the gravity was not strong enough to hold the gases • Outgassing-volcanic eruptions released large amounts of gases, water vapor, CO2, nitrogen, methane, sulfur dioxide, ammonia-formed new atmosphere • Gases interacted w/ radiation from sun, oxygen formed ozone layer • What is the ozone layer? • Molecule that contains 3 oxygen atoms, shields Earth from harmful ultraviolet radiation of sun

  8. Formation of Earth’s Oceans • Part of water came from space • Icy bodies-comets collided w/ Earth, became part of atmosphere • Water cooled to become oceans • 1st ocean-freshwater • Flowed over land picking up dissolved solids-this is how the oceans became salty • Effects on atmosphere-affects temps in variety of ways • Dissolving CO2

  9. Sec 2-Models of Solar System • Aristole-model in which Earth was center, everything revolved around Earth • Ptolemy-planets moved in small circles-epicycles, revolved around in larger circles around Earth • Copernicus-sun centered, planets revolved around sun in same direction but at different speeds and distances from sun

  10. Kepler’s Laws • Law of ellipses-Each planet orbits the sun in a path called a ellipse, not a circle • Elliptical orbits can vary in shape • Eccentricity-degree of elongation of an elliptical orbit • Law of equal areas-objects travel at different speeds in their orbits • Mars travels fastest when closet to sun • Law of periods-describes the relationship between average distance between planet and sun and orbital period of planet • What is orbital period?

  11. Newton • Hypothesized moving objects will keep moving and resist change in speed until acted upon by outside force • Inertia-tendency of an object to resist being moved or resist change in speed or direction until outside force acts on object • Newton’s Model of Orbits-gravity causes the orbit to curve • Gravity pulls object toward sun, inertia keeps object moving forward in straight line • Weaker gravitational pull further away from sun • Longer orbits=outer planets

  12. Sec 3-Inner Planets • Terrestrial Planets • Mostly solid rock, metallic cores • Number of moons varies • Impact craters located on planets w/ bowl shaped depressions • What causes them?

  13. Mercury • Closest to sun • Circles sun every 88 days, rotates on axis every 59 days • Heavily cratered, line of cliffs of km long, what caused this? • No atmosphere, slow rotation • 427 deg C during day, -173 deg C at night

  14. Venus • 225 days orbital period, rotates once every 243 days • Same size, mass and density of Earth • Atmospheric pressure=90 times pressure on Earth • High concentration of CO2-atmosphere about 96% CO2 • Highest surface temp in solar system • Brightest object in night sky-evening star • Mts, volcanoes, lava plains and sand dunes • Maat Mons-highest volcano

  15. Earth • What’s the orbital period? • How many rotations in a day? • How many moons? • Extreme active geologic history • What causes continue change to surface of Earth? • Liquid water • Only planet to support life • What’s needed to support life?

  16. Mars • 228 million km from sun, 50% farther from sun than Earth • 687 days of orbit, rotates every 24 h and 37 min, seasons much like Earth’s • Geologically active in past • Covered by deep canyons • Valles Marineris-series of canyons, 4000 km • Olympus Mons-largest volcano in Tharsis Montes-volcanic region • No solid evidence for life yet

  17. Outer Planets • Asteroid belt separates inner planets. What is the asteroid belt? • Gas giants • Deep massive atmospheres • What is Pluto considered? • More larger and massive than terrestrial planets • Less dense, huge amount of gravity-helped retain gases • What is the atmosphere made of? • All have ring systems-dust and icy debris • Where does it come from?

  18. Jupiter • Largest planet, 300 times Earth • Orbital period=12 yrs, rotates every 9 hr and 50 min • 60 moons • Hydrogen and helium=92% of atmosphere • Orange, gray, blue, and white bands spread out parallel of equator • Severe storms and thunderstorms • Giant Red Spot-giant rotating storm, several hundred yrs

  19. Saturn • Orbital period of 29.5 yrs • Very cold, average temp=-167 deg C • 47 moons-Titan largest moon=1/2 of Earth • Mostly hydrogen and helium w/ rocky iron core • Least dense planet in solar system • Rings of Saturn=2 times planet’s diameter • Rotates every 10 hr and 30 min

  20. Uranus • 3rd largest, discovered in 1781 by Sir William Herschel • Difficult to study, images shows changes in atmosphere • 24 moons, 11 rings • Orbital period almost 84 yrs, rotates every 17 hrs • Blue green color indicates atmosphere contains significant amounts of methane

  21. Neptune • Similar to Uranus in size and mass • Orbital period=164 yrs, rotates every 16 hr • 13 moons, 6 rings • John Couch Adams, Urbain Leverrier, Johann Galle • Hydrogen, helium, methane=atmosphere • Active weather system • Strongest winds in solar system • Great Dark Spot-storm size of Earth

  22. Other Objects • Pluto-defined as dwarf planet in 2006 • 248 yr orbital period, but closer to sun than Neptune about 20 of those yrs • Smaller than Earth’s moon • Frozen methane, rock, and ice • Very thin nitrogen atmosphere • Kuiper-Belt Objects • Starts just beyond orbit of Neptune, contains dwarf planets and other small bodies made mostly of ice • Quaoar, Eris • What is a dwarf planet? • Any object that orbits sun, round cause of own gravity, not cleared its orbital pans • http://glencoe.com/sec/science/earthscience/2007/concept_motion/NGS/Visualizing_the_Kuiper_Belt_28.swf

  23. Exoplanets • Circle stars other than Earth’s sun • Cannot be directly observed w/ telescopes or satellites • How is it detected then? • Gravity tugs on stars they orbit • Most identified are larger than Uranus • 2 discovered=Earth’s size

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