1 / 17

Lecture Outlines Physical Geology, 7/e

Lecture Outlines Physical Geology, 7/e. Carlson. The Earth’s Companions Physical Geology 7/e, Chapter 22. Steve Kadel, Glendale Community College. The Earth in Space. Earth is one of nine planets that orbit the Sun in our solar system

vincent-bernard
Download Presentation

Lecture Outlines Physical Geology, 7/e

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Lecture OutlinesPhysical Geology, 7/e Carlson

  2. The Earth’s CompanionsPhysical Geology 7/e, Chapter 22 Steve Kadel, Glendale Community College

  3. The Earth in Space • Earth is one of nine planets that orbit the Sun in our solar system • Sun has no solid surface, but rather is a huge ball of very hot gas (75% H, 25% He) • Hydrogen is fusing into He in the blazing-hot core of the Sun, releasing the energy that makes the Sun shine • Overwhelming majority of mass in the solar system is in the Sun • Gravity associated with Sun’s huge mass holds planets, asteroids, and comets in their orbits

  4. The Solar System • All of the planets orbit the Sun in the same direction • counterclockwise when viewed from above Earth’s north pole • Orbits of all planets except Pluto lie within 7 degrees of the plane of Earth’s orbit around the Sun • Solar system is distinctly disk-shaped

  5. The Solar System • Solid bodies fall into 3 groups, based on size and composition: • Small, rocky inner planets (Mercury, Venus, Earth, Mars) • Also referred to as the “terrestrial planets” • Huge outer planets (Jupiter, Saturn, Uranus, Neptune) • Also referred to as the “jovian planets” or “gas giants” • Tiny icy bodies (Pluto) of the outer solar system

  6. Small Bodies in the Solar System • The smaller objects in the solar system (~1000 km or less in diameter) are the asteroids and comets • Asteroids are rocky or metallic objects • Most lie in the “asteroid belt” between the orbits of Mars and Jupiter • Comets are icy bodies • Found in two “reservoirs”, the Kuiper Belt and the Oort Cloud • Kuiper Belt stretches from just beyond the orbit of Neptune to a little beyond Pluto’s orbit (directly observed) • Oort Cloud is much more distant and marks the very edge of the solar system (theoretical)

  7. Origin of the Planets • Nebular hypothesis - the solar system originated from a rotating, flattened disk of gas and dust known as the solar nebula • Modern telescopic observations show evidence for such flattened disks • Observed compositional trend from metal and rock in the inner solar system, to gases and ices in the outer solar system, supports this hypothesis • Sun, Moon, Earth, and meteorites all appear to have same age (about 4.6 billion years) suggesting they formed in a single event

  8. Formation of Planets and Moons • Dust clumped together to form planetesimals which further clumped into planets • Gravity drives this process • Heating from impacts and radioactive decay melted the planets, allowing separation into dense metallic cores and less-dense rocky mantles and crusts (differentiation) • Moons originated by clumping of rings of debris around planets (large moons) or by gravitational capture (small moons) • Atmospheres formed either by gravitational capture of gases (Jovian planets) or from volcanic eruptions and cometary impacts (terrestrial planets)

  9. Earth’s Moon • Earth’s only natural satellite • About 1/4 the diameter of the Earth • Possesses no air, water or life • Heavily cratered • Ancient surface records impact events for nearly the entire history of the solar system • Ancient volcanic deposits of dark-colored basalt • Lava flows and channels observed • Currently geologically “dead”, with no volcanic, tectonic, or weathering activity • Likely origin was catastrophic impact into primordial Earth by a Mars-sized object • Ring of debris clumped in Earth orbit to form Moon

  10. Mercury and Venus • Mercury, the smallest inner planet, resembles Earth’s Moon in both size and appearance • No atmosphere • Density suggests very large iron core • Heavily cratered, but with smooth plains (possibly volcanic in origin) and scarps (probably faults) • Venus has hottest planetary surface in the solar system (>480° C) • Thick CO2 atmosphere creates greenhouse effect • Abundant volcanoes and lava flows • Fractures and mountain belts suggest intense tectonic activity, but not plate tectonics • Relatively low number of impact craters suggests recent or ongoing surface processes

  11. Mars • Mars, with a diameter about half that of Earth, has the most Earth-like set of surface features • Thin CO2 atmosphere (less 1% as thick as Earth’s) • Red color results from oxidized iron-rich surface • Frozen waterand CO2 ice polar caps • Abundant volcanoes and lava flows • Fractures and canyons suggest tectonic activity • Dune fields and dust storms indicate wind activity • Eroded channels suggest flowing water in past • Current conditions at surface not hospitable for life, but evidence of flowing water in past suggests a warmer and thicker atmosphere in ancient times • Liquid water should still exist beneath the surface

  12. Differences in the Terrestrial Planets • The terrestrial planets show a progression of increasing geologic activity, both in the past and today, directly related to their size • Larger bodies retain internal heat better • Internal heat drives volcanic and tectonic processes • Larger bodies retain atmospheres more effectively, allowing for weathering by wind and water • Water and ice more abundant on Earth and Mars • sufficiently far from the Sun for H2Oto be stable as liquid or solid • Biological processes on Earth produced oxygen-rich atmosphere and abundant plants • drastically affect surface conditions and weathering processes

  13. Jupiter • Jupiter - largest planet in the solar system • Composed of hydrogen and helium gases, with a small ice/rock core • Atmospheric clouds are composed of methane, ammonia and water ices • Due to pressure deep in the interior, hydrogen is compressed first into liquid, then into a liquid metal • Jupiter’s four largest moons range in size from slightly larger than Mercury (Ganymede) to about the size of Earth’s moon (Europa) • Io has a metal-silicate composition and is the most volcanically active body in the solar system • Europa has a water ice outer shell that probably covers a liquid water ocean and a warm rocky interior

  14. Saturn and Uranus • Saturn - second-largest planet in solar system, composed of hydrogen and helium gases, with small ice/rock core • Spectacular ring system of chunks of ice and rock • Largest moon, Titan, has thick atmosphere and surface conditions suggesting liquid hydrocarbons and water ice • Uranus - composed largely of hydrogen and helium, with small rock/ice core • Rotational axis and moons’ orbits tipped on side • Moon Miranda has unique landforms

  15. Neptune and Pluto • Neptune - similar in size and composition to Uranus • Largest moon, Triton, has ice volcanoes • Pluto - smallest planet in solar system • Largest icy object in solar system • Has moon half its size (double planet)

  16. Asteroids, Comets, and Meteorites • Minor objects include: • Asteroids - small, rocky bodies that orbit the Sun • Most lie in asteroid belt between orbits of Mars and Jupiter • Meteorites probably represent fragments of asteroids • Comets - small, icy bodies that orbit the Sun • Bright coma and tail - vaporized ice and dust • Much farther from Sun than asteroids • Giant impacts periodically occur when Earth “sweeps up” one of these remnants from formation of the solar system

  17. End of Chapter 22

More Related