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Transcript
Chapter 20 Planet Earth Guidepost Astronomy has been described as the science of everything above the clouds. Planetary astronomers, however, must also think about what lies below the clouds because Earth is the basis for comparison with all other Earthlike planets. We know Earth well, and we can apply what we know about Earth to other worlds. There is another reason for studying Earth in an astronomy course. Astronomy is really about us. Astronomy is exciting and fascinating because it helps us understand what we are and where we are in the universe. Thus, we cannot omit Earth from our discussion—it is where we are. The next two chapters will discuss the Earthlike planets, but that will not end our thoughts of Earth. The moons of Guidepost (continued) the giant outer worlds will seem Earthlike in strange ways, and our discussion of the smaller bodies of our solar system will alert us to the dangers Earth faces. Throughout the rest of this book, we will remain painfully aware of the fragile beauty of our planet. Outline I. The Early History of Earth A. Four Stages of Planetary Development B. Earth as a Planet II. The Solid Earth A. Earth's Interior B. The Magnetic Field C. Earth's Active Crust III. The Atmosphere A. Origin of the Atmosphere B. Human Effects on Earth's Atmosphere The Early History of Earth Earth formed 4.6 billion years ago from the inner solar nebula. Four main stages of evolution: Two sources of heat in Earth’s interior: • Potential energy of infalling material • Decay of radioactive material Most traces of bombardment (impact craters) now destroyed by later geological activity Earth’s Interior Direct exploration of Earth’s interior (e.g. drilling) is impossible. Earth’s interior can be explored through seismology: earthquakes produce seismic waves. Two types of seismic waves: Pressure waves: Shear waves: Particles vibrate back and forth Particles vibrate up and down Seismology Seismic waves do not travel through Earth in straight lines or at constant speed. They are bent by or bounce off transitions between different materials or different densities or temperatures. Such information can be analyzed to infer the structure of Earth’s interior. Seismic Waves (SLIDESHOW MODE ONLY) Earth’s Interior (2) Basic structure: Solid crust Solid mantle Liquid core Solid inner core Earth’s interior gets hotter towards the center. Earth’s core is as hot as the sun’s surface; metals are liquid. Melting point increases with increasing pressure Melting point = temperature towards the center at which an element melts (transition from solid to liquid) => Inner core becomes solid Earth’s Magnetic Field • Earth’s core consists mostly of iron + nickel: high electrical conductivity • Convective motions and rotation of the core generate a dipole magnetic field The Role of Earth’s Magnetic Field Earth’s magnetic field protects Earth from high-energy particles coming from the sun (solar wind). Surface of first interaction of solar wind with Earth’s magnetic field = Bow shock Region where Earth’s magnetic field dominates = magnetosphere Some high-energy particles leak through the magnetic field and produce a belt of high-energy particles around Earth: Van Allen belts The Aurora (Polar Light) As high-energy particles leak into the lower magnetosphere, they excite molecules near the Earth’s magnetic poles, causing the aurora The Active Earth About 2/3 of Earth’s surface is covered by water. Mountains are relatively rapidly eroded away by the forces of water. Tectonic Plates Earth’s crust is composed of several distinct tectonic plates, which are in constant motion with respect to each other Plate tectonics Evidence for plate tectonics can be found on the ocean floor … and in geologically active regions all around the Pacific Plate Tectonics Tectonic plates move with respect to each other. Where plates move toward each other, plates can be pushed Where plates move away upward and downward formation of mountain ranges, from each other, molten lava can rise up from below some with volcanic activity, earthquakes volcanic activity Active Zones Resulting from Plate Tectonics Volcanic hot spots due to molten lava rising up at plate boundaries or through holes in tectonic plates Earth’s Tectonic History History of Geological Activity Surface formations visible today have emerged only very recently compared to the age of Earth. Earth’s atmosphere • Layer of gasses surrounding the Earth held in place by gravity • Shields the sun’s ultraviolet rays • Retains heat (greenhouse effect • Reduces temperature extremes between day and night Earth’s Atmosphere consists of four major layers Top layer is the Exosphere which includes the magnetosphere but not counted among the major layers Most of our weather happens in the troposphere. 80% of total mass of atmosphere. 8-16 km deep. In stratosphere, about 25 km from the surface of the Earth is the ozone layer which protects the Earth from most of the Sun’s harmful UV rays. Lower portion is influenced by jet streams Mesosphere has coldest temperatures of about -90°C Thermosphere has greatest temperature range from -90° - 1200° C The Ionosphere • Layer that stretches between the lower mesosphere and into the exosphere, running contiguously with the thermosphere. • 4 levels that reflect different types of radio waves – D: from 60-80 km reflects radio waves – E: from 80-120 km reflects short wave – F1: around 170km – F2: roughly from 250-300km The Atmosphere Earth had a primeval atmosphere from remaining gasses captured during formation of Earth Atmospheric composition severely altered ( secondary atmosphere) through a combination of two processes: 1) Outgassing: Release of gasses bound in compounds in the Earth’s interior through volcanic activity 2) Later bombardment with icy meteoroids and comets 1. In which layer of the atmosphere does the weather occur? a. b. c. d. Mesosphere Troposphere Thermosphere Stratosphere 1. In which layer of the atmosphere does the weather occur? a. b. c. d. Mesosphere Troposphere Thermosphere Stratosphere 2. A little less than 20% of the atmosphere’s mass is in the __ a. b. c. d. Stratosphere Troposphere Mesosphere Thermosphere 2. A little less than 20% of the atmosphere’s mass is in the __ a. b. c. d. Stratosphere Troposphere Mesosphere Thermosphere 3. The greatest atmospheric temperature range is found in the a. b. c. d. Stratosphere Troposphere Mesosphere Thermosphere 3. The greatest atmospheric temperature range is found in the a. b. c. d. Stratosphere Troposphere Mesosphere Thermosphere 4. The primary gases in the atmosphere are a. b. c. d. Nitrogen, oxygen, carbon dioxide Nitrogen, oxygen, argon Carbon dioxide, nitrogen, argon Carbon dioxide, argon, water vapor 4. The primary gases in the atmosphere are a. b. c. d. Nitrogen, oxygen, carbon dioxide Nitrogen, oxygen, argon Carbon dioxide, nitrogen, argon Carbon dioxide, argon, water vapor The Structure of Earth’s Atmosphere Composition of Earth’s atmosphere is further influenced by: • Chemical reactions in the oceans, • Energetic radiation from space (in particular, UV) The ozone layer is essential for life on Earth since it protects the atmosphere from UV radiation • Presence of life on Earth The temperature of the atmosphere depends critically on its albedo = percentage of sun light that it reflects back into space Depends on many factors, e.g., abundance of water vapor in the atmosphere Human Effects on Earth’s Atmosphere 1) The Greenhouse Effect Earth’s surface is heated by the sun’s radiation. Heat energy is re-radiated from Earth’s surface as infrared radiation. CO2, but also other gases in the atmosphere, absorb infrared light Heat is trapped in the atmosphere. This is the Greenhouse Effect. The Greenhouse Effect occurs naturally and is essential to maintain a comfortable temperature on Earth, but human activity, in particular CO2 emissions from cars and industrial plants, is drastically increasing the concentration of greenhouse gases. Global Warming • Human activity (CO2 emissions + deforestation) is drastically increasing the concentration of greenhouse gases. • As a consequence, beyond any reasonable doubt, the average temperature on Earth is increasing. • This is called Global Warming • Leads to melting of glaciers and polar ice caps ( rising sea water levels) and global climate changes, which could ultimately make Earth unfit for human life! Human Effects on the Atmosphere (2) 2) Destruction of the Ozone Layer Ozone (= O3) absorbs UV radiation, (which has damaging effects on human and animal tissue). Chlorofluorocarbons (CFCs) (used, e.g., in industrial processes, refrigeration and air conditioning) destroy the Ozone layer. Destruction of the ozone layer as a consequence of human activity is proven (e.g., growing ozone hole above the Antarctic); Must be stopped and reversed by reducing CFC use, especially in developed countries! 5. Primeval atmosphere was probably altered most by a. The sun’s solar waves b. Dinosaurs c. Outgassing and impacts from meteors and comets d. Space junk 5. Primeval atmosphere was probably altered most by a. The sun’s solar waves b. Dinosaurs c. Outgassing and impacts from meteors and comets d. Space junk 6. Global warming is caused by a. b. c. d. Car exhaust and deforestation Carbon dioxide emissions and deforestation Politicians Industrial waste and deforestation 6. Global warming is caused by a. b. c. d. Car exhaust and deforestation Carbon dioxide emissions and deforestation Politicians Industrial waste and deforestation 7. The greenhouse effect is caused by a. Sun’s heat reflected from the surface trapped by carbon dioxide and methane b. Heat caused by human activity like cars, factories, etc. c. The effect of a dome over the Earth’s atmosphere trapping heat d. Mars 7. The greenhouse effect is caused by a. Sun’s heat reflected from the surface trapped by carbon dioxide and methane b. Heat caused by human activity like cars, factories, etc. c. The effect of a dome over the Earth’s atmosphere trapping heat d. Mars