Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Earth`s Interior
Document related concepts
Geochemistry wikipedia , lookup
Global Energy and Water Cycle Experiment wikipedia , lookup
History of Earth wikipedia , lookup
Algoman orogeny wikipedia , lookup
History of geology wikipedia , lookup
Geomorphology wikipedia , lookup
Age of the Earth wikipedia , lookup
Mantle plume wikipedia , lookup
Future of Earth wikipedia , lookup
Plate tectonics wikipedia , lookup
Transcript
The Earth’s Interior and how it works. The 3 Main Layers • Core • Inner Core • Outer Core • Mantle • Mesosphere • Asthenosphere • Lithosphere • Uppermost mantle • Crust The Core • Metallic - Fe & Ni. • Inner core (Solid) • Outer core (Molten) • The internal source of heat energy for the Earth. The Mantle • The broad middle section of the Earth. (Rocky) • Asthenosphere contains the convection currents that drive the “plates”. (Plastic) Mesosphere What are Convection Currents? • Convection occurs in the asthenosphere due to the heat from the core. • Remember hot = less dense therefore rises and cooler = more dense therefore sinks. The Lithosphere • The “Plates” (Rocky) • Consists of the crust and the uppermost mantle. (Solid) • Each plate moves as one section of the Earth on top of the asthenosphere. Uppermost Mantle Types of Crust Continental Crust Thickest at the highest mountains Made up of sedimentary and metamorphic rock. Oceanic Crust Thinnest in the deepest ocean. Made up of igneous rock. The “Plates” How the Layers of the Earth Work Together Heat energy from the CORE is transferred into mechanical energy in the ASTHENOSPHERE Which drives the plates – the LITHOSPHERE. PLATE TECTONICS PLATE TECTONICS • Plate movement which gives us volcanoes, earthquakes, mountains, rift zones, or any combination of these. Plate Tectonics & Rocks • Pressures high enough to change the crystalline structure of rock result in metamorphic processes. • Metamorphic rock. • Temperatures high enough to melt rock result in magma and igneous processes. • Igneous rock. The External Processes and how they work. • Heat energy from the sun is converted to mechanical energy in the atmosphere. • The result is the hydrologic cycle. The External Processes • The water cycle and gravity provide the mechanisms for the tearing down of the earth. • The resulting processes are weathering and erosion. • The result is sediment and sedimentary rock. The Great Earth/Rock Cycle Deposition & Lithification Sediment Weathering & Erosion Sedimentary Rock Extreme Temperature and Pressure Metamorphic Rock Igneous Rock Eruption/Cooling Extreme Temperatures/ Melting MAGMA
