Visit the Earthquake Center, from the U.S. Geological Survey, for information about recent and historic earthquakes throughout the world. Maps and animations of the world and the USA illustrate the locations of earthquakes occurring within the last seven days or the last month. You'll also find maps and lists of historic earthquakes, along with scientific data, an earthquake search tool, ShakeMaps, seismogram displays, and more.
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6-8: 4C/M1. The interior of the earth is hot. Heat flow and movement of material within the earth cause earthquakes and volcanic eruptions and create mountains and ocean basins. Gas and dust from large volcanoes can change the atmosphere.
6-8: 4C/M2a. Some changes in the earth's surface are abrupt (such as earthquakes and volcanic eruptions) while other changes happen very slowly (such as uplift and wearing down of mountains).
6-8: 4C/M11. The outer layer of the earth—including both the continents and the ocean basins—consists of separate plates.
6-8: 4C/M12. The earth's plates sit on a dense, hot, somewhat melted layer of the earth. The plates move very slowly, pressing against one another in some places and pulling apart in other places, sometimes scraping alongside each other as they do. Mountains form as two continental plates, or an ocean plate and a continental plate, press together.
6-8: 4C/M13. There are worldwide patterns to major geological events (such as earthquakes, volcanic eruptions, and mountain building) that coincide with plate boundaries.
9-12: 4C/H3. The outward transfer of the earth's internal heat causes regions of different temperatures and densities. The action of a gravitational force on regions of different densities causes the rise and fall of material between the earth's surface and interior, which is responsible for the movement of plates.
9-12: 4C/H5. Earthquakes often occur along the boundaries between colliding plates, and molten rock from below creates pressure that is released by volcanic eruptions, helping to build up mountains. Under the ocean basins, molten rock may well up between separating plates to create new ocean floor. Volcanic activity along the ocean floor may form undersea mountains, which can thrust above the ocean's surface to become islands.
%0 Electronic Source %D August 24, 2010 %T USGS: Earthquakes %I United States Geologic Survey %V 2017 %N 29 April 2017 %8 August 24, 2010 %9 text/html %U http://earthquake.usgs.gov/earthquakes/
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