Plate tectonics-1/wisconsin-standards?dictionary=tectonics&did=1482" onclick="getAsistant(this,event,1482,'tectonics');return false;" style="color:#009000;">tectonics is the scientific theory that describes the large-scale tectonics-1/wisconsin-standards?dictionary=motions&did=1088" onclick="getAsistant(this,event,1088,'motion');return false;" style="color:#009000;">motions of tectonics-1/wisconsin-standards?dictionary=earth%27s&did=771" onclick="getAsistant(this,event,771,'earth');return false;" style="color:#009000;">Earth's tectonics-1/wisconsin-standards?dictionary=lithosphere&did=1241" onclick="getAsistant(this,event,1241,'lithosphere');return false;" style="color:#009000;">lithosphere. The tectonics-1/wisconsin-standards?dictionary=lithosphere&did=1241" onclick="getAsistant(this,event,1241,'lithosphere');return false;" style="color:#009000;">lithosphere is divided into several tectonics-1/wisconsin-standards?dictionary=tectonic+plates&did=2055" onclick="getAsistant(this,event,2055,'tectonic plates');return false;" style="color:#009000;">tectonic plates that move and interact with each other. This theory explains the formation of tectonics-1/wisconsin-standards?dictionary=mountains&did=1258" onclick="getAsistant(this,event,1258,'mountains');return false;" style="color:#009000;">mountains, tectonics-1/wisconsin-standards?dictionary=earthquakes&did=1377" onclick="getAsistant(this,event,1377,'earthquakes');return false;" style="color:#009000;">earthquakes, tectonics-1/wisconsin-standards?dictionary=volcanoes&did=1438" onclick="getAsistant(this,event,1438,'volcanoes');return false;" style="color:#009000;">volcanoes, and the distribution of tectonics-1/wisconsin-standards?dictionary=geological+features&did=1705" onclick="getAsistant(this,event,1705,'geological features');return false;" style="color:#009000;">geological features on the tectonics-1/wisconsin-standards?dictionary=earth%27s+surface&did=811" onclick="getAsistant(this,event,811,'earth\'s surface');return false;" style="color:#009000;">Earth's surface.
The tectonics-1/wisconsin-standards?dictionary=earth%27s&did=771" onclick="getAsistant(this,event,771,'earth');return false;" style="color:#009000;">Earth's tectonics-1/wisconsin-standards?dictionary=lithosphere&did=1241" onclick="getAsistant(this,event,1241,'lithosphere');return false;" style="color:#009000;">lithosphere is divided into several large and small tectonics-1/wisconsin-standards?dictionary=tectonic+plates&did=2055" onclick="getAsistant(this,event,2055,'tectonic plates');return false;" style="color:#009000;">tectonic plates, which are in constant tectonics-1/wisconsin-standards?dictionary=motion&did=1088" onclick="getAsistant(this,event,1088,'motion');return false;" style="color:#009000;">motion. The movement of these plates is driven by processes occurring in the tectonics-1/wisconsin-standards?dictionary=earth%27s&did=771" onclick="getAsistant(this,event,771,'earth');return false;" style="color:#009000;">Earth's tectonics-1/wisconsin-standards?dictionary=mantle&did=778" onclick="getAsistant(this,event,778,'mantle');return false;" style="color:#009000;">mantle.
tectonics-1/wisconsin-standards?dictionary=plate+boundaries&did=1242" onclick="getAsistant(this,event,1242,'plate boundaries');return false;" style="color:#009000;">Plate boundaries are the areas where tectonics-1/wisconsin-standards?dictionary=tectonic+plates&did=2055" onclick="getAsistant(this,event,2055,'tectonic plates');return false;" style="color:#009000;">tectonic plates interact. There are three main types of tectonics-1/wisconsin-standards?dictionary=plate+boundaries&did=1242" onclick="getAsistant(this,event,1242,'plate boundaries');return false;" style="color:#009000;">plate boundaries:
Plate tectonics-1/wisconsin-standards?dictionary=tectonics&did=1482" onclick="getAsistant(this,event,1482,'tectonics');return false;" style="color:#009000;">tectonics is responsible for the formation of various tectonics-1/wisconsin-standards?dictionary=geological+features&did=1705" onclick="getAsistant(this,event,1705,'geological features');return false;" style="color:#009000;">geological features, including tectonics-1/wisconsin-standards?dictionary=mountains&did=1258" onclick="getAsistant(this,event,1258,'mountains');return false;" style="color:#009000;">mountains, tectonics-1/wisconsin-standards?dictionary=volcanoes&did=1438" onclick="getAsistant(this,event,1438,'volcanoes');return false;" style="color:#009000;">volcanoes, and tectonics-1/wisconsin-standards?dictionary=ocean&did=1322" onclick="getAsistant(this,event,1322,'ocean');return false;" style="color:#009000;">ocean basins. For example, the formation of the Himalayas is the result of the collision between the Indian Plate and the Eurasian Plate.
Plate tectonics-1/wisconsin-standards?dictionary=tectonics&did=1482" onclick="getAsistant(this,event,1482,'tectonics');return false;" style="color:#009000;">tectonics has a significant impact on the tectonics-1/wisconsin-standards?dictionary=earth%27s+surface&did=811" onclick="getAsistant(this,event,811,'earth\'s surface');return false;" style="color:#009000;">Earth's surface and its inhabitants. It influences the distribution of tectonics-1/wisconsin-standards?dictionary=continents&did=2060" onclick="getAsistant(this,event,2060,'continents');return false;" style="color:#009000;">continents and tectonics-1/wisconsin-standards?dictionary=oceans&did=783" onclick="getAsistant(this,event,783,'oceans');return false;" style="color:#009000;">oceans, the occurrence of natural disasters such as tectonics-1/wisconsin-standards?dictionary=earthquakes&did=1377" onclick="getAsistant(this,event,1377,'earthquakes');return false;" style="color:#009000;">earthquakes and tectonics-1/wisconsin-standards?dictionary=volcanic+eruptions&did=1786" onclick="getAsistant(this,event,1786,'volcanic eruptions');return false;" style="color:#009000;">volcanic eruptions, and the shaping of landscapes over tectonics-1/wisconsin-standards?dictionary=geological+time+scales&did=1281" onclick="getAsistant(this,event,1281,'geological time scale');return false;" style="color:#009000;">geological time scales.
When studying plate tectonics-1/wisconsin-standards?dictionary=tectonics&did=1482" onclick="getAsistant(this,event,1482,'tectonics');return false;" style="color:#009000;">tectonics, it's important to understand the following key points:
Be sure to review diagrams and maps showing the distribution of tectonics-1/wisconsin-standards?dictionary=tectonic+plates&did=2055" onclick="getAsistant(this,event,2055,'tectonic plates');return false;" style="color:#009000;">tectonic plates, as well as examples of tectonics-1/wisconsin-standards?dictionary=geological+features&did=1705" onclick="getAsistant(this,event,1705,'geological features');return false;" style="color:#009000;">geological features associated with different types of tectonics-1/wisconsin-standards?dictionary=plate+boundaries&did=1242" onclick="getAsistant(this,event,1242,'plate boundaries');return false;" style="color:#009000;">plate boundaries.
Understanding plate tectonics-1/wisconsin-standards?dictionary=tectonics&did=1482" onclick="getAsistant(this,event,1482,'tectonics');return false;" style="color:#009000;">tectonics is crucial for comprehending the dynamic processes that shape the tectonics-1/wisconsin-standards?dictionary=earth%27s+surface&did=811" onclick="getAsistant(this,event,811,'earth\'s surface');return false;" style="color:#009000;">Earth's surface and its geological tectonics-1/wisconsin-standards?dictionary=history&did=915" onclick="getAsistant(this,event,915,'history');return false;" style="color:#009000;">history.