Heat deep inside Earth is constantly reshaping the planet's surface.
inside whats called earths ring of fire where there has been the most volcano eruptions
The forces that drive the rock cycle beneath Earth's surface, such as heat and pressure from the Earth's interior, are different from those on or near Earth's surface, which are mainly driven by weathering, erosion, and deposition processes. Both sets of forces ultimately contribute to the transformation of rocks through the rock cycle.
well hot goes up and cold goes down
"are places on the earth's surface where molten rock, gases, and ash from deep inside the earth are ejected."
its magma before it reaches earths surface. lava is when its at earths surface
The tectonic plates below earths surface shape earths landforms
Geologists study the Earths surface
Forces and events inside the earth affect people because they have a bearing on what happens on the earth's surface. Earthquakes, waterfalls, and volcanoes are examples of occurrences that result from forces and events occurring inside the earth.
Forces and events inside the earth affect people because they have a bearing on what happens on the earth's surface. Earthquakes, waterfalls, and volcanoes are examples of occurrences that result from forces and events occurring inside the earth.
The surface of earth is in constant motion because of forces inside the planet. These forces cause sections of earth's surface, called plates, to move.
The surface of earth is in constant motion because of forces inside the planet. These forces cause sections of earth's surface, called plates, to move.
Feature sculpted by process on earths surface or resulting from forces within earth
earthquake
volcano
Earth's surface and inside the planet slowly change rocks from one kind to another.
inside whats called earths ring of fire where there has been the most volcano eruptions
The forces that drive the rock cycle beneath Earth's surface, such as heat and pressure from the Earth's interior, are different from those on or near Earth's surface, which are mainly driven by weathering, erosion, and deposition processes. Both sets of forces ultimately contribute to the transformation of rocks through the rock cycle.