friction
One movement that tectonic plates do not experience is "oscillation." While tectonic plates primarily engage in movements such as convergence, divergence, and transform faulting, oscillation refers to a back-and-forth motion that is not characteristic of tectonic plate interactions. Instead, tectonic plates move in response to forces generated by the Earth's mantle and other geological processes.
When any fault occurs or tectonic plates pull away from each other under the ground. An earthquake happens.
One activity directly caused by the motion of tectonic plates is the occurrence of earthquakes. As tectonic plates interact—by colliding, sliding past each other, or pulling apart—stress builds up along faults until it's released as seismic energy, resulting in an earthquake. Additionally, this movement can also lead to volcanic eruptions when magma is forced to the surface due to shifting plates.
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Continental plates are tectonic plates. They are tectonic plates upon which continents rest, and they move as do all tectonic plates. Basically, there is no difference, other than the fact that oceanic plates are another type of tectonic plate.
it would brake
Tectonic plates are always trying to slowly move, but they more often than not find another tectonic plate in there path of motion. After enough pressure is built up between these plates trying to move past each other, a sudden "jerk" between them happens, and the restoring force from this "jerk" causes the waves we call "seismic waves" to happen.
One movement that tectonic plates do not experience is "oscillation." While tectonic plates primarily engage in movements such as convergence, divergence, and transform faulting, oscillation refers to a back-and-forth motion that is not characteristic of tectonic plate interactions. Instead, tectonic plates move in response to forces generated by the Earth's mantle and other geological processes.
When any fault occurs or tectonic plates pull away from each other under the ground. An earthquake happens.
When tectonic plated collide they create an earthquake. It happens by them colliding and shaking each other forming a big movement.
One activity directly caused by the motion of tectonic plates is the occurrence of earthquakes. As tectonic plates interact—by colliding, sliding past each other, or pulling apart—stress builds up along faults until it's released as seismic energy, resulting in an earthquake. Additionally, this movement can also lead to volcanic eruptions when magma is forced to the surface due to shifting plates.
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an earthquake happens
Most volcanoes are formed by the movement of tectonic plates on the surface of the earth. These plates are basically huge pieces of rock that 'float' on the mantle (a layer of the earth that is sort-of liquid rock). The tectonic plates are in constant motion, albeit very slow motion. They sometimes move toward each other, other times they'll move apart, and still other times one will sink while the other rises above it.
Continental plates are tectonic plates. They are tectonic plates upon which continents rest, and they move as do all tectonic plates. Basically, there is no difference, other than the fact that oceanic plates are another type of tectonic plate.
The Earth's crust is broken up into several lithospheric or tectonic plates. These plates are constantly moving atop the Earth's mantle (semi-solid layer of molten rocks). Based upon their motion, tectonic plates are referred to as converging or diverging. Converging tectonic plates move towards each other and form convergent boundary. Diverging tectonic plates move away from each other and form divergent boundary.
it happens when the tectonic plates under the earth collide or push into each other to cause disruption so an earthquake would happen in a place were there is the edge of 2 tectonic plates underneath.