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8.E.5B.1 Analyze and interpret data to describe patterns in the location of volcanoes and earthquakes related to tectonic plate boundaries, interactions,

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Presentation on theme: "8.E.5B.1 Analyze and interpret data to describe patterns in the location of volcanoes and earthquakes related to tectonic plate boundaries, interactions,"— Presentation transcript:

1 8.E.5B.1 Analyze and interpret data to describe patterns in the location of volcanoes and earthquakes related to tectonic plate boundaries, interactions, and hot spots.

2 Scientists study and record seismic data and volcanic activity in order to support the theory of plate tectonics. The evidence proves that there is a distinct relationship between seismic activity, volcanic activity, and the lithospheric plate boundaries.

3 Seismic Data and Plate Tectonics
The interaction along plate boundaries results in an increased frequency of earthquakes at those locations. Additionally, stronger earthquakes are more likely to occur along active plate boundaries. Strong earthquakes are more common at transform and convergent plate boundaries. The San Andreas fault in California is an example of an active transform plate boundary.

4 Volcanic Activity and Plate Tectonics
The interaction of plate boundaries results in an increased frequency of volcanic activity at these locations. Volcanoes occur at convergent plate boundaries where subducting oceanic crust is melted. This magma rises through the crust to form volcanoes and volcanic island arcs. Volcanoes occur at divergent plate boundaries where upwelling magma pushes between plates (rift zones) as the plates move apart. The Pacific Ring of fire is a region of high volcanic and seismic activity that surrounds the majority of the Pacific Ocean Basin. The Pacific Ring of Fire is made up of converging plate boundaries that border the Pacific Ocean basin. Scientists use volcanic activity data from this area to show the relationship between volcanic activity and lithospheric plate motion.

5 Hot Spots and Plate Tectonics
A volcanic hotspot is an area in the mantle from which heat rises in the form of a thermal plume from deep within the Earth. Higher heat and lower pressure at the base of the lithosphere melts rock and forms magma. The magma rises through the cracks in the lithosphere and erupts to form volcanoes.

6 Hot Spots and Plate Tectonics
As the tectonic plates continue to move over a stationary hotspot, the volcanoes break away and move along with the plate allowing new volcanoes to form in their place. This plate tectonic movement over a hotspot results in chains of volcanoes, such as the Hawaiian Islands. At a hot spot, higher heat and lower pressure at the base of the lithosphere melts rock and forms magma. The magma rises through the cracks in the lithosphere and erupts to form volcanoes.


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