The tectonic plates around Krakatoa, located in the Sunda Arc of Indonesia, primarily move in a northward and eastward direction due to the subduction of the Indo-Australian Plate beneath the Eurasian Plate. This movement contributes to volcanic activity in the region, including the eruptions of Krakatoa. Additionally, the complex interactions of the surrounding plates can lead to varying degrees of seismic activity. Overall, the area is characterized by significant tectonic dynamics.
There is a subduction zone under Krakatoa where the Indian Ocean seafloor is being pushed eastwards under Indonesia. (The Australian plate is moving under the Eurasian plate here.) When the seafloor is pushed into the earth it melts due to increases in pressure and temperature. The hot, melted seafloor material (now known as magma) rises up and creates volcanoes like Krakatoa.
they move away form each other, so what ever the direction the plates are the move the apposite direction away
The earth's plates move in all directions: up, down, and sideways. That's why we have mountains and subsidances and earthquakes and volcanoes and all sorts of stuff!
No, tectonic plates move in different directions and at different rates. This movement is driven by the convection currents in the Earth's mantle. Plates can move towards each other (convergent), away from each other (divergent), or slide past each other (transform).
tectonic plates
The Krakatoa plates moved in a convergent manner, where the Indo-Australian Plate subducted beneath the Eurasian Plate. This movement led to the intense volcanic activity and eventual eruption of Krakatoa in 1883.
The Eurasian and the Indian Plates collided to make Krakatoa (also known as Krakatau) erupt
At a convergent boundary, plates move towards each other.
Tectonic plates move from east to west as a whole due to the coreolis (not sure of spelling) effect.
They can move apart or in some rare cases together.
There is a subduction zone under Krakatoa where the Indian Ocean seafloor is being pushed eastwards under Indonesia. (The Australian plate is moving under the Eurasian plate here.) When the seafloor is pushed into the earth it melts due to increases in pressure and temperature. The hot, melted seafloor material (now known as magma) rises up and creates volcanoes like Krakatoa.
trenches or mountains or rift valleys or faults depends which direction the plates move
they move away form each other, so what ever the direction the plates are the move the apposite direction away
When convection currents sink near the mantle, they create drag on the lithospheric plates above. This drag causes the plates to move in the direction of the sinking current. As the plates move, they can interact with other plates, leading to processes like subduction or mountain formation.
Nope! They move in different directions which is why there are earthquakes.
The earth's plates move in all directions: up, down, and sideways. That's why we have mountains and subsidances and earthquakes and volcanoes and all sorts of stuff!
xzgkldjzhipj]tmhedroj mpdl;thm\eol