The most common type of plate boundary is a convergent/compressional/destructive plate boundary. The plates are moving together. Examples of this are:
Soufriere Hills volcano - the Atlantic plate is subducting underneath the Caribbean plate.
Mt Pinatubo - the Phillippine plate is subducting beneath the indo-Australian plate.
You get volcanoes and earthquakes at these plate boundaries. :)
Hope this helped.
The mid-oceanic ridge in the Atlantic Ocean is one. MID OCEAN RIDGES ARE NOT CONVERGENT BOUNDARIES, but rather are divergent boundaries. This map shows the tectonic plate boundaries. With the help of the legend, you should see where all the divergent, spreading boundaries are: http://www.globalchange.umich.edu/globalchange1/current/lectures/evolving_earth/tectonic_map.jpg Like the word "convergent" implies, convergent boundaries occur where tectonic plates converge, or come together. There are convergent boundaries on the west coast of South America, along the coast of Oregon and Washington in the Pacific Northwest of the US, along the southern edge of the Aleutian Islands of Alaska, along the eastern edge of Japan. MID OCEAN RIDGES ARE NOT CONVERGENT BOUNDARIES, but rather are divergent boundaries.
yes. all around the world we all have boundaries
Most volcanoes are located along tectonic plate boundaries, where the Earth's crust is either colliding (convergent boundaries), spreading apart (divergent boundaries), or sliding past each other (transform boundaries). This is because the movement of these plates creates conditions for magma to rise and erupt. The significance of the Ring of Fire is that it is an area around the Pacific Ocean where a large number of earthquakes and volcanic eruptions occur. About 75% of the world's volcanoes are located in this region, which is due to the presence of several convergent plate boundaries. The Ring of Fire is significant as it is a volatile zone with high levels of seismic and volcanic activity, posing a threat to human populations and impacting global geologic processes.
Volcanoes are distributed as they are because most occur at the boundaries of the world's tectonic plates. Subducted crust rises as magma at constructive or destructive plate boundaries, and escapes through vents in the crust, often forming volcanoes on the surface. The only exceptions to volcanoes at plate boundaries are what are known as "hot-spot" volcanoes, that occur where a particular section of the Earth's crust is very thin and being heated by the mantle below. An example of this would be the Hawaiian Islands.
In the "Ring of Fire" on the Pacific Rim (a.k.a. Pacific Ocean)
Three real world Convergent Boundaries are the Himalayan mountain range where the Indian Plate smashed into the Eur-Asian plate about 250 million years ago. Another convergent boundary is Pacific Plate pushing against the North American Plate.(West side, California, Vancouver, Alaska, Ect.) A third convergent boudary is that of the Carribian, and the Pacific Plate. I really hope this helped you satisfy a curiosity, of help you on a school or work paper. Happy Holidays, Chuck Norris P.S. My tears can cure cancer, too bad I don't cry!
Earthquakes can generally occur anywhere in the world, but most happen at plate boundaries.
Convergent Divergent Transform
90% of volcanic activity on earth occurs at either convergent or divergent plate boundaries. The remaining 10% occurs at hot spots, which are not associated with plate boundaries.
Divergent boundaries - two plates Pull away from each other. Convergent boundaries - when two plates collide forming trenches or causing earthquakes. Tranform boundaries - two plates slide past each other
Because there are far less earthquakes in the middle of a tectonic plate. About 90% of the world's earthquakes occur at plate boundaries.
The mid-oceanic ridge in the Atlantic Ocean is one. MID OCEAN RIDGES ARE NOT CONVERGENT BOUNDARIES, but rather are divergent boundaries. This map shows the tectonic plate boundaries. With the help of the legend, you should see where all the divergent, spreading boundaries are: http://www.globalchange.umich.edu/globalchange1/current/lectures/evolving_earth/tectonic_map.jpg Like the word "convergent" implies, convergent boundaries occur where tectonic plates converge, or come together. There are convergent boundaries on the west coast of South America, along the coast of Oregon and Washington in the Pacific Northwest of the US, along the southern edge of the Aleutian Islands of Alaska, along the eastern edge of Japan. MID OCEAN RIDGES ARE NOT CONVERGENT BOUNDARIES, but rather are divergent boundaries.
yes. all around the world we all have boundaries
Yes, There are plate boundaries all over the world.
In an ideal world this would be a margin that involves some element of compression, so you're looking at a compressional (orogenic) or subducting margin. Anywhere where the crust is thickened generally involves reverse, also known as thrust, faulting.
The Earth's crust is fragmented and made up of moving plates. Convergent plate boundaries are those that move towards one another. When they collide, subduction usually takes place or that is, the denser plate slides underneath the less dense one. Sometimes, the plate boundaries cause buckling in the earth's crust creating mountains. Convergent boundaries have caused the deepest and tallest structures on Earth. Among those that have formed due to convergent plate boundaries are K2 and Mount Everest, the tallest peaks in the world. They formed when the Indian plate subducted or pushed underneath underneath the Eurasian plate on which the Himalayan Mountains set, gradually pushing Mt. Everest up higher and higher.
Many of the world's volcanoes occur along the edges of boundaries of the plates. Plate boundaries are among the most geologically active places on earth. Here, new rock is being both created and destroyed, so this is where most of the world's volcanic eruptions and earthquakes occur.