Is earthquake epicenter randomly distributed on Earth?

Is earthquake epicenter randomly distributed on Earth?

Earthquake epicentres are not randomly distributed on earth. They occur wherever two tectonic plates meet. The collision of these plates leads to the occurrence of earthquakes and volcanoes. About 75% of world’s largest volcanoes and 90% of earthquakes occur along the Pacific Ring of Fire.

How do you compare the location of majority of earthquake?

Answer. Volcanoes and earthquakes are both produced from the divergent and convergent movement of the tectonic plate boundaries. The best association to this is the pacific ring of fire wherein, most of the earthquake epicenters are located on the pacific plate on the ring of volcanoes.

How do you compare the location of majority of earthquake epicenter with the location of volcanoes?

Answer: As per comparing the map of earthquake epicenters with the map of active volcanoes, it can be observed that it overlaps. The location of the volcanoes is where earthquakes mostly occurs. From the observation it can be said that earthquakes are mostly present where there is a near volcano in the area.

How will you compare the location of earthquake to the location of volcanoes?

Earthquake epicenters and volcanoes are both situated at the same location. Earthquakes are not randomly distributed over the earths surface. They tend to be concentrated in narrow zones. Some are located near the edges of continents, some are in mid-continents, while others are in oceans.

Where do most volcanoes on Earth occur?

Sixty percent of all active volcanoes occur at the boundaries between tectonic plates. Most volcanoes are found along a belt, called the “Ring of Fire” that encircles the Pacific Ocean. Some volcanoes, like those that form the Hawaiian Islands, occur in the interior of plates at areas called “hot spots.”

Which continent has most volcanoes?

Antarctica

Can you tell if a volcano is going to erupt?

An increase in the frequency and intensity of felt earthquakes. Noticeable steaming or fumarolic activity and new or enlarged areas of hot ground. Subtle swelling of the ground surface. Small changes in heat flow.

Can you predict a tsunami?

Earthquakes, the usual cause of tsunamis, cannot be predicted in time, but can be predicted in space. Therefore, tsunami prediction can only be done after an earthquake has occurred.