They could use the information from the seismic wave scale
the rictor scale
So that people who chose to live in that area make an informed decision about doing so. Buildings and other infrastructure can be designed to be more robust against earthquake damage.
Damage from earthquakes include collapsed buildings, fallen telephone poles & trees, fires, gas leaks, disruption of water/sewer lines, damage to infrastructure (roads, highways, and bridges), etc. Pulled/broken power lines can cause power outages and electrical fires. Falling debris and wreckage can damage cars, property, humans, and animals alike. Damage to homes include broken windows, glass and mirrors in addition to gas or electrical fires. Homes and buildings can become completely destroyed or unsafe to live in causing large numbers of people to become homeless overnight. Large earthquakes at sea can cause tsunamis which in turn can cause great damage to ships at sea and to the land if it hits ground.
Build stronger foundations and use things to protect the bottom of the building, like sandbags etc
the earthquake that happened in japan, the earthquake caused a lot of damage then entered the sea that caused a terrifying tsunami.
The scales have differing uses and so which scale is more useful depends on exactly what the scientist is interested in. The Richter scale is a magnitude scale. This is an estimate of the amount of energy released by an earthquake. The Mercalli scale is an intensity scale. This is an estimate of the perceived severity of ground shaking in differing areas caused by an earthquake. The Richter value is derived based on the amplitude of seismic waves measured on a seismometer and a single value is calculated for a given earthquake. This allows an earthquake to be compared to other earthquakes. The Mercalli intensity value is derived based on the damage caused to buildings and other structures and also based on the measured ground acceleration at a given location. This value can vary depending for a given earthquake on the local ground conditions, the distance from the earthquakes epicentre and the earthquake resistance of buildings. As such, the Richter value is most useful for comparing one earthquake with another, the Mercalli value is most useful for comparing the severity of ground shaking and damage caused by a single earthquake in different locations.
The Mercalli scale would be used to damage earthquake damage.
The Mercalli scale would most likely be used to measure earthquake damage.
The Mercalli scale would most likely be used to measure earthquake damage.
It can cause damage by destroying buildings, hurting peoples emotional feelings and many other various reasons hope it was help
Stable buildings, being prepared, not using any flames, staying away from unstable buildings STAYING CALM!
The amplitude and acceleration of ground shaking at a particular place as well as the resultant damage to buildings and other infrastructure. Unlike earthquake magnitude, the intensity can vary from place to place.
Depending up on the intensity of an earthquake buildings, roads, dams and many other structures get damaged. Keeping in view the safety of buildings and dams from earthquakes special designs are being developed.
The damage that an earthquake inflicts depends on its magnitude and the characteristics of the ground in the area where it hits. Some examples of damages that can occur after an earthquake are landslides, the collapse of structures and the loss of lives.
So that people who chose to live in that area make an informed decision about doing so. Buildings and other infrastructure can be designed to be more robust against earthquake damage.
So that people who chose to live in that area make an informed decision about doing so. Buildings and other infrastructure can be designed to be more robust against earthquake damage.
An earthquake on land can cause extensive damage and loss of life as buildings collapse. If the earthquake happens under the sea, a tsunami can form and destroy coastal areas and some way inland.
homes, other buildings, paper