The University of the West Indies, at Mona, Jamaica Homepage

The University of the West Indies

at Mona, Jamaica

Earthquake Unit

 leaf as bullet  Home
 leaf as bullet  Our Mission Statement
 leaf as bullet  History
 leaf as bullet  Earthquakes in Jamaica
 leaf as bullet  Staff
 leaf as bullet  Earthquake Report Form
 leaf as bullet  Earthquake Updates
Last felt quake- May 11, 2014 at 8:44pm. (Mag 3.4) epicentre 10km South of Buff Bay, Portland.
Did you feel it? Please click here to download and print our Earthquake Report Form*. *Requires Adobe Reader
 
Antenna used for transmitting data 
Visiting school students at Earthquake Unit booth during exhibition

 

Quick Information


FREQUENTLY ASKED QUESTIONS
What is an earthquake?

Epicentre, focus and seismic waves of an earthquake (drawing)
Beneath the earth's surface during an earthquake.
Orange circles represent seismic waves travelling outwards from the focus (source). The black arrows indicate direction of sudden movement.

An earthquake is a sudden movement of the earth's crust accompanied by the generation of seismic waves that travel outwards from the source. (See figure on right) The sudden ground motion or vibration is produced by a rapid release of stored up energy. The movement take place along fault-planes in the earth's crust. It is the seismic waves that produce the gound motion which people feel and call an earthquake. However, there are more earthquakes recorded by instruments than those that are felt by people. Strong seismic waves can cause great local damage and can travel large distances. Even weaker seismic waves can travel far but are most likely to be detected by sensitive scientific instruments and not by people.



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What is a fault?

A fault is a fracture in the earth, along which one side has moved in relation to the other. Faults are usually classified according to the direction of motion of the two rocky blocks on either side of the fault being observed: mainly normal, reverse and strike-slip faults. (See three simplified figures below). However in reality , it is much more common to have some combination of fault movements occurring together.
Epicentre, focus and seismic waves of an earthquake (drawing)
Normal fault

Reverse fault

Strike Slip











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Where does this energy come from ?

The energy released during the sudden ground motion comes from a build up over long periods of time, as a result of tectonic forces within the earth. Plate boundaries are made up of many faults. The edges of these faults are not smooth like a table top but are rough. Imagine the difficulty your friend would have in pulling your hands apart when you interlace your fingers, as opposed to you just pressing flat palms together. Likewise, these fault planes, most times, are stuck together. While the edges of faults are stuck together, and the rest of the block is moving, the energy that would normally cause the blocks to slide past one another is being stored up. When the force of the moving blocks finally overcomes the friction of the jagged edges of the fault, they no longer stick together and all stored energy is released.


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What causes earthquakes ?

Earthquakes are caused by a build-up and sudden release of strain in the earth's crust. The strain normally accumulates slowly and is released when it exceeds the friction on the fault-plane.

Jamaica, like many other landmasses, has a number of faults. One of the Earthquake Unit's functions is to determine which faults are active and may produce damaging earthquakes in the future.

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How are earthquakes measured?

A seismometer is the scientific instrument used to detect earthquakes. Signals received from seismometers are recorded and this allows scientists to calculate the size (amount of energy released) of an earthquake, that is, its magnitude. Usually the data is received from several seismometers all located at varying distances from the source of the earthquake.

The first magnitude scale was devised by Charles Richter in 1935. He used the logarithmic scale (which scales numbers by a factor of 10) to accomodate the wide range of ground motions which earthquakes can cause, and this has persisted to the present. Scales today are based on various aspects of seismograms (The trace of seismic waves in time recorded on paper or digitally ) as told by the following names: body-wave magnitude, surface-wave magnitude, duration magnitude, moment magnitude. The Earthquake Unit uses the latter two scales for magnitude. Moment magnitude is the most true indication of the size of an earthquake because it is based on the amount of movement on the fault.

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What about earthquake intensity ?

Another way of 'measuring' earthquakes is the intensity which describes the amount of shaking. It is the observed effects of an earthquake over a limited geographical area. Intensity scales assign whole numbers usually from I to XII (always written in roman numerals) to describe these observed levels of shaking. An intensity of 1 means the earthquake was not felt, while 12 means absolute and total destruction. In Jamaica we formerly used the Modified Mercalli Scale (MMS - 1956 version). Now we use the European Macroseismic Scale (EMS - 1998) which has been developed and tested over a period of years by a working group of the European Seismological Commission. The EMS makes the imprecise and subjective nature of assigning intensities more robust and straightforward with regard to earthquake effects on humans, objects and buildings. Our earthquake reporting form is based on the EMS.

Intensity information can be compiled and use to create intensity maps. Intensity maps give us a visual indication of where the strongest shaking was felt during an earthquake and directs us where to look for possible signs of fault movement.

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What does epicentre mean ?

The place on the earth's surface vertically above the origin of the earthquake and is identified by geographic coordinates. Where the earthquake began is called the focus of hypocentre. The focus is the spot where the rock ruptures.
Epicentre of an earthquake (drawing) Epicentre of an earthquake
In Jamaica, the hypocentre is typically between 4 and 20 kilometres below the surface.

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What does the Richter Scale look like ?

The Richter Scale is not an actual instrument. It is a measure of the amplitude of seismic waves and is related to the amount of energy released. This can be estimated from the recordings of an earthquake on a seismograph. The scale is logarithmic, which means that a magnitude 6 earthquake has 10 times the amplitude of ground motion as a magnitude 5, and a magnitude 7, 100 times that of a magnitude 5 and a magnitude 8.0 is 1,000 times greater.

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Can earthquakes be prevented ?

Earthquakes cannot be prevented but the effects of earthquakes can be reduced if houses are properly designed and constructed in keeping with the National building codes and people follow earthquake safety tips recommended by the Office of Disaster Preparedness and Emergency Management (ODPEM).

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What are earthquake scientists called ?

Seismologists: 'seismos' from the Greek meaning earthquakes, and 'ologist' meaning a person who studies (something). A seismologist is a person who studies earthquakes and the mechanics of the earth.

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Can earthquakes be predicted ?

In predicting an earthquake the seismologist must give the place, time and size of the event. The factors controlling these events are numerous and are not directly observable. Hence it is not possible at this time to predict earthquakes.

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Are earthquakes weather related?

Earthquakes are not seasonal and not related to weather (rain, strong wind , hot or cold days) instead an earthquake is the result of geological processes occurring within the earth and can occur at any time.

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SAFETY TIPS

  tickPick "safe places" in each room of your home.
A safe place could be under a sturdy table or desk or against an interior wall away from windows, bookcases, or tall furniture that could fall on you. The shorter the distance to move to safety, the less likely you will be injured. Injury statistics show that persons moving more than 10 feet during an earthquake's shaking are most likely to experience injury.

  tickPractice drop, cover, and hold-on in each safe place.
Drop under a sturdy desk or table, hold on, and protect your eyes by pressing your face against your arm. Practicing will make these actions an automatic response. When an earthquake or other disaster occurs, many people hesitate, trying to remember what they are supposed to do. Responding quickly and automatically may help protect you from injury.

  tickPractice drop, cover, and hold-on at least twice a year.
Frequent practice will help reinforce safe behavior.

  tickInform guests, babysitters, and caregivers of your plan.
Everyone in your home should know what to do if an earthquake occurs. Assure yourself that others will respond properly even if you are not at home during the earthquake.

 tick Get training.
Take a first aid class from your local Red Cross chapter. Get training on how to use a fire extinguisher from your local fire department. Keep your training current. Training will help you to keep calm and know what to do when an earthquake occurs.

  tickDiscuss earthquakes with your family.
Everyone should know what to do in case all family members are not together. Discussing earthquakes ahead of time helps reduce fear and anxiety and lets everyone know how to respond.

 tickBolt bookcases, china cabinets, and other tall furniture to wall studs.
Brace or anchor high or top-heavy objects. During an earthquake, these items can fall over, causing damage or injury.

 tickMove large or heavy objects and fragile items (glass or china) to lower shelves.
There will be less damage and less chance of injury if these items are on lower shelves.

 tick Hang heavy items, such as pictures and mirrors, away from beds, couches, and anywhere people sit.
Earthquakes can knock things off walls, causing damage or injury.

 tick Consider having your building evaluated by a professional structural design engineer.
Ask about home repair and strengthening tips for exterior features, such as porches, front and back decks, sliding glass doors, canopies, carports, and garage doors. Learn about additional ways you can protect your home. A professional can give you advice on how to reduce potential damage.

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