A Little Bit Of Geography: Case Study: Earthquakes in MEDC vs LEDC

 

ledc earthquake case study

There was a magnitude earthquake on the 9 th of March, 2 days before the magnitude earthquake of the 11 th. There were also huge numbers of large sized aftershocks, as big as magnitude 6. The reason why the T ō hoku Earthquake happened was due to the build up in strain energy as the Pacific plate subducted under the Eurasian plate. Jan 28,  · Case Study of an Earthquake in an LEDC - Bam Bam, the ancient historic city in Iran, was hit by an earthquake measuring on the Richter scale on December 26th, resulting in the deaths of over 43, people and leaving over 60, people homeless. Start studying Geography Earthquakes, LEDC case study, MEDC case study. Learn vocabulary, terms, and more with flashcards, games, and other study tools.


GeoBytesGCSE: Case Study of an Earthquake in an LEDC - Bam


Thanks for this it really helped with my geography essay on this subject! Well displayed also! This really helped with part of my Geography homework.

Thanks for making this, ledc earthquake case study. It's very well presented and is very informative. Well Done. Include a map. ChristchurchNew Zealand. Time and Date. Depth of focus. Plate names. Indo-Australian Plate and Pacific Plate, ledc earthquake case study. Indian Plate and the Eurasian Plate. Type of margin. Why was the earthquake so destructive? The earthquake was so destructive due to its depth and location. This means that the population density in the area is very high.

In some areas there were people per hectare The area was also very urbanised with lots of tall buildings and the earthquake struck at midday when many people were in the area. This is in comparison to the earthquake that hit New Zealand on the 3 rd Septemberwhich had a higher magnitude of 7. The earthquake was so destructive because many people were not prepared for an earthquake of that magnitude 7.

Building where poorly built and not earthquake resistant. For example the earthquake ledc earthquake case study strong enough to topple a building km from the epicentre. To add to this winter was approaching after the earthquake. Freezing temperatures of —15C to —20 and heavy snow in highland areas meant that there was more chances of diseases spreading and aid workers found it difficult to get through to these remote areas e.

Neelum Valley. Primary immediate effects — include key facts. Secondary longer term effects include key facts. Could cause the spread of disease. Each homeowner receivedrupees to re-construct their house, ledc earthquake case study. Immediate responses. For example In Muzaffarabad a sports stadium is being used to look after the homeless and provide food and water. Long term. Were there any techniques in place which predicted the occurrence of the earthquake? No, owever earthquakes are common as New Zealand sits on the ring of fire.

No, the area was known for earthquakes however there were no mechanisms in place to predict this earthquake. Has there been any preparation for future earthquakes? Evacuation policies. What, if anything, has been done to prevent such death and destruction in the future? Labels: Tectonics. Jordan Guthrie 1 December at Unknown 2 January at Newer Post Older Post Home. Subscribe to: Post Comments Atom.

Place Include a map. They will be able to respond to the situation immediately. However by October many people still had not received money ledc earthquake case study the government to rebuild their homes- so many still lived in shelters.

 

LEDC earthquake

 

ledc earthquake case study

 

Mar 15,  · The earthquake was so destructive due to its depth and location. The focus of the earthquake was only 5km deep meaning that the seismic waves don’t degenerate a lot before reaching the surface. Secondly the epicentre of the earthquake was a mere 10km South-East of Christchurch, which is New Zealand ’s second biggest city. This means that Author: Anna. Jan 28,  · Case Study of an Earthquake in an LEDC - Bam Bam, the ancient historic city in Iran, was hit by an earthquake measuring on the Richter scale on December 26th, resulting in the deaths of over 43, people and leaving over 60, people homeless. Find out more: Haïti earthquake, January 12 th at pm, Tectonic setting of the hazard The nature of the hazard (type, magnitude, frequency) Vulnerability Capacity to cope (prediction, prevention, preparation) Institutional capacity The impact of the event (social, economic, environmental), in the short and longer term Responses to the event (international and domestic) – Immediate.