The type of natural disasters that we have had . We have had earthquakes that have been really bad and have cost people to leave where they were living. We have had volcanos that have destroyed all the land around it. We have had tsunamis have washed out cities and made it so that no one has lived there for a long time. These are some of the worst things that natural disasters have hurt us today. We have types of earthquakes that can destroy a whole city and way more. We have had ocean earthquakes that shook and had a moment magnitude of 9.1 to 9.3 and maximum mercalli intensity that was on the west coast of sumatra indonesia. We have had volcanos that have erupted 12 times in one hour it is called the fuego volcano eruption. That is just …show more content…
In 2010 the was another earthquake in chile it was not as big as the other ones but is was still a big one according to the magnitude it was a 8.8 it happened on saturday the 27th of february, it was right in the middle of chile right on the coast. In 2010 haiti had an earthquake of a magnitude of 7. Haiti claimed up to 316,000 lives and displaced 1.5 million people. The earthquake caused major damage in port-au-prince, jameco and other cities and regions.
A tsunamis or tidal wave also known as a seismic sea wave, it is a series of waves in large bodies of water caused by the displacement of a large body of water. A tsunamis is an large earthquakes or tectonic plates colliding that is what causes the series of was to crash on islands and ruin cities. In july 9 1958 the world's largest tsunamis hit the city of lituya bay alaska. It was caused by a 8.3 earthquake that was caused on the landside and that what triggered the tsunamis. Regarded as the largest tsunamis of all record time. In krakatau indonesia on august 27 1883, the tsunami was actually linked to an explosion that linked to the krakatoa volcano. Multiple waves as big as 37 m hit with a violent eruption and demolish the towns and cities of krakatau. Tsunamis are some of the most dangerous natural disasters the come after earthquake in the ocean and outside the ocean. They are so strong they can make most towns and cities destroy they can pick things up and never bring the things that were taken
August 29, 2005 Hurricane Katrina hits the Gulf Coast of Louisiana. A plan of action was created only hours ahead of time. One can say the catastrophe of Hurricane Katrina and the poor execution is a lesson learned for all officials who are the head of Natural Disaster Preparedness. Unfortunately 1200 lives were lost and the deadliest hurricane to hit the United States in over 75 years. With the state of Louisiana already lying below sea level and being warned by experts for years, hurricane Katrina is a vas lesson that came with a deadly
Three theories of stress, arousal and anxiety that are all linked with a common theme are Individual Zone of Optimal Functioning, Inverted-U theory, and Catastrophe theory. These three are linked by the theme of function of behaviour equals person times situation. These theories can help to explain arousal and anxiety levels of athletes in specific situations and the outcome of their performance, whether they succeed or fail. This essay will focus on the person times situation theme and how athletes need to find the correct balance of arousal and anxiety so they can perform at their best in a given situation. Situations may include the dying seconds of a match where the outcome is in their hands, or it might be a grand final, or any moment
Hurricane Katrina was one of the deadliest hurricanes ever to hit the United States. Hurricane Katrina started out as any other hurricane, as the result of warm moisture and air from the oceans surface that built into storm clouds and pushed around by strong forceful winds until it became a powerful storm. Hurricane Katrina formed over the Bahamas on August 23, 2005 and crossed southern Florida as a moderate Category 1 hurricane, causing some deaths and flooding there before strengthening rapidly in the Gulf of Mexico. The hurricane strengthened to a Category 5 hurricane over the warm Gulf water, but weakened before making its second landfall as a Category 3 hurricane on the morning of Monday, August 29 in southeast
The most noticeable difference between a tsunami and a hurricane is the cause of each. A tsunami is the aftermath of an underwater earthquake or volcanic eruption. The force of the earthquake or eruption, along with the moving of the tectonic plates, sends large amounts of water in all directions. The waves can be thousands of feet high when they reach the shoreline. These giant waves can arrive at a moment's notice with no warning. The tsunami is a large natural phenomenon originating from the ocean, but it is not the only phenomenon to start in the ocean.
Hurricane Sandy was a tropical cyclone that devastated portions of the Caribbean, Mid-Atlantic and Northeastern United States in late October 2012. The eighteenth named storm and tenth hurricane of the 2012 Atlantic hurricane season, Sandy was the largest Atlantic hurricane on record, as measured by diameter, with winds spanning 1,100 miles. Sandy is estimated in early calculations to have caused damage of at least $20 billion. Preliminary estimates of losses that include business interruption surpass $50 billion, which, if confirmed, would make it the second-costliest Atlantic hurricane in history, behind only Hurricane Katrina.
Tsunamis occur when an earthquake happens in the ocean and the energy goes to the water creating huge waves. Tsunamis are very dangerous they can be so strong that they wash away the city, harm thousands, and cause hundreds of thousands to billions of dollars in damage. “A giant tsunami along the West Coast would wash away coastal towns, destroy U.S. Highway 101 and cause $70 billion in damage. More than 100 bridges would be lost, power lines toppled and coastal towns isolated. Residents would have as few as 15 minutes’ notice to flee to higher ground, and as many as 10,000 would die” (Dangerous tsunami threat off U.S. West Coast). This shows what kind of damage this geo-process can
On Friday March 11th, 2011 at 2:46 pm, the fifth largest earthquake recorded since 1900 with a magnitude of 9.0, 1.7 Richter scale points greater than the devastating Vancouver Island earthquake of 1946, struck the coast of Japan, 231 miles northeast of Tokyo1, causing a devastating regional and global catastrophe.
Emergency disaster situations can be defined in three ways accidental, natural, or wilful. An accidental disaster refers to an event which is totally unexpected such as a house fire started by an electrical fault. Similarly, an illustration of a natural disaster would be the recent earthquakes which took place in Christchurch, NZ between September 2010 and February 2011 that resulted in devastating and far reaching consequences for the country. Foremost in many minds when recollecting a wilful disaster would be the terror attacks of 9.11 in the USA. A disaster of this magnitude has never been experienced during peace time in our lifetime. This essay will examine three different aspects of rescue management procedure where reports detailing disaster and emergency response must be studied to understand and improve our handling of rescue operations.
The most recent large-scale earthquake along the Peru-Chile Plate was the 16 September earthquake, which happened in 2015. It measured an M 8.3, one of the largest on record. 5 were killed, and over 1 million were evacuated from greatly affected areas. However, compared to other earthquakes that have taken place in Chile, this one was moderate.
The tsunami waves reached heights up to 128 feet at Miyako city and traveled inland as far as six miles. A tsunami is a series of large sea waves caused by a large displacement of water. The tsunami flooded an estimated area of approximately 217 square miles in Japan. The massive waves destroyed large three-story buildings where many people seeked for safety. Within hours of the first tsunami hit Hawaii and set off multiple warning to Canada, Alaska, South America, the United States, the Oregon coast, and the Pacific.
For starters, there is Haiti’s major earthquake on Tuesday, January 12th, 2010 at approximately 5pm. The earthquake’s magnitude was a whopping 7.0 and travelled 9.7km deep. The earthquake struck 25km west-southwest from Haiti’s capital, Port-au-Prince, at the coordinates of 18.443°N and 72.571°W. Although the earthquake struck the capital, it could be felt 130km east of Les Cayes, Haiti and as far as 1125km southeast of Miami, Florida and the border of the Dominican Republic.
“Your County Manager has just gone to a federally sponsored program on getting volunteers to support the management and administrative side of disaster and recovery portions of emergency management.
In my community of New York City it is unlikely for a major hurricane to hit. It's only happened a handful of times in history. If a major superstorm hit our city it would be considered a Nor'easter. Nor'easters are intense storms that can cause heavy snow, rain and oversized waves that can cause beach erosion and a low level storm surge and structural damage. The intensity of the wind gusts associated with these storms can exceed hurricane force in intensity and make NYC very vulnerable. (“What Exactly Is a Nor'easter?” 2016)
Though Andrew was a small tropical cyclone for most of its lifespan, it caused extreme damage, especially in the Bahamas, Florida, and Louisiana. The vast majority of the damage was as a result of extremely high winds, although a few tornadoes spawned by Andrew caused considerable damage in Louisiana. Throughout the areas affected, almost 177,000 people were left homeless. Outside of the Bahamas, Florida, and Louisiana, effects were widespread, although damage was minimal. Overall, $26.5 billion in losses and 65 fatalities were attributed to Andrew.[1] Other estimates, however, indicate Andrew caused about $34 billion in damage overall.[37] As a result of damage in Florida and Louisiana, Andrew was listed as the costliest hurricane in U.S.
While natural disasters such as floods, drought and hurricanes are commonly thought to occur due to environmental forces such as weather, climate and tectonic movements; a deeper investigation into the ‘disaster’ displays other contributing forces. Human factors have a large, if not equal, contribution to the occurrance and outcome of such disasters (Pelling, 2001). As Pelling (2001) argues, there is both a physical and human dimension to ‘natural disasters’. The extent to which the natural occurrence of a physical process, such as a flood or earthquake, impacts on society is constructed by that society, creating a ‘disaster’ as measured by a