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Tsunami: generation and risks

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Resumo:A tsunami is a series of waves generated in a body of water by an impulse disturbance that displaces vertically the water column. Tsunamis are primarily associated with earthquakes in oceanic and coastal regions. Landslides, volcanic eruptions, nuclear explosions, and even impacts of cosmic bodies, like meteorites, can also generate tsunamis. A tsunami can have a period of about one hour and a wavelength in excess of 200 km. It is because of their long wavelengths that tsunamis behave as shallow-water waves. The speed o f a shallow-water wave is equal to the square root of the product of the acceleration of gravity and the depth of the water. The rate at which a wave "loses its energy" in inversely related to its wavelength. Since a tsunami has a very large wavelength, it will "Jose little energy" as it propagates. Hence in very deep water, a tsunami will travel at high speeds and travel great transoceanic distances with limited "energy loss".
Autores principais:do Carmo, José S. Antunes
Assunto:Riscos tsunamis sismos modelação numérica. Risks tsunamis earthquakes numerical simulation.
Ano:2000
País:Portugal
Tipo de documento:artigo
Tipo de acesso:unknown
Instituição associada:Imprensa da Universidade de Coimbra
Idioma:português
Origem:Territorium
Descrição
Resumo:A tsunami is a series of waves generated in a body of water by an impulse disturbance that displaces vertically the water column. Tsunamis are primarily associated with earthquakes in oceanic and coastal regions. Landslides, volcanic eruptions, nuclear explosions, and even impacts of cosmic bodies, like meteorites, can also generate tsunamis. A tsunami can have a period of about one hour and a wavelength in excess of 200 km. It is because of their long wavelengths that tsunamis behave as shallow-water waves. The speed o f a shallow-water wave is equal to the square root of the product of the acceleration of gravity and the depth of the water. The rate at which a wave "loses its energy" in inversely related to its wavelength. Since a tsunami has a very large wavelength, it will "Jose little energy" as it propagates. Hence in very deep water, a tsunami will travel at high speeds and travel great transoceanic distances with limited "energy loss".