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             THIS VERY BAD NEWS FOR US. '26th DECEMBER 2004', THIS DAY IS WRITTEN AS 'BLACK'  DAY IN THE HISTORY OF WORLD . TSUNAMI HAD DISTROYED BEAUTIFUL LIFE OF MORE THAN FIVE COUNTRIES. BEFORE SEEING THE BEAUTY OF WORLD , LITTLE BABIES LEFT THIS WORLD.
              SO THIS IS OUR RESPONSIBILITY TO HELP THEM. THIS BITTER SITUATION CAN ALSO COME ON US.
                                             
 
                                                             '  H E L P !'
 

WE ARE STUDENTS OF V.J.T.I. WE ARE DOING A PROJECT ON TSUNAMI. WE HAVE SHOWN SOME PHOTOS TO YOU TO INTRODUCE TSUNAMI.

TODAY'S SITUATION?

NOW A DAY , A LOT OF IMPROVEMENTS IN THEIR LIFE. SOME FILMSTARS, LEADERS AS WELL AS COMMON PEOPLE  WERE HELPED THEM BY PROVIDING THEM FOOD, CLOTHS , SOME AMOUNT OF THEIR SALLARY,TENTS ,ETC.

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       A tsunami (soo-NAH-mee) is a series of waves that ocWhat is a Tsunamicur in an ocean or other large body of water and that are caused by some activity that displaces large amounts of water. Tsunami is the Japanese word for "harbor wave."

       Tsunamis are usually caused by earthquakes that occur on the seafloor or in coastal areas. The energy generated by the earthquake is transmitted through the water. In deep oceans the energy in these seismic sea waves can travel virtually unnoticed because the wave height may be only twelve inches. When this energy reaches the shallow waters of coastlines, bays, or harbors, it forces the water into a giant wave. Some tsunamis may reach heights of 100 feet or more.

       Although a relatively rare event, since 1992 tsunamis have claimed over 2,000 lives worldwide. The tsunamis were caused by earthquakes in Japan, Indonesia, and Nicaragua. Damage to cities along coastlines has been in the millions of dollars.

 
 

The physics behind the wave

                        

       The phenomenon we call a tsunami is a series of waves of extremely long wavelength and period generated in a body of water by an impulsive disturbance that displaces the water. Although tsunamis are often referred to as "tidal waves" by English-speaking people, they are not caused by the tides and are unrelated to them.

regular wind-generated wave

       Tsunamis are primarily associated with earthquakes in oceanic and coastal regions. When an earthquake occurs, the energy travels outward in all directions from the source. This can be illustrated by throwing a pebble into a small, still pond. The pebble represents a meteorite or some other energy source, and the pond represents the ocean. The ripples that travel out in all directions from the focus, or the point where the pebble hit the water, represent the energy that creates a sea wave. Notice how the waves become larger as they reach shore, where the water is shallower.

Tsunami in deep ocean

      Detecting tsunamis is a very difficult thing to do. When a wave begins in the deep ocean waters, it may only have a height of about twelve to twenty-three inches and look like nothing more than the gentle rise and fall of the sea surface. An example of how easy tsunamis are to overlook is the Sanriku tsunami, which struck Honshu, Japan, on June 15, 1896.

      Fishermen twenty miles out to sea didn't notice the wave pass under their boats because it only had a height at the time of about fifteen inches. They were totally unprepared for the devastation that awaited them when they returned to the port of Sanriku. Twenty-eight thousand people were killed and 170 miles of coastline were destroyed by the wave that had passed under them.

Tsunami approaching shore

      Tsunamis in deep water can have a wavelength greater than 300 miles (500 kilometers) and a period of about an hour. This is very different from the normal California tube, which generally has a wavelength of about 300 feet (100 meters) and a period of about ten seconds. (The period of a wave is the time between two successive waves.)

      Tsunamis are shallow-water waves, which means that the ratio between water depth and wavelength is very small. These shallow-water waves move at a speed equal to the square root of the product of the acceleration of gravity (9.8m/s/s) and the water depth. The deeper the water, the faster and shorter the wave is. For example, when the ocean is 20,000 feet deep, a tsunami travels at 550 miles per hour. At this speed, the wave can compete with a jet airplane, traveling across the ocean in less than a day.

       Another important factor in considering tsunamis is the rate at which they lose energy. Because a wave loses energy at a rate inversely related to its wavelength, tsunamis can travel at high speeds for a long period of time and lose very little energy in the process

'H E L P!'
- FROM, 
                                                        ABHI , AMIT, SHAILU , VAIJU.