Tsunami Speeds

[El and Bill]

Warren asked about the speed of a tsunami in the open ocean. Tsunami waves usually have a wave speed of about 500 mph in the deep open ocean - this is approximately the speed of a modern commercial jet. It requires about 12-15 hours for a tsunami generated along the South American coast to reach Hawaii and about the same time to reach our Pacific NW.

Wave height in the open sea might be no more than a foot and usually is undetected by boaters. When a tsunami reaches shallow water near the coast it is slowed down by friction with the sea floor. The top of the wave moves faster than the bottom causing the sea to rise dramatically, and the energy that had been stored in velocity is translated to wave height.

Tsunamis do not necessarily make their final approach to land as a series of giant breaking waves. They are usually more like a very rapidly rising tide. This may be accompanied by much underwater turbulence, sucking people under and tossing heavy objects around.

The time between the arrival of wave crests may vary from 10 minutes to several hours.

In island areas, such as the San Juan and Gulf Islands, some of the energy of the tsunami is translated into huge currents between the islands, that abruptly reverse direction after the passage of the first wave.

Sediments on the coasts of the Atlantic, Caribbean, and Pacific margins of North America all bear evidence of massive past tsunamis. One large enough to bury most of Long Island and all of Manhatten Island occurred about 300 b.c. The Atlantic, Pacific and Indian Oceans now have warning systems.

Since Columbus landed on an island in the New World, there have been 37 documented tsunamis in the Caribbean. A tsunami warning system is planned to be installed here in 2010.

 

[rogerbum]

As always Bill, good information. One thing to add is that Tsunami's travel as longitudinal, compression waves as opposed to the transverse waves that we are all familiar with. E.g. the tsunami wave is traveling parallel to the surface of the water as opposed to perpendicular to it. It's more like a sound wave. As such, the tsunami wave can be quite deep and involve a large volume of water even when the water difference at the surface is quite small.

 

[AstoriaDave]

Roger, your description is accurate and good. Functionally, it might be stated this way:

Tsunamis are imperceptible back and forth waves at sea, and deconstruct (are transformed into) up and down waves when they reach the continental shelf. It is the up and down waves which hit shore, and they have an enormous volume of water in them, as they are not only tall waves, but extremely long waves as well. This means the total volume of water impacting a shoreline is gi-normous!

Living in Astoria, where a magnitude 9 subduction zone quake just offshore is on the horizon "sometime" (most recent one was in 1700 AD), we are well aware of the hazard of a Chile-type quake and tsunami right here, right here!

We wear our PFD's to bed! :wink:

 

[hardee]

Also evident from this last, and very documented tsunami, is the ability of the wave to wrap around and island, and provide that tidal type fluctuation on the far side from the source.

Thanks Bill for really making all this understandable.

Harvey
SleepyC

 

[rjmcnabb]

And another thing: sometimes, before the "wave" hits, the sea may draw back the waters from shore. This is bad, because people can go down to see what's up, :shock: gather sealife, etc., especially if the tidal zone is really flat, because the distances can be great. Then the flip-side comes back, and the water returns at high speed. One cannot outrun that incoming set of waves.
Rod