Scientific Cruise Meets Perfect Storm, Inspires Extreme Wave Research 107
An anonymous reader writes "The oceanographers aboard RRS Discovery were expecting the winter weather on their North Atlantic research cruise to be bad, but they didn't expect to have to negotiate the highest waves ever recorded in the open ocean. Wave heights were measured by the vessel's Shipborne Wave Recorder, which allowed scientists from the National Oceanography Centre to produce a paper titled 'Were extreme waves in the Rockall Trough the largest ever recorded?' It's that paper, in combination with the first confirmed measurement of a rogue wave (at the Draupner platform in the North Sea), that led to 'a surge of interest in extreme and rogue waves, and a renewed emphasis on protecting ships and offshore structures from their destructive power.'"
2 theories at once (Score:3, Funny)
Re:2 theories at once (Score:4, Funny)
The guys up on deck thought they were looking at rough seas, but down below... well, when the boat starts a rockin' don't come a knockin', if you get my drift.
How high were the waves?!? (Score:5, Informative)
more facts from the article (Score:4, Informative)
Re:more facts from the article (Score:5, Funny)
Under severe gale force conditions with wind speeds averaging 21 ms a shipborne wave recorder measured individual waves up to 29.1 m from crest to trough, and a maximum significant wave height of 18.5 m.
Can you convert that to the slashdot standard unit of measurement, Libraries of Congress? Also, if you could provide a car analogy too that would be great. Thanks!
Re:more facts from the article (Score:5, Funny)
0.59 Libraries of Congress from fender to fender.
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I only RTFAs to find out how high the waves were - it turns out they were up to 29.1 meters (95.5 feet).
And rouge!
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I RTFA for the same reason, and obtained the same result. But when I got deeper into TFA, I found that Cape Horn had mysteriously moved to Africa, and now I am confused. About how that could possibly have happened. And about whether any of the new knowledge I had gained could be trusted.
It takes a REALLY BIG wave to move that much geography that far, I guess.
Rogue waves (Score:3, Funny)
Outlaw them and put out a bounty (or a Bounty?)
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Outlaw them and put out a bounty (or a Bounty?)
Better yet, patent them.
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Outlaw them and put out a bounty (or a Bounty?)
Better yet, patent them.
And sue in east texas
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If they're X-Men-style Rogue, Playboy might be willing to pay you for pics.
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Or you could ensure their long-term survival by declaring 'War' on them...
2006 (Score:5, Informative)
The article was published in 2006. How is this 'new?'
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The article was published in 2006. How is this 'new?'
I guess it's some sort of tie in with the 100th anniversary of the Titanic making it almost all the way across the Atlantic.
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[Citation Needed]
My theory is you are getting to be more of a panty-waste pussy as you get older.
Which is as good as yours without a citation.
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The article was published in 2006. How is this 'new?'
Well, I agree with your point. But six years is a good time to let scientific papers simmer. Less than that is not enough time for other scientists to evaluate the correctness and value of some paper.
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Many researchers were lost during the peer-review of this paper.
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For those that are interested... (Score:5, Interesting)
look up Schrodinger wave equations and apply them to ocean waves. You will get 30+ meter tall waves with a trough next to the "wall" of water, (the wave is tall and narrow - like a wall). This trough adds to the great difficulty in surviving one of these waves. Ships that are designed to withstand forces of 10 tons/m2 have to content with 10 times that force. I believe there was a study in which someone, (don't remember her name :( ) mapped the entire earth over a two week period and found something on the order of 20 of these waves. Fascinating stuff.
Re:For those that are interested... (Score:5, Informative)
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FYI the Schrodinger wave equation does not describe ocean waves. Water waves are described by the Navier-Stokes (N-S) equations. Turbulence models fall out of N-S, however only electrons sometimes fall out from Schrodinger :)
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There is a non-relativistic version of the Schrödinger equation. Some theories attempt to explain rogue waves in the open sea using these non-linear equations as a model, because the distribution of wave heights that would result from the linear model substantially underpredicts the occurrence and size of rogue waves.
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The nonlinear Schordinger equation is one of the many various equations that can be used to describe the behaviour of water waves in various regimes, with a tiny bit about it on Wikipedia here [wikipedia.org]. Although the NLS is mostly used for behaviour of the envelope of deep water waves, which means you can show soliton based rouge wave like behaviour, but not say much about trough to peak steepening as in the grandparent post.
The set of equations and theories used to model nonlinear water waves is quite diverse, wit
Dead men tell no tales (Score:3)
For those looking for more details about this voyage http://eprints.soton.ac.uk/294/ [soton.ac.uk]
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A 359MB PDF file? I think that's a record in itself.
I thought bigger waves had been found... (Score:1)
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Since extreme waves were not the subject of their expedition, they had not read all the prior literature.
Re:I thought bigger waves had been found... (Score:5, Interesting)
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it's pure hell.
There are worse things.
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Waves are never boring, especially big ones. The key is to cut through them - if you let them hit the side, you risk capsizing. The only way to do this is engine power (run
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Does this mean that the "the Perfect Storm" depiction of how the Andea Gail sunk was technically inaccurate? In that film, the ship went with its bow straight into the freak wave but could not reach the top and fell over.
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Weird (Score:3)
Rogue waves: Demonstrating yet again that reality is a fascinatingly weird place.
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Rogue waves: Demonstrating yet again that reality is a fascinatingly weird place.
And we don't understand our planet as much as we think. We are always focused on exploring strange new worlds, to seek out new life and new civilizations, to boldly... um, you get the idea, but look, there's new things happening on our own planet. How can we understand new planets when we don't understand the one we are on? Not saying never explore space, just saying maybe we should focus on what we have.
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How can we understand new planets when we don't understand the one we are on?
How can we understand this planet when we have nothing to compare it to?
Rethorical questions only caters to peoples emotional response but they don't make much of an argument.
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Reminds me of the TV show seaQuest... for almost a whole season, they had interesting episodes based around real weirdness in the oceans.
What fascinates me even more is the emergent behavior observable in simple systems, such as growing crystals, diffusing liquids, convection currents... all of those delightfully complex results from simple principles. There's beauty in the result, and simplicity in the process.
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Big waves (Score:4, Interesting)
Re:Big waves (Score:5, Informative)
Remodel (Score:2)
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Just sailor's stories and nothing more.
All fanciful tales at best, lies at worst.
Sorry, but the Kraken got the guy with the camera.
Re:Rogue waves. (Score:4, Funny)
Re:Mondatory: Vids or, ..... (Score:5, Funny)
....... it didn't happen!! :D
Yeah, the authors were probably diluted.
The interesting thing (Score:2)
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Most myths have an element of truth in them.
This is a myth.
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Unfortunately for you, there is a bit of truth in what you said. :-D
The wave was observed in 2000. (Score:2)
The paper is from 2006, and describes a wave observed in 2000.
Satellite-based radar altimeters produce a lot of data about wave height world wide, but they don't, apparently, have quite enough resolution yet to see this kind of thing. A view of such waves from above, over a few minutes, would tell us a lot. Is it an intersection of two or more waves? How far does it travel? How long does it persist?
The U.S. Navy has put considerable effort into answering questions like that.
bad statistics (Score:4, Interesting)
What has fascinated me about freak/rogue waves is that sailors have known about them for decades if not centuries, but scientists were telling them it can't be.
And the reason is badly understood statistics. I've recently read Black Swan, and that gave me a few new concepts to work with, but the basic idea is exactly that: We don't really have a good understanding of statistics and probabilities, especially about extremely low probabilities in big numbers.
Or, as Tim Minchin put it: One-in-a-million things happen all the time.
And it's not just in the oceans. The entire financial crisis was caused by the people in charge taking huge (but low probability) risks, ignoring that once enough people have taken enough of those "low probability" risk, they become very likely to actually happen.
Freak waves are cool because they are in the gray area between the normal distribution and the really freaky - thus they happen often enough that they are rare, but not bigfoot-rare. We can actually study them.
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There's an interesting article about that, here: http://www.bbc.co.uk/science/horizon/2002/freakwave.shtml [bbc.co.uk]
Apparently, there are two scientific models, linear, which says freak waves are impossible and Quantum physics which says they are possible.
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The problem is that a gaussian approach to the numbers assumes that random fluctuations will even out. But the equations used in quantum physics allow for waves to combine, and that's what is happening - interference, just not between 2 waves as in the double-slit experiment, but between dozens or maybe hundreds of waves.
This article here: http://dev.physicslab.org/Document.aspx?doctype=3&filename=PhysicalOptics_InterferenceDiffraction.xml [physicslab.org] shows towards the bottom how massive peaks you can get with mult
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Linear wave theory allows for interference and combining of waves (that is kind of actually one of the major properties of linear theories in a lot of situations). The statistics on linear theory waves (which ends up being a Rayleigh distribution, not a Gaussian) is what says that waves much larger than those around it are very unlikely. What nonlinear theories add is not just overlapping like interference, but soliton like solutions, where a single wave or small wave train much larger than neighboring wa
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Thanks, AC. In 12+ years of /. this was one of the most informative AC comments I've come across.
Call that a big wave (Score:1)
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I've never understood that particular idiocy. Texans know they don't live in the biggest US state, right? Texas is less than half the size of Alaska.
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Halsey's "second" typhoon, June 1945 (Score:5, Interesting)
My uncle retired as a US Navy Captain. For many years he had two photographs displayed in his house, which he ascribed to Admiral "Bull" Halsey's "second" typhoon [navy.mil], in June 1945. At that time my uncle was an ensign, assigned to a destroyer, and on his first sea voyage.
The two photographs were of a sister destroyer. In the first photograph, all one sees is a giant wave, with the bow of the destroyer sticking out of one side, and the stern sticking out of the other. The middle of the ship, including the masts and superstructure, is submerged and not visible.
In the second photo, taken a few seconds later, the middle of the ship is now visible, but both the bow and stern are now submerged in the wave train. And as a kid, the part that fascinated me the most: You could see an air gap below the middle of the ship, between the ship's keel and the wave trough below.
Re:Halsey's "second" typhoon, June 1945 (Score:5, Interesting)
Read the Book: Rogue Waves & Surfers (Score:2)
The book is "The Wave":
http://www.nytimes.com/2010/09/19/books/review/Morris-t.html?pagewanted=all [nytimes.com]
Feedback Compensation Platforms (Score:2)
I'm surprised I can't get for my boat (or raft) a platform with accelerometers that operates a hydraulic piston to compensate for wave action. It might need some lateral actuator too, as wave motion is circular. But it might not, if the light floats slide along the surface as the piston pushes down on them keeping the heavy inertial payload in place.
Just accelerometers, hydraulic pistons, and DSP. Big bonus points for a device that harvests that energy moving through the site to power the hydraulics.
Really
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What, exactly, do you think this is going to do for you in a 120 foot wave?
Sounds complicated. (Score:2)
Why not just hang your boat from a balloon?