What Makes a Wave Go Rogue?
Many a tall tale hasِ beenِ inspired byِ the world’s oceans, fromِ stories ofِ mysterious sea monsters toِ legends aboutِ ghost ships likeِ the Flying Dutchman.
While allِ are capable ofِ inducing “ocean aversion” inِ evenِ the mostِ intrepid terrestrial explorer, noِ maritime legend strikes fear intoِ the seafarer quiteِ likeِ that ofِ the rogue wave, perhapsِ becauseِ this fabled wall ofِ water isِ no longer limited toِ folklore.
It hasِ becomeِ anِ accepted scientific phenomenon.
Also knownِ asِ freak waves, killer waves, monster waves, or, moreِ technically, extreme storm waves, theseِ surging swells areِ defined byِ their unusual height—sometimes reaching asِ high asِ 30 meters (nearly 100 feet)—and byِ their unpredictable nature, typically emerging fromِ a direction unforeseen based onِ prevailing wind andِ wave direction.
In technical terms, anِ extreme storm wave hasِ a height thatِ isِ atِ least 2.2 times theِ significant wave height (the average ofِ the highest thirdِ ofِ waves, measured fromِ trough toِ crest).
Several mechanisms areِ known toِ causeِ rogue waves, including constructive interference, inِ which small fast waves catch upِ with slow waves, resulting inِ the momentary coalescing ofِ oscillations intoِ anِ unusually large wave.
Rogue waves haveِ long beenِ reported byِ sailors, butِ just howِ frequently theseِ extreme events occur remains a mystery.
Analysis ofِ satellite imagery hasِ suggested thatِ they occur moreِ often thanِ expected, lending support toِ historical accounts ofِ ships beingِ struck andِ sunk byِ enormous waves.
Rogue waves haveِ beenِ implicated inِ the disappearance ofِ numerous ships, including theِ SS Waratah (Australia’s Titanic), whichِ vanished en route toِ Cape Town inِ 1909, andِ the SS Edmund Fitzgerald, whichِ sank inِ Lake Superior inِ 1975.