Some 66 million years ago, a 6-mile-wide asteroid crashed into Earth near what today is Mexico’s Yucatan Peninsula, wiping out much of the planet’s life.
The impact left a crater 110 miles wide and 12 miles deep and generated a large catastrophic tsunami that defies reality.
Scientists estimate the waves reached an unfathomable 2.5 miles high as they crashed into the land masses of the day — particularly what would have roughly been considered the Gulf Coast. The catastrophe is taken into account 30,000 times larger than another recorded event.
NOAA scientists have now created a simulation of the tsunami because it reverberated across the planet, superimposed on each what the planet looked like 66 million years ago (the black land masses) and a white outline of what Earth looks like today — remember continents drift at about an inch a yr.
The worst of the waves were concentrated near the impact zone across the prehistoric Gulf of Mexico and the Mexican peninsula, but massive waves would have reached nearly all ocean shorelines.
The asteroid is widely accepted to have worn out nearly all non-flying dinosaurs and 75% of other plant and animal species.Getty Images/iStockphoto
Scientists estimate the waves reached an unfathomable 2.5 miles high.Getty Images
The asteroid is widely accepted to have worn out nearly all non-flying dinosaurs and 75% of other plant and animal species on Earth, NOAA said.
The worst of the waves were concentrated near the impact zone across the prehistoric Gulf of Mexico.NOAA
Stopping history from repeating itself
Such large asteroid strikes occur tens of millions of years apart, on average. But to stop the human race from meeting an identical fate someday, NASA is researching ways to deflect or destroy any large asteroid that threatens Earth.
Just last yr, NASA’s Double Asteroid Redirect Test (DART) spacecraft successfully modified the orbit of an asteroid by slamming an appliance-sized spacecraft into it.
The brand new tsunami simulation was created as a part of NOAA’s Science on a Sphere project, which uses computers and video projectors to display planetary data onto a 6-foot diameter sphere, much like a large animated globe. The SOS is featured in 177 exhibits at science centers and museums across the US and the globe.