The moon will drift far enough from Earth that it no longer fully obstructs the sun. But predicting when this will happen poses numerous challenges – Photo Richie Pope
Someday, Earth Will Have a Final Total Solar Eclipse
By Katherine Kornei
The total solar eclipse visible on Monday over parts of Mexico, the United States, and Canada was a perfect confluence of the sun and the moon in the sky. But it’s also the kind of event that comes with an expiration date: At some point in the distant future, Earth will experience its last total solar eclipse.
That’s because the moon is drifting away from Earth, so our nearest celestial neighbor will one day, millions or even billions of years in the future, appear too small in the sky to completely obscure the sun.
“We’ll only ever have annular eclipses,” said Noah Petro, a planetary scientist at NASA Goddard Space Flight Center, referring to “ring of fire” eclipses like the one that crossed the Americas in October .
But putting an exact date on Earth’s final total solar eclipse is a serious computational challenge involving a variety of scientific disciplines.
Ever since the moon formed over four billion years ago, it has been spiraling away from Earth. The moon’s retreat results from its gravitational interactions with our planet. Tides raised by that gravity send the water in our planet’s oceans sliding over the seafloor and along the edges of continents. That creates friction that causes Earth to spin more slowly on its axis, said Mattias Green, an ocean scientist at Bangor University in Wales.
The moon moves outward in its orbit in response to the slowing of the Earth. Imagine a figure skater extending her arms and slowing down, Dr Green said. “It’s the same physical principle but backwards.”
One of the first people to predict the expanding orbit of the moon was George Darwin, one of Charles Darwin’s sons. But his hypothesis, published in 1879 , would not be verified until American astronauts and Soviet robotic rovers left devices known as retroreflectors on the moon’s surface . Researchers could fire laser pulses at mirrors on those suitcase-size instruments and time how long it took the light to make a round trip. That gave scientists a way of precisely measuring the distance to the moon. By the early 1970s, researchers had discovered that the moon was receding from Earth by about 1.5 inches each year.
That’s about the rate at which human fingernails grow. “We’re dealing with extremely small changes,” said Robert Tyler, a planetary scientist at NASA Goddard Space Flight Center.
But over hundreds of millions of years, the moon will become perceptibly smaller in the sky as it grows more distant. At some point, it will appear too small to completely blot out the sun, and total solar eclipses will become a thing of the past.
To calculate the date of the last total solar eclipse, it is important to remember that both the moon’s orbit around the Earth and the Earth’s orbit around the sun are elliptical. That means that the distances between Earth and the moon and between Earth and the Sun are not constant. The apparent sizes of the moon and the sun as seen from Earth vary accordingly; the largest- and smallest-looking moons differ in size by about 14 percent, while the corresponding difference for the sun is about 3 percent.
The last total solar eclipse will occur when the largest-looking moon just barely covers the smallest-looking sun. A bit of math involving the diameter of the moon and the apparent sizes of the moon and the sun yields an estimate for that eventuality of approximately 620 million years.
But there is uncertainty in that number, researchers caution. It assumes, for starters, that the moon will recede from Earth at its current rate. And that almost certainly won’t happen, Dr Green said.
The moon’s recession rate is affected by a slew of parameters, he said, including the length of a day on Earth, the depth of the ocean basins and the arrangement of our continents. Those things change over time, Dr. Green said, so it is too simplistic to presume that the moon will always retreat at the same pace.
Most researchers agree that the moon’s recession rate will probably decrease. “If I had to guess, the tides of the future will probably get weaker,” said Brian Arbic, a physical oceanographer at the University of Michigan. Weaker tides translate into slower lunar retreat, which would buy our planet more opportunities to bask in the moon’s umbral shadow.
There’s good evidence that the moon retreated more slowly in the past as well. Margriet Lantink, a geologist at the University of Wisconsin-Madison, has analyzed sedimentary rocks in Australia that record climatic changes caused by fluctuations in the Earth-moon distance. “I read the fingerprints of those astronomical variations,” Dr Lantink said.
Her team’s findings , and those of other researchers, have been used in simulations that suggest the moon receded by about 0.4 to 1.2 inches per year for much of its history. Those simulations also reveal that during some periods lasting a few tens of millions of years, the moon hurtled away from Earth at more than four inches per year.
Dr Tyler’s models take on the daunting task of forecasting the future lunar recession rate. They suggest that the moon will drift away at around 0.3 inches per year on average for the next several billion years. And the moon’s retreat in the future won’t be nearly as variable as it was in the ancient past, he said. “Most of the interesting stuff happened already.”
If Dr Tyler’s simulations are correct, total eclipses will remain visible for about three billion years. He cautioned that there is significant uncertainty in that estimate.
And though we likely have eons left to experience total eclipses, that’s no excuse for not seeking out their splendor, Dr Petro said. After all, they’re a celestial phenomenon that’s unique to our Earthly existence.
“No other planet in our solar system has total solar eclipses,” Dr Petro said. “We have this wonderful opportunity.” – The New York Times