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Science

Scientists propose new theory about how Earth got its moon

How did Earth get its moon? According to a new theory, it involved a huge, violent impact billions of years ago that vapourized a sizeable chunk of our planet.

'Were still discovering surprisingly basic things about the earliest history of our world,' researcher says

The origin of the moon, Earth's only permanent natural satellite, has long puzzled researchers. Now, scientists have proposed a new theory about where it came from. (Submitted by Micheal Watson )

The moon is incredibly important to the Earth. Itprovidesthe basis for many calendars and affectsthe oceans' tides.But how did it get there?

It's an answer we thought we knew, more or less. But now a group of scientists have used complex modelling to propose a new theory and it involves a violent collision that vapourized much of our planet.

"Despite smart people working on this problem for 50years, we're still discovering surprisingly basic things about the earliest history of our world," lead researcher MatijaCuksaid in anews release.

The findings, published this weekin the journal Nature, were co-authored by scientists at the University of California, Davis; Harvard University;theUniversity of Maryland and the SETI Institute an organization perhaps better known for its efforts to find alien life where Cuk is a researcher.

"It'squite humbling," he said.

Old theory: boom

For decades, one of the leading explanations about the moon's origin has been the"impact theory."

The story goes that billions of years ago, Earth and a Mars-sized protoplanet called Theia collided.

The debris formed a ring around the Earth's equator and was eventually drawn together by gravity to form the moon.

The moon would have formed very close to Earth, eventually drifting farther away.

This artist's rendering shows the giant impact theory at play as protoplanet Theia collides with Earth, sending debris flying. (Mark Garlick/Getty Images)

It sounds nice and tidy, but there are some facts that throw a monkey wrench into this theory chiefly, the moon's chemistry and weird angle.

"This idea came around before computers could really do detailed simulations of planet formation,"senior author Sarah Stewart, professor of earth and planetary sciences at the University of California, Davis, told CBC News.

Computer simulations now show that the impact would have created the moon mostly out of Theia's debris, but scientistshave since learned that the Earth and moon have strikingly similar chemical makeups.

"So that really put a brake on the giant impacthypotheses," Stewart said.

What's more, had the moon formed from debris around the equator,we would expectit to orbit along the equator today. In fact,its orbit is tilted five degrees.

"This large tilt is very unusual. Until now, there hasn't been a good explanation," astronomer and co-author Douglas Hamilton, of the University of Maryland, said in a statement.

"But we can understand it if the Earth had a more dramatic early history than we previously suspected."

New theory:much bigger boom

Dramatic, indeed.

Under the new, tweakedtheory,the collision would have occurred at a much sharper angle and been much more intense.

"It takes a lot of energy tochange an orbit," Stewart said.

The new model proposes ahigh-energy impact that would have been so violent that it vapourizednot onlyTheia, but much of the Earth as well.

Vapour and molten material would have formed a massive cloud, 500 times the size of today's Earth. Some of that material would have cooled and fallen back to Earth, while the rest would have formed the moon.

The latest theory out of SETI, the University of California, Davis, and the University of Maryland explains why the moon orbits the Earth at such an odd angle. (Andrzej Wojcicki/Getty Images)

What's more, the bigger collision would have been so powerful, and at such an angle, that it knocked Earth's rotational axisoff by between 60 and 80 degrees and caused the planet to spin so rapidly that days only lasted two hours.

Slowly, the moon moved away from the Earth, which slowed down and turned somewhat upright again, the new model proposes.

"Over billions of years, the moon's [orbital] tilt slowly decayed down to the five degrees we see today," Cuk said. "So today's five-degree tilt is a relic and a signature of a much steeper tilt in the past."

Still, there are questions left unanswered.

The next stepis to better understand the chemical makeup of the moon exactly why and howTheia's and Earth's debris combined.

"We have work in progresson that part, but until that comesout, Idon't think people will buy in completely," Stewart said.

The benefit of the newmodel, she said, is that it accounts for the moon's current orbit without relying on some as-of-yetunknown intervening steps.

"You don't have to have something else come by and doing anything to the Earth. It really is just a giant impact, and then stand back and watch."