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It’s a question that has puzzled scientists for hundreds of years – how exactly did our moon form?
Since the 1970s, astronomers have suspected that the moon was created when a giant protoplanet called Theia struck Earth.
However, the nature of this collision and what happened immediately after has been subject to debate.
Some scientists believe that the collision created a vast cloud of debris, which coalesced into the moon over time.
However, in a new study, researchers from the University of Durham claim that the giant impact immediately placed the moon into orbit around Earth.
Vincent Eke, co-author of the study, said: ‘This formation route could help explain the similarity in isotopic composition between the lunar rocks returned by the Apollo astronauts and Earth’s mantle.
‘There may also be observable consequences for the thickness of the lunar crust, which would allow us to pin down further the type of collision that took place.’
In a new study, researchers from the University of Durham claim that the giant impact immediately placed the moon into orbit around Earth (artist’s impression pictured)
About 4.45 billion years ago, 150 million years after the solar system formed, Earth was hit by a Mars-sized object called Theia.
The collision created the moon, but debate has raged about exactly what happened during this event – and the question of why the moon and Earth are so similar in their composition has remained a mystery.
In the study, the researchers set out to explain the Moon’s origin story once and for all.
The team used the SWIFT open-source simulation code, run on the DiRAC Memory Intensive service (‘COSMA’), to create the most detailed supercomputer simulations yet.
This allowed them to simulate hundreds of different impacts, varying the angle and speed of the collision as well as the masses and spins of the two colliding bodies.
While previous studies have used lower-resolution simulations, the extra computational power revealed important new aspects.
For example, only the high-resolution simulations produced the Moon-like satellite, and the extra detail showed how its outer layers were richer in material originating from Earth.
If much of the Moon formed immediately following the giant impact, this could mean that less material became molten during formation than previously thought, according to the researchers.
Depending on how this molten rock solidified, these theories should predict different internal structures for the Moon.
The researchers suggest that the moon formed following a giant impact between Earth and a Mars-sized planet
The computer simulations indicate that the collision formed the moon almost immediately, and went straight into orbit around Earth
Jacob Kegerreis, who led the study, said: ‘This opens up a whole new range of possible starting places for the Moon’s evolution’
The simulations also revealed that even when a satellite passes so close to the Earth that it might be expected to be torn apart by tidal forces from Earth’s gravity, the satellite can not only survive, but also be pushed into a wider, safer orbit.
Jacob Kegerreis, who led the study, said: ‘This opens up a whole new range of possible starting places for the Moon’s evolution.
‘We went into this project not knowing exactly what the outcomes of these very high-resolution simulations would be.
‘So, on top of the big eye-opener that standard resolutions can give you wrong answers, it was extra exciting that the new results could include a tantalisingly Moon-like satellite in orbit.’
The researchers hope the findings will encourage further research into the Moon’s composition and internal structure.
‘The many upcoming lunar missions should reveal new clues about what kind of giant impact led to the Moon, which in turn will tell us about the history of Earth itself,’ the team concluded.