Your support helps us to tell the story
This election is still a dead heat, according to most polls. In a fight with such wafer-thin margins, we need reporters on the ground talking to the people Trump and Harris are courting. Your support allows us to keep sending journalists to the story.
The Independent is trusted by 27 million Americans from across the entire political spectrum every month. Unlike many other quality news outlets, we choose not to lock you out of our reporting and analysis with paywalls. But quality journalism must still be paid for.
Help us keep bring these critical stories to light. Your support makes all the difference.
Scientists have found where most meteorites comes from.
Some 70 per cent of all meteorites originate within just three families, according to the study.
Those families came about after collisions in the asteroid belt: one 5.8 million years ago, one 7.5 million years ago, and another 40 million years ago. One of them, known as the Massalia family, is responsible for 37 per cent of asteroids on its own.
The three families giving rise to so many asteroids is a result of the fact that they are relatively young. Because they have not been around long, there is still many fragments left behind and floating around space, and their quick movement means that they can easily escape out of the asteroid belt – and maybe towards Earth.
Researchers were also able to identify the origin of yet more. Taken together, it means that researchers know where more than 90 per cent of meteorites originated.
And it also means that scientists have been able to trace the origins of the kilometre-sized asteroids that could threaten Earth and have been a particular focus for recent space missions.
With the rest of them unknown, however, scientists hope to conduct yet more research on those asteroids and focus on younger families that might account for the remaining 10 per cent.
The discoveries were made after scientists surveyed the major meteorite families in the belt, as well using computer simulations to understand how they may have collided and moved around.
The findings are reported in a host of new papers: one published last month in the journal Astronomy and Astrophysics, and two today in Nature.
This post was originally published on here