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Almost 10 million years ago, a meteorite crashed into Earth. Hidden inside were 23 microscopic grains which tell the story of how Mars evolved.

Using one of WA's most powerful supercomputers, astronomers have now uncovered the meteorite's life story.

A chemical clock

Around 5–10 million years ago, a meteorite containing crashed into Africa. When scientists discovered it in 2011, they named it . It was also nicknamed Black Beauty because of its color.

The meteorite contained . Scientists used the tiny crystals to corroborate how Mars is thought to have formed.

Zircon forms when , meaning astronomers can use it to work out how old planets are.

In the earliest days of a planet's creation, magma spews across the still-forming surface. All this magma caused zircon to deposit on the surface of Mars as it cooled.

Zircon contains radioisotopes. These are chemicals that break down into more stable forms and emit radiation.

Because these chemicals , researchers can use them like a clock. They use the ratio of the original chemical and the decayed chemical to calculate how long ago the zircon crystallized. In this way, it can shed light on the age of a planet.

Tracking black beauty

So how did scientists know Black Beauty came from Mars? ground up a small chunk of the meteorite and analyzed its chemical composition.

Around the same time, the missions were on Mars. And they were sending back information about the planet's rocky surface. The was most likely from Mars.

It took another 9 years to pinpoint where on Mars Black Beauty came from.

A team of researchers from WA and France studied images of Mars to find Black Beauty's home. They analyzed .

Kosta Servis is a senior data scientist for Pawsey Supercomputing Center. He helped analyze all the data to identify where Black Beauty originated from.

Kosta says researchers narrowed down the possible origin sites by studying the meteorite's minerals and size.

"[Calculating the] energy required to escape the gravity of Mars and hence the energy of the impact, we are able to constrain and, to some degree of certainty, eliminate the other candidate ejection sites."

The team settled on an unnamed 10km crater in the Terra Cimmeria-Sirenum province of Mars. This area lies in the planet's southern hemisphere. The team named it Karratha after the Australian town's iconic rock formations.

It's in the clouds

The most popular theory of planet formation is from the .

Molecular clouds are massive space clouds of dust and gas. And by massive, we mean they span lightyears from one side to the other. When a dense pocket of these clouds , .

The new star causes parts of the . This is the protoplanetary disk. Particles of dust and ice collide to form miniature planets, called planetesimals. Eventually, they build up to form fully fledged planets. There's even a video game where .

Astronomers predict this using the to observe nearby gas forming clouds. An example is the , which is still forming solar systems and stars.

Astronomers then use of accretion to model how the gas clouds behave.

This new understanding of Mars is much bigger than the Red Planet.

"By understanding how Mars was formed, we are able to understand how our Solar System evolved," says Kosta.

the Mars crust stabilized. Oceans of magma cooled and crystallized. And trillions of tons of rock settled to become the planet we know today.

With perhaps there is more awaiting discovery.

This article first appeared on , a science news website based at Scitech, Perth, Australia. Read the .