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When you see a night sky through a telescope, you can see many things neat, including many bright stars that are far from us. But there is also something hiding between them We could end up with some kind of heavy fat if we decide to get out of our solar system. From a new study, he discovered that interstellar space is filled with tiny particles of dry dust and that the greasy goop can pose a threat to a future space mission.
You might even be able to see distant stars ourselves, there's so much dust in the space, but the answer is pretty simple: the dust in the space is actually just a fine haze of dust particles, some of which is oily, but it is not very fine this can affect our ability to see light from distant objects. Between celestial bodies, these particles of dust accumulate and this leads scientists to find a large amount.
In space, there is a lot of fat. Our Milky Galaxy alone has access to 10 billion billion tons of greasy dust. It is rather a kind of greasy soot, which is not edible.
This space fat is not the kind of thing one would like to spread on a slice of toast, "said chemist Tim Schmidt of the University of New South. Wales (UNSW) in Australia.
"It's dirty, probably toxic and only forms in the interstellar space environment (and our laboratory) .It's also intriguing that organic materials of this type – material embedded in planetary systems – be so abundant. "
UNSW and Ege University researchers in Turkey are trying to discover the existence of carbon in interstellar space.
As we know, carbon is an important ingredient in organic life – any known life on Earth is made of carbon – but we do not know how much carbon is in interstellar space.
The expected carbon in its pure form floats around.The rest of the carbon is one or two forms: aromatic like mothballs, the researchers said, and aliphatic, or fat-like.
To help understand the amount of carbon present in the interstellar space, a group of researchers from the laboratory created an analogue of the spatial dust to determine its composition. researchers recreate carbon starflows, which creates organic molecules by expanding the carbon-laden plasma into a low-temperature vacuum. After that, they collected and examined the resulting material
An aliphatic carbon produces a characteristic infrared spectral absorption characteristic when viewed in opposition to a background radiation source. With the help of magnetic resonance and spectroscopy, the team was able to determine how much their lab-created material matched the dusty fat that was found there
"Because we have it in our hands, we were able to use a variety of Schmidt told the ABC: "We can then tell you how much carbon there is in the line of sight of different stars, and this gives us an image of From the result, we find that there are nearly 100 dusty carbon atoms for every million atoms of hydrogen and that the fatty carbon atom represents about one quarter and one half of all available atoms.
But this still leaves a considerable amount of carbon in the form similar to mothballs.
Finding the amount of aromatic carbon in interstellar space is the next task that researchers want to figu
This is going to be a difficult task, but the results are worth it: determine how much carbon is in interstellar space, this will help to get accurate calculations for the proportion of carbon that remains more and accessible for the formation of life there.
Tags: fat loop, universe
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