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Another form is known as aromatic while the rest of the carbon between the stars is in its pure form.
The researchers found that there were about 100 greasy carbon atoms for every one million atoms of hydrogen, accounting for between one-quarter and one-half of the available carbon.
The study, conducted by the University of New South Wales in Australia and the Ege University in Turkey sought to better estimate the amount of organic matter in the world. Space, giving scientists a better overview of how life is formed
. Substances that contain carbon and are essential to life exist in interstellar space, which has never been clear.
You may be wondering why we can even see distant stars if there is too much waste in the space. Simple enough allied news: Spatial dust is really just a fine haze of particles, some of which is this greasy carbon fat, but it is so thin that it does not dramatically affect our ability to see light distant objects. This bond can occur in two types: aliphatic carbon or a gaseous version of naphthalene.
Although Schmidt stated that the study of space fats was "an important achievement," he is eager to tackle the next problem. It is made in the stars, crosses the interstellar medium and incorporates into the new planetary systems and ends up being incorporated into life.
Scientists have discovered the existence of space fat and its amount in the Milky Way. The galaxy Milky Way alone holds some 10 billion billions of billions of tons of cosmic butter. One part is reminiscent of naphthalene, which is also called aromatic carbon and the others are aliphatic, more like a thick fat.
A global team of scientists recreated the material with the same properties as interstellar dust in our galaxy. . The results of this experiment and the astronomical observations allowed scientists to calculate the amount of matter accumulated in the interstellar spaces.
Professor Schmidt said the fat was similar to the organic matter found by the Curiosity rover on Mars earlier this month. As a result, the researchers concluded that about 25-50% of all the coals in the Universe are greasy coals.
The team also used spectroscopy to determine the extent to which greasy dust absorbed specific wavelengths of infrared light. molecules are leaked into space by flaming stars.
million. Schmidt added: "By firmly fixing the amount of each type of carbon in the dust, they will know exactly how much of this element is available to create life." ]
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