A standout amongst the most maddening mysteries in modern physics is that dark energy and dark matter. As the name recommend they are obscure material and energy that perceptions propose exist in the universe more than typical matter, yet that we can't see. Scientists trust that these two together account for up to 95 percent of the aggregate mass in the cosmos.

Presently, a researcher at the University of Oxford says new  hypothesis may clarify all that “dark phenomena” — and it’s a totally a mind-bender.

The research, issued in the journal Astronomy and Astrophysics, recommends that dark matter and energy can both be comprehended if they’re gander at as a “negative mass fluid. “Essentially, this concealed fluid acts as the reverse way of all ordinary material: if you somehow happened to push it, it would move toward you rather than away.

Jamie Farnes, the Oxford astrophysicist who thought of this new hypothesis, structured a computer model to find how this dark fluid would influence the cosmos. He found that it could clear up why galaxies hold together as they rotate instead of flying separated — an enticing clue that his new model may solve existing astrophysical riddles.

In an article for The Conversation, Farnes recognizes that the negative mass hypothesis could be incorrect — yet in addition indicates trust that, if it's validated by future perceptions, it may convey new model for explaining the mysteries of the universe.

Farnes writes: “Despite these endeavors, a negative mass cosmology could not be right. The hypothesis appears to give answers to so many currently open questions that researchers will — properly — be fairly suspicious. But, it is regularly the out-of-the-box thoughts that give answers to longstanding problems. The strong collecting proof has now grown to the point that we should consider this unusual possibility.”

No comments

Powered by Blogger.