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Comment fonctionne notre forum => Accueil => Discussion démarrée par: MethrenRaf le Janvier 20, 2025, 11:54:09 am
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that seem to be hailing from billions of light years away. Recently, we received reports of a new wrinkle to this mystery: The bursts appear to follow a mathematical pattern, one that doesnt line up with anything we know about cosmic physics. And, of course, when we hear mathematical pattern, radio transmission, and outer space, all strung together, we immediately jump to our favorite explanation鈥攁liens! Or, you know, a decaying pulsar star, an unmapped spy satellite, or a cell phone tower. Its also possible that the pattern doesnt actually exist. Since 2007, telescopes have picked up nearly a dozen so-called fast radio bursts, pulses that last for mere stanley cup (https://www.mugs-stanley.us) milliseconds, but erupt with as much energy as the sun releases in a month. Where could they be coming from To find out, a group of researchers took advantage of a simple principle: That higher frequency radio waves encounter less interference as they traverse space, and are detected by our telescopes earlier than lower frequency waves. The time delay, or dispersion measure , between higher and lower frequency radio waves from the same pulse event can be used to determine the distance those waves traveled. Heres where things got weird. When researchers calculated the dispersion distance for each of eleven fast radio bursts, they found that each distance is an integer multiple of a single number: 187.5. When plotted on a graph, as the researchers show us in Figure stanley puodelis (https://www.stanley-cup.lt) 1 of th stanley kubek (https://www.cup-stanley.pl) eir paper, the points form a striking pattern Rbzl Microsoft Totally Knows That Surface Will Screw Over PC Makers
The area being studied was about 55 miles 90 km northeast of the city of Sendai 鈥?so it was fairly far out. When the tsunami rolled over this particular area of the Pacific, the waves reached a height of 36 feet 11 meters , and it disturbed the sandy and silty seafloor 30 to 50 feet 10 to 15 m below. Goto stanley deutschland (https://www.cups-stanley.com.de) discovered that the tsunami created dunes up to 65 feet 20 m long and 6 feet 1.8 m high. These dunes were not present on the seafloor before the 2011 tsunami. It the first direct evidence that tsunamis can rework sea bottom sediments 鈥?and even influence a marine ecosystem. The research team is not certain how many dunes the tsunami may have created. But in conversation with Our Amazing Planet, Goto said: The tsunami wave current was very strong and I would not be surprised if dunes were formed across the entire bay, plus slightly deeper areas, but some of them may have been erased since then by no stanley cups uk (https://www.stanleys-cups.uk) rmal post-tsunami wave activity. As a result of their findings, Goto is recommending that marine stanley cup (https://www.cups-stanley.fr) ecosystems be monitored following significant tsunamis. Read the entire study at Marine Geology. Goto has a related study in the same issue that can be accessed here. Supplementary source: Our Amazing Planet. Top image: NASA. Inset image via Tohoku University. GeologyScience