Department of Physics, University of Western Australia in Crawley, Western Australia, Australia | College & University

Department of Physics, University of Western Australia

Locality: Crawley, Western Australia, Australia

Phone: +61 6488 3477

Address: UWA, Physics 6009 Crawley, WA, Australia

Website: http://www.physics.uwa.edu.au

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25.01.2022 The Muon g-2 experiment at Fermilab sees fundamental particles called muons behaving in a way not predicted by the Standard Model of particle physics. These res...ults confirm an earlier experiment performed at Brookhaven National Laboratory. The combined results from Fermilab and Brookhaven show a difference with theory at a significance of 4.2 sigma. The chance that the results are a statistical fluctuation is about 1 in 40,000. #gminus2 https://news.fnal.gov//first-results-from-fermilabs-muon-/

24.01.2022 From 2011: Melde's Experiment on the popular French programme ," Incroyables Expériences " on France 2. At 3 minutes into this French demonstration, the audience is asked what would one observe if the strobe is flashed at twice the frequency of the vibrating cord; 1. Two cords 2 A cord that rotates in reverse... 3 A cord that idles (turns very slowly) We should have a programme like this Down Under. http://www.youtube.com/watch?v=czSJwQPfmOY&feature=related See more

11.01.2022 Well done! https://www.abc.net.au//professor-cheryl-praeger-/13089958

04.01.2022 https://journals.aps.org//a/10.1103/PhysRevLett.124.241301

04.01.2022 In 1924 Albert Einstein predicted a new state of matter, the Bose-Einstein Condensate (BEC) on the basis of quantum formulations by the Indian physicist Satyend...ra Nath Bose. Ever since, physicists tried to achieve this new fundamental state of matter. Seventy years passed before it finally happened on 5 June 1995. Carl Wieman and Eric Cornell at the University of Colorado Boulder NIST-JILA lab proved the phenomenon when they produced the first gaseous condensate in a rarefied gas of rubidium atoms at an extremely low temperature. They received the Nobel Prize in 2001. Learn more: https://bit.ly/2II43RC Image: Cooling rubidium atoms to less than 170 billionths of a degree above absolute zero caused the individual atoms to condense into a "superatom" behaving as a single entity. The graphic shows three-dimensional successive snap shots in time in which the atoms condensed from less dense red, yellow and green areas into very dense blue to white areas.

04.01.2022 But maybe the standard model is still just fine...