Posted on Apr 13, 2021
APOD: 2021 April 13 - Confirmed Muon Wobble Remains Unexplained
647
40
6
22
22
0
Good morning, Rallypoint. Today's Astronomy Picture of the Day (APOD) is titled "Confirmed Muon Wobble Remains Unexplained." A muon is an elementary (it doesn't have a sub-structure) member of the Standard Model of Particle Physics. It is similar to an electron, but has greater mass. The 'g-2' (gee minus two) value of an elementary particle measures the effects of the strong, weak, and electromagnetic force on the 'spin' (think a toy top) of that particle. The g-2 value for a muon had been one of the most precisely measured quantities in particle physics. Key words: had been.
Due to their nature, muons interact with all other elementary particles in the Standard Model. These interactions tweak the g-2 value up or down (the 'wobble'). However, when theorists calculate g-2 using the known forces and particles particles in the Standard Model, their answer does not match the results produced experimentally and reported last week. This suggests that a muon is responding to some other presence that isn't accounted for in the Standard Model. Four additional rounds of testing are planned, and researchers hope this will help pin down how muons behave and point the way to any new elementary particles that may be on the horizon.
Pretty cool stuff (I think). In other words, true science is never settled. The journey continues.
Due to their nature, muons interact with all other elementary particles in the Standard Model. These interactions tweak the g-2 value up or down (the 'wobble'). However, when theorists calculate g-2 using the known forces and particles particles in the Standard Model, their answer does not match the results produced experimentally and reported last week. This suggests that a muon is responding to some other presence that isn't accounted for in the Standard Model. Four additional rounds of testing are planned, and researchers hope this will help pin down how muons behave and point the way to any new elementary particles that may be on the horizon.
Pretty cool stuff (I think). In other words, true science is never settled. The journey continues.
APOD: 2021 April 13 - Confirmed Muon Wobble Remains Unexplained
Posted from apod.nasa.gov
NASA
Space
Science
Photography
Astronomy
Edited 3 y ago
Posted 3 y ago
Responses: 5
5
5
0
4
4
0
Chicago - Does Anybody Really Know What Time It Is? - 7/21/1970 - Tanglewood (Official)
Chicago - Does Anybody Really Know What Time It Is?Recorded Live: 7/21/1970 - Tanglewood - Lenox, MAMore Chicago at Music Vault: http://www.musicvault.comSub...
Thank you my friend Maj William W. 'Bill' Price for posting the NASA Astronomy Picture of the Day (APOD) for Tuesday, April 13, 2021 entitled "Confirmed Muon Wobble Remains Unexplained."
Weebles wobble but they don't fall down, came to mind. :-)
I am posting the music video of Chicago - Does Anybody Really Know What Time It Is? because time is relative and not exact [universally] Time is a measure of change after all.
The Heisenberg Principle of uncertainly, Einstein's relativity and particle and ray characteristics of light come readily to mind.
1. The idea of a wobble is a spatial paradigm with a reference frame and a observatory frame [keeping it simple] While the particle may appear to be wobbling or vibrating at non-standard frequency, the perspective of the particle other aspects of existence are wobbling while others are synchronized with its wobble.
2. Since all of existence, apart for God, is moving at tremendous speed [think planetary orbit, for instance]. Within material including humans, plants and animals, the sub atomic movement of molecules. free radicals. etc. within are in constant motion.
3. As in all physical science experiments and calculations, there is a null hypothesis which needs to be verified or disproven [actually many apply]. Scientific understanding is expanded periodically, challenged, periodically and revised when capabilities are devised to expand knowledge.
Image: Confirmed Muon Wobble Remains Unexplained - Image Credit - Fermi National Accelerator Laboratory; Photographer - Reidar Hahn
APOD background
"Explanation: How fast do elementary particles wobble? A surprising answer to this seemingly inconsequential question came out of Brookhaven National Laboratory in New York, USA in 2001, and indicated that the Standard Model of Particle Physics, adopted widely in physics, is incomplete. Specifically, the muon, a particle with similarities to a heavy electron, has had its relatively large wobble under scrutiny in a series of experiments known as g-2 (gee-minus-two). The Brookhaven result galvanized other experimental groups around the world to confirm it, and pressured theorists to better understand it. Reporting in last week, the most sensitive muon wobble experiment yet, conducted at Fermi National Accelerator Laboratory (Fermilab) in Illinois and pictured here, agreed with the Brookhaven result. The unexpected wobble rate may indicate that an ever-present sea of virtual particles includes types not currently known. Alternatively, it may indicate that flaws exist in difficult theoretical prediction calculations. Future runs at Fermilab's g-2 experiment will further increase precision and, possibly, the statistical difference between the universe we measure and the universe we understand."
Chicago - Does Anybody Really Know What Time It Is? - 7/21/1970 - Tanglewood (Official)
https://www.youtube.com/watch?v=jgF_ycCmF18
FYI COL Mikel J. Burroughs SMSgt Lawrence McCarter Lt Col John (Jack) Christensen LTC (Join to see) SCPO Morris Ramsey MAJ Dale E. Wilson, Ph.D. Maj Bill Smith, Ph.D. Sgt Albert Castro PO1 William "Chip" Nagel SSG Samuel Kermon SSG Franklin Briant SP5 Geoffrey Vannerson SMSgt David A Asbury A1C Riley SandersSPC Michael Oles SR TSgt David L. Maj Marty Hogan SMSgt Tom Burns SGT Herbert Bollum
Weebles wobble but they don't fall down, came to mind. :-)
I am posting the music video of Chicago - Does Anybody Really Know What Time It Is? because time is relative and not exact [universally] Time is a measure of change after all.
The Heisenberg Principle of uncertainly, Einstein's relativity and particle and ray characteristics of light come readily to mind.
1. The idea of a wobble is a spatial paradigm with a reference frame and a observatory frame [keeping it simple] While the particle may appear to be wobbling or vibrating at non-standard frequency, the perspective of the particle other aspects of existence are wobbling while others are synchronized with its wobble.
2. Since all of existence, apart for God, is moving at tremendous speed [think planetary orbit, for instance]. Within material including humans, plants and animals, the sub atomic movement of molecules. free radicals. etc. within are in constant motion.
3. As in all physical science experiments and calculations, there is a null hypothesis which needs to be verified or disproven [actually many apply]. Scientific understanding is expanded periodically, challenged, periodically and revised when capabilities are devised to expand knowledge.
Image: Confirmed Muon Wobble Remains Unexplained - Image Credit - Fermi National Accelerator Laboratory; Photographer - Reidar Hahn
APOD background
"Explanation: How fast do elementary particles wobble? A surprising answer to this seemingly inconsequential question came out of Brookhaven National Laboratory in New York, USA in 2001, and indicated that the Standard Model of Particle Physics, adopted widely in physics, is incomplete. Specifically, the muon, a particle with similarities to a heavy electron, has had its relatively large wobble under scrutiny in a series of experiments known as g-2 (gee-minus-two). The Brookhaven result galvanized other experimental groups around the world to confirm it, and pressured theorists to better understand it. Reporting in last week, the most sensitive muon wobble experiment yet, conducted at Fermi National Accelerator Laboratory (Fermilab) in Illinois and pictured here, agreed with the Brookhaven result. The unexpected wobble rate may indicate that an ever-present sea of virtual particles includes types not currently known. Alternatively, it may indicate that flaws exist in difficult theoretical prediction calculations. Future runs at Fermilab's g-2 experiment will further increase precision and, possibly, the statistical difference between the universe we measure and the universe we understand."
Chicago - Does Anybody Really Know What Time It Is? - 7/21/1970 - Tanglewood (Official)
https://www.youtube.com/watch?v=jgF_ycCmF18
FYI COL Mikel J. Burroughs SMSgt Lawrence McCarter Lt Col John (Jack) Christensen LTC (Join to see) SCPO Morris Ramsey MAJ Dale E. Wilson, Ph.D. Maj Bill Smith, Ph.D. Sgt Albert Castro PO1 William "Chip" Nagel SSG Samuel Kermon SSG Franklin Briant SP5 Geoffrey Vannerson SMSgt David A Asbury A1C Riley SandersSPC Michael Oles SR TSgt David L. Maj Marty Hogan SMSgt Tom Burns SGT Herbert Bollum
(4)
(0)
LTC Stephen F.
Booker T. & The MG's - Time Is Tight (Live, 1970)
Booker T. & The MG's opened this Creedence Clearwater Revival concert at the Oakland Coliseum, 1/31/70. Seen offstage are John Fogerty, Doug Clifford (w/bea...
Booker T. & The MG's - Time Is Tight (Live, 1970)
https://www.youtube.com/watch?v=nbBcXvKvB08&list=RDnbBcXvKvB08&index=3
FYI CSM Bruce TregoSPC Woody Bullard CPL Douglas ChryslerCpl (Join to see) SFC William Farrell SPC Michael TerrellSSG Paul Headlee SPC Michael Duricko, Ph.D SSG Michael Noll SPC Randy Zimmerman Sgt Albert Castro Sgt Vance Bonds Cpl Vic Burk PO1 H Gene Lawrence Maj William W. 'Bill' Price SSgt Clare May SPC Diana D. Capt Christian D. Orr SP5 Gary Nelson SSG Bill McCoy
https://www.youtube.com/watch?v=nbBcXvKvB08&list=RDnbBcXvKvB08&index=3
FYI CSM Bruce TregoSPC Woody Bullard CPL Douglas ChryslerCpl (Join to see) SFC William Farrell SPC Michael TerrellSSG Paul Headlee SPC Michael Duricko, Ph.D SSG Michael Noll SPC Randy Zimmerman Sgt Albert Castro Sgt Vance Bonds Cpl Vic Burk PO1 H Gene Lawrence Maj William W. 'Bill' Price SSgt Clare May SPC Diana D. Capt Christian D. Orr SP5 Gary Nelson SSG Bill McCoy
(3)
(0)
3
3
0
Good morning, sir. Interesting to me because if the moon is the smallest particle discovered, and now scientists are seeing a 'wobble', does this suggest an even smaller particle that could be the catalyst? It sure does to me.
(3)
(0)
Read This Next
Continue with Facebook 
Continue with Google