発見する 投稿Discover ページで魅力的なコンテンツと多様な視点を探索してください。新鮮なアイデアを発見し、有意義な会話をしましょう
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EUROPE RENAISSANCE AND FREE BOOK LOADS: our only salary is what you donate. Thank you. Donations information Michael Walsh euroman_uk@yahoo.co.uk
www.europerenaissance.com
We have just lived through the most extensive propaganda campaign in the history of the world and it was paid for with taxpayer dollars. You paid for it. I paid for it. We will probably never know how much money was spent because, according to a source familiar with the FOIAs, the Biden Administration won’t release the amounts under their “trade secrets” exemption.
I’ve been telling people for the last two years that, when the truth comes out about the deadly COVID vaccines, it will topple the American corporate media.
Now you know what I was talking about.
Chem-trails right over our home.
Been suffering from nausea lately & feeling like I'm not running on all cylinders... Wow, no wonder!
??SWITZERLAND, WHY?
THE Large Hadron Collider (LHC) at CERN near Geneva, Switzerland, will start running again after a three-year shutdown and delays due to the covid-19 pandemic. The particle collider – known for its role in the discovery of the Higgs boson, which gives mass to all other fundamental particles – will return in 2022 with upgrades that give it a power boost.
Work has been under way to conduct tests on the collider and calibrate new equipment. Now, it is gearing up for experiments that could give physicists the data needed to expand the standard model, our best description of how particles and forces interact.
Phil Allport at the University of Birmingham in the UK says the upgrades could allow new measurements that give us insight into the way the Higgs boson decays, leading to a better understanding of how it fits into the standard model.
“These measurements shed light on what’s happening at the highest energies that we can reach, which tells us about phenomena in the very early universe,” he says. They will also allow us to test ideas that try to account for things that aren’t fully described by the standard model, he says.
https://www.newscientist.com/a....rticle/mg25233661-50
??SWITZERLAND, WHY?
THE Large Hadron Collider (LHC) at CERN near Geneva, Switzerland, will start running again after a three-year shutdown and delays due to the covid-19 pandemic. The particle collider – known for its role in the discovery of the Higgs boson, which gives mass to all other fundamental particles – will return in 2022 with upgrades that give it a power boost.
Work has been under way to conduct tests on the collider and calibrate new equipment. Now, it is gearing up for experiments that could give physicists the data needed to expand the standard model, our best description of how particles and forces interact.
Phil Allport at the University of Birmingham in the UK says the upgrades could allow new measurements that give us insight into the way the Higgs boson decays, leading to a better understanding of how it fits into the standard model.
“These measurements shed light on what’s happening at the highest energies that we can reach, which tells us about phenomena in the very early universe,” he says. They will also allow us to test ideas that try to account for things that aren’t fully described by the standard model, he says.
https://www.newscientist.com/a....rticle/mg25233661-50
??SWITZERLAND, WHY?
THE Large Hadron Collider (LHC) at CERN near Geneva, Switzerland, will start running again after a three-year shutdown and delays due to the covid-19 pandemic. The particle collider – known for its role in the discovery of the Higgs boson, which gives mass to all other fundamental particles – will return in 2022 with upgrades that give it a power boost.
Work has been under way to conduct tests on the collider and calibrate new equipment. Now, it is gearing up for experiments that could give physicists the data needed to expand the standard model, our best description of how particles and forces interact.
Phil Allport at the University of Birmingham in the UK says the upgrades could allow new measurements that give us insight into the way the Higgs boson decays, leading to a better understanding of how it fits into the standard model.
“These measurements shed light on what’s happening at the highest energies that we can reach, which tells us about phenomena in the very early universe,” he says. They will also allow us to test ideas that try to account for things that aren’t fully described by the standard model, he says.
https://www.newscientist.com/a....rticle/mg25233661-50
