@100ItsLevel @NonsenseFlat WHY is gravity not a thing? Give an argument not a claim. What exactly is the flaw with all the research confirming gravity? https://t.co/NYAvLuL2gF https://t.co/IkcahsZnGa https://t.co/HWdIsCgvt7 https://t.co/pw2MFLgWot On what
@GoseboBig454 @NCRay19 @bretfeborwaqt @2021Marcel It's just the easiest one to show and you can fo it at home but there are others like Cold atoms https://t.co/pw2MFLgWot Atom interferometry https://t.co/HWdIsCgvt7 Time of swing method https://t.co/NYAvLuL
@EKUoptics The result didn't really show a CODATA discrepancy I think, just a comparably large uncertainty (https://t.co/QaavYovn2k & first plot). Definitely worth checking out the much improved 2014 result from Florence, too. (https://t.co/4fqIZRRkyP
@JTusa4 @JimReaper11 @sphereretical There's always gravity. Why wouldn't there be? Objects of mass are attracted towards each other. Cavendish's experiment proves it and it's been confirmed within an acceptable margin of error hundreds of times since. http
Precision measurement of the Newtonian gravitational constant using cold atoms. ⚛️🥶⚛️🍎 - Rosi G et al. NCBI https://t.co/WkDF39Giyg Nature 2014
2/2 لمن يحب ان يتوثق من هذا الرقم (300 تجربة لإستخراج ثابت الجاذبية) بإمكانه مراجعة احدى الأوراق البحثية مثل هذه https://t.co/MDaNN4DVg7 او مئات التجارب المصورة تاريخيا مثل هذه من الستينات https://t.co/Od7ggQ5ZTG
[ref] https://t.co/ViNJcJj4tP
@jimwells1963 @flatearthexpert @DrMathsPhysics @mode23 @craigwat11 @MickeyDee43 Measurement of Gravity: https://t.co/fwnK7t7Ttr which clearly demonstrated the mutual attraction of matter -- have you refuted that research anywhere?
@SheeplePredator @MarkSykes15 @UnCastellsMes @TakeThatGravity No lead balls here: https://t.co/qkJ3diWDNv
@Fliipp_ and using cold atoms: https://t.co/NhLkyfUFPl @EyeonicDJ
Precision Measurement of the Newtonian Gravitational Constant Using Cold Atoms. (arXiv:141... http://t.co/DR9PimpuzS #physics #cosmology
なんかすごそうだ/Precision Measurement of the Newtonian Gravitational Constant Using Cold Atoms http://t.co/TgJVBS4YuE
Precision Measurement of the Newtonian Gravitational Constant Using Cold Atoms. http://t.co/ojtrOG7s7U
Precision Measurement of the Newtonian Gravitational Constant Using Cold Atoms. (arXiv:1412.7954v1 [physics.atom... http://t.co/ahAVxu82ls
Nature ハイライト:ビッグGへの新しい道 http://t.co/OmhsK3ulV0 #物理学 #ニュートン #万有引力
Nature ハイライト:ビッグGへの新しい道 http://t.co/OmhsK3ulV0 #物理学 #ニュートン #万有引力
ニュートンの重力定数Gは、万有引力定数「ビッグG」とも呼、2つの物体間の重力を計算する際に使われる基礎物理定数。以前の測定とは根本的に異なる” レーザー冷却原子による量子干渉法”を使ってGの高精度測定。悩ます測定系統誤差を明確化へ一歩http://t.co/EVmtVfCH4F
Nature ハイライト:ビッグ<i>G</i>への新しい道 | Nature Publishing Group: http://t.co/yi3ebjvVdk
物理学: ビッグGへの新しい道(Nature): ニュートンの重力定数Gは、万有引力定数、あるいは「ビッグG」とも呼ばれており、2つの物体間の重力を計算する際に使われる基礎物理定数である。高精度にGを測定する方法はいく... http://t.co/UlhwB2wnpb
Precision measurement of Newton’s gravitational constant, G, using laser-cooled atoms and quantum measurement http://t.co/wY1MXLFeCL
Precision measurement of Newton’s gravitational constant, G, using laser-cooled atoms http://t.co/oj9XnnyP1L” #honbiochem
Precision measurement of Newton’s gravitational constant, G, using laser-cooled atoms and quantum measurement http://t.co/wY1MXLFeCL
Precision measurement of Newton’s gravitational constant, G, using laser-cooled atoms and quantum measurement http://t.co/wY1MXLFeCL
Precision measurement of the Newtonian gravitational constant using cold atoms http://t.co/8ULHvwsjki
Precision measurement of Newton’s gravitational constant, G, using laser-cooled atoms and quantum measurement http://t.co/wY1MXLFeCL
Precision measurement of Newton’s gravitational constant, G, using laser-cooled atoms and quantum measurement http://t.co/wY1MXLFeCL
Precision measurement of Newton’s gravitational constant, G, using laser-cooled atoms and quantum measurement http://t.co/wY1MXLFeCL
Precision measurement of Newton’s gravitational constant, G, using laser-cooled atoms and quantum measurement http://t.co/wY1MXLFeCL
Precision measurement of Newton’s gravitational constant, G, using laser-cooled atoms and quantum measurement http://t.co/wY1MXLFeCL
Precision measurement of Newton’s gravitational constant, G, using laser-cooled atoms and quantum measurement http://t.co/wY1MXLFeCL
Precision measurement of Newton’s gravitational constant, G, using laser-cooled atoms and quantum measurement http://t.co/wY1MXLFeCL
New G value is quite different: Precision measurement of the Newtonian gravitational constant http://t.co/o9CwrLaIqk #nature
Measuring gravitational constant with quantum mechanics! Could be a good discussion on precision #scichat #physchat http://t.co/EcUAc63FjG
Precision measurement of the Newtonian gravitational constant http://t.co/eXCYNnn6GA
Precision Measurement of the Newtonian Gravitational Constant Using Cold Atoms http://t.co/THeh6T7SYt @NatureNews #BigG
Pela primeira vez a constante gravitacional G não foi medida a partir de uma variação do experimento de Cavendish. http://t.co/FolHPNlkfo
Medición precisa de la constante gravitacional (G) usando átomos fríos http://t.co/uaDCxtA9li
@nature : Precision measurement of the Newtonian gravitational constant using cold atoms: http://t.co/tLym40K4wy
Precision measurement of the Newtonian gravitational constant using cold atoms http://t.co/f4w5ItMckc
Precision measurement of the Newtonian gravitational constant. G = 6.67191(99) × 10−11 m^3 kg^−1 s^−2 http://t.co/N905yQUMNz
Precision measurement of the Newtonian gravitational constant using cold atoms http://t.co/7wKZtBQJxG
Precision measurement of the Newtonian gravitational constant using cold atoms http://t.co/UWDrskhEZ1 http://t.co/ShyQIKVR5o
Precision measurement of the Newtonian gravitational constant using cold atoms http://t.co/UWDrskhEZ1 http://t.co/ShyQIKVR5o
Precision measurement of the Newtonian gravitational constant using cold atoms http://t.co/UWDrskhEZ1 http://t.co/ShyQIKVR5o