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Everything posted by Vmedvil
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Which can all be explained away by gravitons shifting between membranes from other universes to ours and vice versa in that link, which the CMB cold spot is not evidence but suggest that we may have touched another universe membrane and exchanged heat with a universe was near thermal death or closer than ours so we lost it, heat that is. CMB Cold spot
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Von neumann hierarchy. Which can be deined by ∑ω = 0 N=ω ∑ω = 0N=ω and you want me to prove that -∞ = -ω0 which is the smallest cardinal number....... ya Mordred is there anyone that doubts that, which are both -∅ What is the difference between negative infinity and total non existence, they are no different.
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What you want me to prove that 1/0 is not 0, but undefined which aleph null or not zero but nothing or undefined.
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the metric tensor in that state if it were multipled would be where the 0's are -∅ while the 1's -1/1 which is -1 Meaning non existent in this universe, lack of dimension or -1 does exist as a dimension.
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If the zero go undefined in guv, they are supposed to.
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None of that matters for how this was written besides that tensor part but division is just 1/(x) multiplication take all the terms within the tensor 1/(term) and about this. why do you still have Kiloparsecs when not every force has that range? They do have that range.
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Ya, I had gone to sleep before you posted this otherwise I would have had something to say about this Mordred, I defined them like Maxwell's equations just without them all being apart but a single equation. So, whatever that is called, look familiar. In reality I can just write it like this, if I don't define every little part. ∇'(Y,G,F,c,X,Z,Δt',ΔKiloparsec) = (((ħ2 /(2Erest/C2)) ∑3a =1 (d2/d((C2/Erest)∑Ni = 1 MiRi)2) + (1/2)∑3a,β = 1 μaβ(Pa - Πa)(Pβ - Πβ) + U - (ħ2/2)∑3N-6s=1(d2/dq2) + V)((|(Log(DgDaDψDφ-W)(((2ħGC2))Rs - (1/4)FaμvFaμv + i(ψ-bar)γμ(((Lghost QE - gfabc(δμ (c-bar)a)Aμbcc) / (c-bar)aδμca) + ig(1/2)τWμ + ig'(1/2)YBμ)ψi +(ψ-bar)iLVijφψjr + (aji) - (μ2((φ-Dagger)φ) + λ((φ-Dagger)φ)2)/-(((Lghost QE - gfabc(δμ (c-bar)a)Aμbcc) / (c-bar)aδμca) + ig(1/2)τWμ + ig'(1/2)YBμ)2)|)-e2S(r,t)/h)) - ((Erest/C2)ωs(Guv - Ruv/-guv)1/2 + (S/ (((3G(Erest/C2))/2C2Rs3)(RpVp) + (GIs/C2Rs3)((3Rp/Rs2)(ωp Rp) -ωp ))))Rs2/2))) / (ħ2/2(Erest/C2))))1/2(((1-(((2(Erest/C2)G / Rs) - (Isωs(Guv - Ruv/-guv)1/2 + (S/(((3G(Erest/C2))/2C2Rs3)(RpVp) + (GIs/C2Rs3)((3Rp/Rs2)(ωp Rp) -ωp )))))/2(Erest/C2))+ (((8πG/3)((g/(2π)3)∫(((Erelativistic2 - Erest2 / C2) + ((Ar(X) + (ENucleon binding SNF ε0 μ0 /mu) - Ar(XZ±)/Z) / mu)2)(1/2)(1/e((ERelativistic - μchemical)/TMatter)±1)(ħωs + ħωs) - ((ksC2)/ Rs2) + (Guv - Ruv/-guv)1/2(ΔKiloparsec)))2/(C2)))1/2)
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a dimension is a planck action in a direction(i,j,k)
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If it were ever below a Planck length it would be aleph null, the fields lowest size is a Planck length, they never go below that inside this universe, zero is what you define when as being a Planck length with a magnitude of one Planck action, well below measurements for another couple hundred years. 6.626070040(81)×10−34 J⋅s 4.135667662(25)×10−15 eV⋅s
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ya, you were talking about this. Z = the 1,2,3,4,5,6,7, it tells all the orbitals. A tells the nucleons and SNF. (A,Z) tells neutrons.
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No seriously, they never go to zero truly just below measurements of acceptable error as long as your inside this universe.
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Like I said they are infinite still there, there is no range until you hit outside this Universe.
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0 is still a state, still exists just compressed to a extremely small size, aleph null would be not there, which is why they exist infinitely until you hit another universe where some can become aleph null while new ones will go to a state or zero from aleph null.
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aleph Null ∅
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Let me put it this way if it were truly of Zero there, there would not be an equation defining being null.
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Well, the Dimension is still there just compressed, otherwise, if you moved over a point of space without it, you would instantly lose that force until you crossed one that had it, even magnitude of near zero or Zero shows that it exists in that region or can be interacted with, otherwise it would be Null and not there at the point forever.
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well, that can't measure the magnitude to a Planck length can they, what scale was that measured at.
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Yes, but it falls to near nothing at the femtometer.
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No, it gets weaker and weaker as it goes past that point but it never goes away seeming like nothing as it does not effect calculations enough to be detected nor can be measured by experiments not being exact enough.
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They are all infinite they go to the edge of the universe. X and Z contain that information. Max speed = C(speed of Light) + H(Hubble Constant)ΔKiloparsec
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The range of gravity is Rs they all have been the others create it. Still a Quantum Gravity Equation and not to define the others but to define gravity.
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Well, the big equation is how all effect each other over time, whatever that is. The small short one is showing the state of space @ every point for those properties.
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If you want to put it that way, they are the scalar values next to bundles of vectors.
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Those are the strengths or values of Mass, Length Contraction/Time dilation, and SNF etc, like X and Z for orbital states. Y is flavour state while F is Electromagnetic state. T is Temperature and so on.