swansont Posted December 1, 2017 Posted December 1, 2017 2 hours ago, SuperPolymath said: When subatomic particle waves of the protons interact, they feed each other their collective material, collapsing wave functions. Like bug rips & big bangs in the microverses of most all subatomic particles. The neutron flies apart because, as I said, it's between the up quark & down quarks matter jets @ poles of the BH atom held together entirely by it's gravity underneath or adjacent to the proton quasar discs. Gravity is a lot stronger near the planck scale, resembling bthe other forces of the quantum world in it's strength: https://phys.org/news/2009-05-mini-black-holes.amp ! Moderator Note You were told to not post pet/alternative theories here, or anywhere but their own thread. You also said you wouldn't post in this thread again. Now I'm making that required - stay out of this thread.
Vmedvil Posted December 2, 2017 Author Posted December 2, 2017 (edited) In any case, now the models look something like this with the SNF's,WNF's, and EM's Energy-mass along with wave and particle forms simultaneously of them, without Anderson's Precession. (WNF = Lines)(SNF = Green)(EM = Yellow)(Gravity = Orange)(All Merged = red)(EM + SNF + Gravity = Dark Orange)(EM + Gravity = Light Orange) Without Rotation with Anderson's Precession. Couldn't do both in a animation at the same time correctly, it lags too much for watchers and doesn't take in the true values of both effects, but looked like this, the longer you look the image it gets closer to both effects being correct....... because of lag in your video processing, starting in Ultra slow motion then going slightly faster and faster as it loads/renders it, I tested this with my laptop and it does over time, but never fully renders. Edited December 2, 2017 by Vmedvil
Vmedvil Posted December 2, 2017 Author Posted December 2, 2017 (edited) Furthermore (Particle = Pixelation)(Wave = Ripple)(Rotation = Movements in circles)(Preccession = Vibration) More of any of these means greater magnitude or more dominate of that effect. Edited December 2, 2017 by Vmedvil
Mordred Posted December 2, 2017 Posted December 2, 2017 That looks good you doing these on the mathematica or Wolfram?
Vmedvil Posted December 2, 2017 Author Posted December 2, 2017 (edited) 34 minutes ago, Mordred said: That looks good you doing these on the mathematica or Wolfram? Lunapic after calculating the number of magnitude from the equation to do it as, like preccession and rotation were 1, while SNF = 30, EM = 1, and WNF .7 while gravity is some screw up low number, while Pixelation and ripple are 1, I couldn't do 1/2 for both of them wouldn't let me same with precession and rotation, but ωs - ωp = 0 ,ωs + ωp = 2 along with Wave - Particle = 0 , Wave + Particle = 2 and k = 553 , which means there is a very strong curvature compared to the others like a BH. But this solved in a weird way does = 2 ħ/ Δx Δῥ = 2 and 2π/Δt + 2π/Δt = 4π/2Δt = 2π/Δt as ω = 2π/Δt = 2πf Edited December 2, 2017 by Vmedvil
Vmedvil Posted December 2, 2017 Author Posted December 2, 2017 (edited) Lie Groups S = 3 S = 7 S= 20 Edited December 2, 2017 by Vmedvil
Vmedvil Posted December 2, 2017 Author Posted December 2, 2017 (edited) Until this moment this has been a hypothesis, Now Theory it goes because of Evidence, because of how the scientific method works. Proof that as mass of the BH grows spin increases. BH Spin Near Speed of Light C- C = 0 Proof that GR is correct for Warping of Static Space-time. Einstein's Tensor Confirmed by light bending. Proof that SR is correct for Non-Static Warping of Moving Object's Time and Space. Atomic Clock Measures Time Dilation. Proof the QM is correct for Static Particles with spins. Three Experiments that Show Quantum Mechanics is Real Proof that Schwarzchild Metric is correct for Static BH, Radius. Radius of BH Measured Proof that Kerr Metric for Spinning BH is correct. Black-hole Spin Measured Proof of Quantum field theory or Standard model with Higgs is correct. Higgs Boson Found String Theory Proof with Multiple Universes Cosmic CMB Change Cold Spot Proof of uncertainty principle with causality connections upon spin. Information Transfer Synced spin states "Wormhole Proof" Proof of Strong Interaction in all matter fields. Binding Energy of SNF in anti-matter measured Proof of Gravitational Precession from stellar masses. Earth's Precession Proof that Dark matter exists. Dark Matter's Gravity found Proof of Dark Energy and Hubble's Constant being correct. Expanding Universe Proof Proof of Neutrino's existence Neutrinos Measured Proof of Higher Order Particles existence along with decay of those. Muon Lifetime measured Proof of electromagnetism Electromagnetic Transmission Tesla Coil Proof of Gravitation waves from orbiting masses. Gravitational Waves Discovered/measured Graviton existence proof with non zero mass. Graviton found Proof of Matter and Antimatter Annihilation into photons. Annihilation experiment Proof that matter can escape a BH at large sizes "relativistic Jet" Active Galaxy SMBH Proof of Wavelike Bosons Photon Double slit Experiment Proof of Tachyonic Movement beyond C under certain conditions, Open D-brane proof. Speed of QE 10,000x light measurement. Proof of Matter ionization during Black hole digestion. Infrared Echoes Proof that Consumed matter has SNF broken along photons can escape BH. X-ray Beam BH Proof of BH Magnetic Field, Proof of internal spinning charges. BH Magnetic Field found Edited December 2, 2017 by Vmedvil
Vmedvil Posted December 2, 2017 Author Posted December 2, 2017 (edited) Proof of Wavelike Gravity Wavelike Behavior Gravity Witnessed Proof of Relativistic Mass and Gravitational attraction of it along with vibration of Gravitational waves, wavelike Two BH Collision Proof of Planck Scale measurements being smallest along with Planck's constant. Measurement of Planck's Constant In any case, that is 30 experimental proofs of this model being accurate to "Real" Universe. ∇'(x,y,z,t,ωs,ωp,M,I,k,φ,S,X,Z,u) = ((ħωs)((|(Log(DgDaDψDφ-W)(((2ħG/ε0 μ0))Rs - (1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + (aji) - V(φ)/-Dμ2)|)-e2S(r,t)/h)) - (Mbωs(Guv - Ruv/-guv)1/2 + (S2/ (3GMb/2(1/ε0 μ0)2Rs3(Rp vp)+GIs/(1/ε0 μ0)Rs(3Rp/Rs2(ωpRp) - ωp))2)Rs2/2)((|(Log(DgDaDψDφ-W)((((2ħG/ε0 μ0))Rs -(1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + (aji) - V(φ)/-Dμ2)|)-e2S(r,t)/h))) / (ħ2/2Mb)((|(Log(DgDaDψDφ-W)(( ((2ħG/ε0 μ0))Rs - (1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + ((aji)) - V(φ)/-Dμ2)|)-e2S(r,t)/h)))1/2(((1-(((2MbG / Rs) - (Isωs(Guv - Ruv/-guv)1/2 + (S2/ (3GMb/2(1/ε0 μ0)2Rs3(Rp vp)+G(Is)/(1/ε0 μ0)Rs(3Rp/Rs2(ωpRp) - ωp))2))/2Mb)+ (((8πG/3)((g/(2π)3)∫(p2 + ((Ar(X) + (Ebx ε0 μ0 /mu) - Ar(XZ+)/Z) / mu)2)(1/2)(1/e((E - μ)/T)±1)(ħωs + ħωs)) - ((ksRs2/ε0 μ0)) + (Guv - Ruv/-guv))1/2(ΔKiloparsec)))2/(1/ε0 μ0)))1/2) ∑∇'/Δt = ∇'1/Δt1 + ∇'2/Δt2 + ∇'3/Δt3 + ... + ∇'n/Δtn ∑∇'/Δt = (Δ'/Δt) Energy of Graviton Wave Es = ħωs Energy of Gravitational Wave Ep = ħωp Quanta Counter for Energy-mass of a body at every point from radius. ∑Is = M1R12 + M2R22 + M3R32 + ... + MnRn2 Edited December 2, 2017 by Vmedvil
Mordred Posted December 3, 2017 Posted December 3, 2017 (edited) Lol well if you tried publishing the math in that clunky format it won't go anywhere. Might be my best recommendation I can possibly give. Fix that math above as it is incredibly ugly. As is it its barely legible. You told me before you know how to latex. Start there then look at how to reduce and better organize that expression. As it is I am certainly not going to waste any effort trying to decipher it. PS make sure it passes Dimensional analysis. Both Dubbelosix and I both mentioned this critically important detail. You will also require the mathematical proofs to your equation. Edited December 3, 2017 by Mordred
Vmedvil Posted December 3, 2017 Author Posted December 3, 2017 (edited) 15 hours ago, Mordred said: Lol well if you tried publishing the math in that clunky format it won't go anywhere. Might be my best recommendation I can possibly give. Fix that math above as it is incredibly ugly. As is it its barely legible. You told me before you know how to latex. Start there then look at how to reduce and better organize that expression. As it is I am certainly not going to waste any effort trying to decipher it. PS make sure it passes Dimensional analysis. Both Dubbelosix and I both mentioned this critically important detail. You will also require the mathematical proofs to your equation. Well, my Equation is just four current SR, so that is easy if C-C = 0, and if all the others passed then this one does as substitution was just used. Where this is about to go through another Transform because of Swan's misunderstanding of momentum, plus it removes it from the equation. Transform E2 = M2C4 + p2C2 Reverse solve for p2 = (E2 - M2C4 / C2) ∇'(x,y,z,t,ωs,ωp,M,I,k,φ,S,X,Z,u) = ((ħωs)((|(Log(DgDaDψDφ-W)(((2ħG/ε0 μ0))Rs - (1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + (aji) - V(φ)/-Dμ2)|)-e2S(r,t)/h)) - (Mbωs(Guv - Ruv/-guv)1/2 + (S2/ (3GMb/2(1/ε0 μ0)2Rs3(Rp vp)+GIs/(1/ε0 μ0)Rs(3Rp/Rs2(ωpRp) - ωp))2)Rs2/2)((|(Log(DgDaDψDφ-W)((((2ħG/ε0 μ0))Rs -(1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + (aji) - V(φ)/-Dμ2)|)-e2S(r,t)/h))) / (ħ2/2Mb)((|(Log(DgDaDψDφ-W)(( ((2ħG/ε0 μ0))Rs - (1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + ((aji)) - V(φ)/-Dμ2)|)-e2S(r,t)/h)))1/2(((1-(((2MbG / Rs) - (Isωs(Guv - Ruv/-guv)1/2 + (S2/ (3GMb/2(1/ε0 μ0)2Rs3(Rp vp)+G(Is)/(1/ε0 μ0)Rs(3Rp/Rs2(ωpRp) - ωp))2))/2Mb)+ (((8πG/3)((g/(2π)3)∫(((Erelativistic2 - Mb2C4) / C2) + ((Ar(X) + (ENucleon binding SNF ε0 μ0 /mu) - Ar(XZ+)/Z) / mu)2)(1/2)(1/e((E - μ)/T)±1)(ħωs + ħωs)) - ((ksRs2/ε0 μ0)) + (Guv - Ruv/-guv))1/2(ΔKiloparsec)))2/(1/ε0 μ0)))1/2) ∑∇'/Δt = ∇'1/Δt1 + ∇'2/Δt2 + ∇'3/Δt3 + ... + ∇'n/Δtn ∑∇'/Δt = (Δ'/Δt) Energy of Graviton Wave Es = ħωs Energy of Gravitational Wave Ep = ħωp Quanta Counter for Energy-mass of a body at every point from radius. ∑Is = M1R12 + M2R22 + M3R32 + ... + MnRn2 Now does C2 are getting put back in Detransform. ∇'(x,y,z,t,ωs,ωp,M,I,k,φ,S,X,Z,u) = ((ħωs)((|(Log(DgDaDψDφ-W)(((2ħGC2))Rs - (1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + (aji) - V(φ)/-Dμ2)|)-e2S(r,t)/h)) - (Mbωs(Guv - Ruv/-guv)1/2 + (S2/ (3GMb/2C4Rs3(Rp vp)+GIs/C2Rs(3Rp/Rs2(ωpRp) - ωp))2)Rs2/2)((|(Log(DgDaDψDφ-W)((((2ħGC2))Rs -(1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + (aji) - V(φ)/-Dμ2)|)-e2S(r,t)/h))) / (ħ2/2Mb)((|(Log(DgDaDψDφ-W)(( ((2ħGC2))Rs - (1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + ((aji)) - V(φ)/-Dμ2)|)-e2S(r,t)/h)))1/2(((1-(((2MbG / Rs) - (Isωs(Guv - Ruv/-guv)1/2 + (S2/ (3GMb/2C4Rs3(Rp vp)+G(Is)/(1/ε0 μ0)Rs(3Rp/Rs2(ωpRp) - ωp))2))/2Mb)+ (((8πG/3)((g/(2π)3)∫(((Erelativistic2 - Mb2C4) / C2) + ((Ar(X) + (ENucleon binding SNF ε0 μ0 /mu) - Ar(XZ+)/Z) / mu)2)(1/2)(1/e((E - μ)/T)±1)(ħωs + ħωs)) - ((ksRs2C2)) + (Guv - Ruv/-guv))1/2(ΔKiloparsec)))2/(C2)))1/2) ∑∇'/Δt = ∇'1/Δt1 + ∇'2/Δt2 + ∇'3/Δt3 + ... + ∇'n/Δtn ∑∇'/Δt = (Δ'/Δt) Energy of Graviton Wave Es = ħωs Energy of Gravitational Wave Ep = ħωp Quanta Counter for Energy-mass of a body at every point from radius. ∑Is = M1R12 + M2R22 + M3R32 + ... + MnRn2 Edited December 3, 2017 by Vmedvil
Vmedvil Posted December 3, 2017 Author Posted December 3, 2017 (edited) Missed one ∇'(x,y,z,t,ωs,ωp,M,I,k,φ,S,X,Z,u) = ((ħωs)((|(Log(DgDaDψDφ-W)(((2ħGC2))Rs - (1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + (aji) - V(φ)/-Dμ2)|)-e2S(r,t)/h)) - (Mbωs(Guv - Ruv/-guv)1/2 + (S2/ (3GMb/2C4Rs3(Rp vp)+GIs/C2Rs(3Rp/Rs2(ωpRp) - ωp))2)Rs2/2)((|(Log(DgDaDψDφ-W)((((2ħGC2))Rs -(1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + (aji) - V(φ)/-Dμ2)|)-e2S(r,t)/h))) / (ħ2/2Mb)((|(Log(DgDaDψDφ-W)(( ((2ħGC2))Rs - (1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + ((aji)) - V(φ)/-Dμ2)|)-e2S(r,t)/h)))1/2(((1-(((2MbG / Rs) - (Isωs(Guv - Ruv/-guv)1/2 + (S2/ (3GMb/2C4Rs3(Rp vp)+G(Is)/C2Rs(3Rp/Rs2(ωpRp) - ωp))2))/2Mb)+ (((8πG/3)((g/(2π)3)∫(((Erelativistic2 - Mb2C4) / C2) + ((Ar(X) + (ENucleon binding SNF ε0 μ0 /mu) - Ar(XZ+)/Z) / mu)2)(1/2)(1/e((E - μ)/T)±1)(ħωs + ħωs)) - ((ksRs2C2)) + (Guv - Ruv/-guv))1/2(ΔKiloparsec)))2/(C2)))1/2) Which I almost want to take all those Mb reverse solved E = MC2 as Erest which I think I will (Erest/C2) = Mb ∇'(x,y,z,t,ωs,ωp,M,I,k,φ,S,X,Z,u) = ((ħωs)((|(Log(DgDaDψDφ-W)(((2ħGC2))Rs - (1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + (aji) - V(φ)/-Dμ2)|)-e2S(r,t)/h)) - ((Erest/C2)ωs(Guv - Ruv/-guv)1/2 + (S2/ (3G(Erest/C2)/2C4Rs3(Rp vp)+GIs/C2Rs(3Rp/Rs2(ωpRp) - ωp))2)Rs2/2)((|(Log(DgDaDψDφ-W)((((2ħGC2))Rs -(1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + (aji) - V(φ)/-Dμ2)|)-e2S(r,t)/h))) / (ħ2/2(Erest/C2))((|(Log(DgDaDψDφ-W)(( ((2ħGC2))Rs - (1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + ((aji)) - V(φ)/-Dμ2)|)-e2S(r,t)/h)))1/2(((1-(((2(Erest/C2)G / Rs) - (Isωs(Guv - Ruv/-guv)1/2 + (S2/ (3G(Erest/C2)/2C4Rs3(Rp vp)+G(Is)/C2Rs(3Rp/Rs2(ωpRp) - ωp))2))/2(Erest/C2))+ (((8πG/3)((g/(2π)3)∫(((Erelativistic2 - (Erest/C2)2C4) / C2) + ((Ar(X) + (ENucleon binding SNF ε0 μ0 /mu) - Ar(XZ+)/Z) / mu)2)(1/2)(1/e((E - μ)/T)±1)(ħωs + ħωs)) - ((ksRs2C2)) + (Guv - Ruv/-guv))1/2(ΔKiloparsec)))2/(C2)))1/2) Mordred in your equation what was 1/e((E - μ)/T)±1 what was E defining there. Figured it out ∇'(x,y,z,t,ωs,ωp,M,I,k,φ,S,X,Z,u) = ((ħωs)((|(Log(DgDaDψDφ-W)(((2ħGC2))Rs - (1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + (aji) - V(φ)/-Dμ2)|)-e2S(r,t)/h)) - ((Erest/C2)ωs(Guv - Ruv/-guv)1/2 + (S2/ (3G(Erest/C2)/2C4Rs3(Rp vp)+GIs/C2Rs(3Rp/Rs2(ωpRp) - ωp))2)Rs2/2)((|(Log(DgDaDψDφ-W)((((2ħGC2))Rs -(1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + (aji) - V(φ)/-Dμ2)|)-e2S(r,t)/h))) / (ħ2/2(Erest/C2))((|(Log(DgDaDψDφ-W)(( ((2ħGC2))Rs - (1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + ((aji)) - V(φ)/-Dμ2)|)-e2S(r,t)/h)))1/2(((1-(((2(Erest/C2)G / Rs) - (Isωs(Guv - Ruv/-guv)1/2 + (S2/ (3G(Erest/C2)/2C4Rs3(Rp vp)+G(Is)/C2Rs(3Rp/Rs2(ωpRp) - ωp))2))/2(Erest/C2))+ (((8πG/3)((g/(2π)3)∫(((Erelativistic2 - (Erest/C2)2C4) / C2) + ((Ar(X) + (ENucleon binding SNF ε0 μ0 /mu) - Ar(XZ+)/Z) / mu)2)(1/2)(1/e((ERelativistic - μchemical)/TMatter)±1)(ħωs + ħωs)) - ((ksRs2C2)) + (Guv - Ruv/-guv))1/2(ΔKiloparsec)))2/(C2)))1/2) ∑∇'/Δt = ∇'1/Δt1 + ∇'2/Δt2 + ∇'3/Δt3 + ... + ∇'n/Δtn ∑∇'/Δt = (Δ'/Δt) Energy of Graviton Wave Es = ħωs Energy of Gravitational Wave Ep = ħωp Quanta Counter for Energy-mass of a body at every point from radius. ∑Is = (Erest/C2)1R12 + (Erest/C2)2R22 + (Erest/C2)3R32 + ... + (Erest/C2)nRn2 Einstein Tensor to Angular velocity of rotation. ωs = -1/(Is(Guv - Ruv/-guv)1/2 + (Erest/C2)(Guv - Ruv/-guv)1/2) Cancel ∇'(x,y,z,t,ωs,ωp,M,I,k,φ,S,X,Z,u) = ((ħωs)((|(Log(DgDaDψDφ-W)(((2ħGC2))Rs - (1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + (aji) - V(φ)/-Dμ2)|)-e2S(r,t)/h)) - ((Erest/C2)ωs(Guv - Ruv/-guv)1/2 + (S2/ (3G(Erest/C2)/2C4Rs3(Rp vp)+GIs/C2Rs(3Rp/Rs2(ωpRp) - ωp))2)Rs2/2)((|(Log(DgDaDψDφ-W)((((2ħGC2))Rs -(1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + (aji) - V(φ)/-Dμ2)|)-e2S(r,t)/h))) / (ħ2/2(Erest/C2))((|(Log(DgDaDψDφ-W)(( ((2ħGC2))Rs - (1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + ((aji)) - V(φ)/-Dμ2)|)-e2S(r,t)/h)))1/2(((1-(((2(Erest/C2)G / Rs) - (Isωs(Guv - Ruv/-guv)1/2 + (S2/ (3G(Erest/C2)/2C4Rs3(Rp vp)+G(Is)/C2Rs(3Rp/Rs2(ωpRp) - ωp))2))/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)) - ((ksRs2C2)) + (Guv - Ruv/-guv))1/2(ΔKiloparsec)))2/(C2)))1/2) ∑∇'/Δt = ∇'1/Δt1 + ∇'2/Δt2 + ∇'3/Δt3 + ... + ∇'n/Δtn ∑∇'/Δt = (Δ'/Δt) Energy of Graviton Wave Es = ħωs Energy of Gravitational Wave Ep = ħωp Quanta Counter for Energy-mass of a body at every point from radius. ∑Is = (Erest/C2)1R12 + (Erest/C2)2R22 + (Erest/C2)3R32 + ... + (Erest/C2)nRn2 Einstein Tensor to Angular velocity of rotation. ωs = -1/(Is(Guv - Ruv/-guv)1/2 + (Erest/C2)(Guv - Ruv/-guv)1/2) Edited December 3, 2017 by Vmedvil
Vmedvil Posted December 3, 2017 Author Posted December 3, 2017 (edited) I think these two terms may cancel but I cannot tell, I will have to latex this now. ∇'(x,y,z,t,ωs,ωp,M,I,k,φ,S,X,Z,u) = ((ħωs)((|(Log(DgDaDψDφ-W)(((2ħGC2))Rs - (1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + (aji) - V(φ)/-Dμ2)|)-e2S(r,t)/h)) - ((Erest/C2)ωs(Guv - Ruv/-guv)1/2 + (S2/ (3G(Erest/C2)/2C4Rs3(Rp vp)+GIs/C2Rs(3Rp/Rs2(ωpRp) - ωp))2)Rs2/2)((|(Log(DgDaDψDφ-W)((((2ħGC2))Rs -(1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + (aji) - V(φ)/-Dμ2)|)-e2S(r,t)/h))) / (ħ2/2(Erest/C2))((|(Log(DgDaDψDφ-W)(( ((2ħGC2))Rs - (1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + ((aji)) - V(φ)/-Dμ2)|)-e2S(r,t)/h)))1/2(((1-(((2(Erest/C2)G / Rs) - (Isωs(Guv - Ruv/-guv)1/2 + (S2/ (3G(Erest/C2)/2C4Rs3(Rp vp)+G(Is)/C2Rs(3Rp/Rs2(ωpRp) - ωp))2))/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)) - ((ksRs2C2)) + (Guv - Ruv/-guv))1/2(ΔKiloparsec)))2/(C2)))1/2) Ya, I official hate this forums latex for instantly not accepting it in other sizes. Ya, no it is not getting latexed here. Edited December 3, 2017 by Vmedvil
Mordred Posted December 3, 2017 Posted December 3, 2017 It takes a bit of effort to get used to the latex structure here. We have a testing area to get used to it http://www.scienceforums.net/forum/99-the-sandbox/ If you want write up the latex string under Office or whatever format your used to and I will give you a hand with it.
Strange Posted December 3, 2017 Posted December 3, 2017 There is an interactive Latex editor that can help with getting the code right before copying it here: http://www.codecogs.com/latex/eqneditor.php
Vmedvil Posted December 3, 2017 Author Posted December 3, 2017 (edited) [math] \nabla ' (x,y,z,\omega_s,\omega_p,E,I,k_s,\phi,S,X,Z,\mu)= \sqrt {\hbar \omega_s Log_{(DgDaD \psi D \phi -W)}(| \frac{2 \hbar G C^2 R_s - \frac{1}{4} F^a_{\mu v} F^{a \mu v} +i (\psi bar)\gamma^{\mu}D_{\mu}\psi^{i} +(\psi bar)^{i}_{L}V_{ij}\phi \psi^{j}_{r} + a_{ij} - V(\phi)}{-D_\mu}|)(-e^{\frac{2S(r,t)}{h}}) - \frac{E_{rest}}{C^{2}}\omega_s \sqrt{\frac {G_{uv} - R_{uv}}{g_{uv}}}} [/math] [math]+ \sqrt{(\frac{(\frac{S^{2}}{\frac{3G\frac{E_{rest}}{C^{2}}}{2C^{2}R_{s}^{3}}}R_{p}v_{p}\frac{GI_{s}}{C^{2}}R_{s}^{3}(\frac{3R_{p}}{R_{s}^{2}}(\omega_{p}R_{p})- \omega_{p}))^{2}R_{s}^{2}}{2})\frac{Log_{(DgDaD \psi D \phi -W)}(| \frac{2 \hbar G C^2 R_s - \frac{1}{4} F^a_{\mu v} F^{a \mu v} +i (\psi bar)\gamma^{\mu}D_{\mu}\psi^{i} +(\psi bar)^{i}_{L}V_{ij}\phi \psi^{j}_{r} + a_{ij} - V(\phi)}{-D_\mu}|)(-e^{\frac{2S(r,t)}{h}})}{\frac{\hbar^{2}(Log_{(DgDaD \psi D \phi -W)}(| \frac{2 \hbar G C^2 R_s - \frac{1}{4} F^a_{\mu v} F^{a \mu v} +i (\psi bar)\gamma^{\mu}D_{\mu}\psi^{i} +(\psi bar)^{i}_{L}V_{ij}\phi \psi^{j}_{r} + a_{ij} - V(\phi)}{-D_\mu}|)(-e^{\frac{2S(r,t)}{h}}))}{2\frac{E_{rest}}{C^{2}}}}}[/math] Quantum Mechanics Part. Edited December 3, 2017 by Vmedvil
Strange Posted December 3, 2017 Posted December 3, 2017 5 minutes ago, Vmedvil said: [\math] [/math] I blame Microsoft for people getting their slashes confused!
Vmedvil Posted December 3, 2017 Author Posted December 3, 2017 (edited) that about half of it, which that shit does cancel, and I noticed some errors when I typed Anderson equation. ∇'(x,y,z,t,ωs,ωp,M,I,k,φ,S,X,Z,u) = ((ħωs)((|(Log(DgDaDψDφ-W)(((2ħGC2))Rs - (1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + (aji) - V(φ)/-Dμ2)|)-e2S(r,t)/h)) - ((Erest/C2)ωs(Guv - Ruv/-guv)1/2 + (S2/ Ωp))2)Rs2/2))) / (ħ2/2(Erest/C2))))1/2(((1-(((2(Erest/C2)G / Rs) - (Isωs(Guv - Ruv/-guv)1/2 + (S2/Ωp ))2))/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)) - ((ksRs2C2)) + (Guv - Ruv/-guv))1/2(ΔKiloparsec)))2/(C2)))1/2) Which will now be Ωp , until I type it again in latex. Edited December 3, 2017 by Vmedvil
Mordred Posted December 4, 2017 Posted December 4, 2017 Are you referring to the Anderson impurity model? Asking as this is one I'm not familiar with. Much easier to read in the above.
Vmedvil Posted December 4, 2017 Author Posted December 4, 2017 (edited) and I finally figured out where this 2 goes again, which on (S2 / Anderson Equation ) 2 there is a missing on the latex version but doesn't effect the cancel. ∇'(x,y,z,t,ωs,ωp,M,I,k,φ,S,X,Z,u) = ((ħωs)((|(Log(DgDaDψDφ-W)(((2ħGC2))Rs - (1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + (aji) - V(φ)/-Dμ2)|)-e2S(r,t)/h)) - ((Erest/C2)ωs(Guv - Ruv/-guv)1/2 + (S2/ Ωp)2)Rs2/2))) / (ħ2/2(Erest/C2))))1/2(((1-(((2(Erest/C2)G / Rs) - (Isωs(Guv - Ruv/-guv)1/2 + (S2/Ωp)2))/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)) - ((ksRs2C2)) + (Guv - Ruv/-guv))1/2(ΔKiloparsec)))2/(C2)))1/2) and the 2 is the result of a transformation error so it will be removed. ∇'(x,y,z,t,ωs,ωp,M,I,k,φ,S,X,Z,u) = ((ħωs)((|(Log(DgDaDψDφ-W)(((2ħGC2))Rs - (1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + (aji) - V(φ)/-Dμ2)|)-e2S(r,t)/h)) - ((Erest/C2)ωs(Guv - Ruv/-guv)1/2 + (S2/ Ωp))Rs2/2))) / (ħ2/2(Erest/C2))))1/2(((1-(((2(Erest/C2)G / Rs) - (Isωs(Guv - Ruv/-guv)1/2 + (S2/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)) - ((ksRs2C2)) + (Guv - Ruv/-guv))1/2(ΔKiloparsec)))2/(C2)))1/2) After looking back to why the hell it was there, so that latex is right, that squared was wrong. Edited December 4, 2017 by Vmedvil
Vmedvil Posted December 4, 2017 Author Posted December 4, 2017 (edited) Which then changes S's state because of that error from S2 to S. ∇'(x,y,z,t,ωs,ωp,M,I,k,φ,S,X,Z,u) = ((ħωs)((|(Log(DgDaDψDφ-W)(((2ħGC2))Rs - (1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + (aji) - V(φ)/-Dμ2)|)-e2S(r,t)/h)) - ((Erest/C2)ωs(Guv - Ruv/-guv)1/2 + (S/ Ωp))Rs2/2))) / (ħ2/2(Erest/C2))))1/2(((1-(((2(Erest/C2)G / Rs) - (Isωs(Guv - Ruv/-guv)1/2 + (S/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) - (ksRs2C2) + (Guv - Ruv/-guv)1/2(ΔKiloparsec)))2/(C2)))1/2) So that latex is wrong as S is not squared. [math] \nabla ' (x,y,z,\omega_{s},\omega_{p},M,I,k,\phi,S,X,Z,\mu) = \sqrt{\hbar \omega_{s}(|Log_{(DgDa D \psi D \phi - W)}(\frac{2 \hbar G C^{2}R_{s} - \frac{1}{4}F^{a}_{\mu v}F^{a \mu v } + i(\psi bar)\gamma^{\mu}D_{\mu}\psi_{i} + (\psi bar)^{i}_{L}V_{ij}\phi \psi^{j}_{r} + a_{ij} - V(\phi)}{-D^{2}_{\mu}}|)(-e^{\frac{2S(r,t)}{h}}) - \frac {E_{Rest}}{C^{2}} \omega_{s} \sqrt{\frac{G_{uv} - R_{uv}}{-g_{uv}}} + {\frac{\frac{S R^{2}_{s}}{\Omega_{p}}}{2}}{\hbar^{2 \frac{E_{rest}}{C^{2}}}}}[/math] The box is too short but here it is now Simplified and corrected. the QM part. Edited December 4, 2017 by Vmedvil
Vmedvil Posted December 4, 2017 Author Posted December 4, 2017 (edited) Forgot a 2 [math] \nabla ' (x,y,z,\omega_{s},\omega_{p},M,I,k,\phi,S,X,Z,\mu) = \sqrt{\hbar \omega_{s}(|Log_{(DgDa D \psi D \phi - W)}(\frac{2 \hbar G C^{2}R_{s} - \frac{1}{4}F^{a}_{\mu v}F^{a \mu v } + i(\psi bar)\gamma^{\mu}D_{\mu}\psi_{i} + (\psi bar)^{i}_{L}V_{ij}\phi \psi^{j}_{r} + a_{ij} - V(\phi)}{-D^{2}_{\mu}}|)(-e^{\frac{2S(r,t)}{h}}) - \frac {E_{Rest}}{C^{2}} \omega_{s} \sqrt{\frac{G_{uv} - R_{uv}}{-g_{uv}}} + {\frac{\frac{S R^{2}_{s}}{\Omega_{p}}}{2}}{{ \frac{2E_{rest}}{\hbar^{2}C^{2}}}}}[/math] Those fractions are not displaying correctly and I don't know where it is screwed up I will rewrite it in latex tomorrow. Edited December 4, 2017 by Vmedvil
Vmedvil Posted December 4, 2017 Author Posted December 4, 2017 (edited) No others Errors were found, Precession. Ωp = (((3G(Erest/C2))/2C2Rs3)(RpVp) + (GIs/C2Rs3)(3Rp/Rs2(ωp Rp) -ωp )) Transform back correctly, had to check the entire equation after one mistake was noticed there are no others, neither Ωp or S should have been 2 as mk should not have been. ∇'(x,y,z,t,ωs,ωp,M,I,k,φ,S,X,Z,u) = ((ħωs)((|(Log(DgDaDψDφ-W)(((2ħGC2))Rs - (1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + (aji) - V(φ)/-Dμ2)|)-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) - (ksRs2C2) + (Guv - Ruv/-guv)1/2(ΔKiloparsec)))2/(C2)))1/2) Edited December 4, 2017 by Vmedvil
Vmedvil Posted December 5, 2017 Author Posted December 5, 2017 (edited) Which photons not having mass and imaginary mass does not effect SR means that I don't have to change literal anything on this equation for C2 as the Speed of Light in time-space as Einstein's Aether Medium. Good would have been annoying anyways. Edited December 5, 2017 by Vmedvil
Vmedvil Posted December 5, 2017 Author Posted December 5, 2017 (edited) Which I noticed another error upon a transform missing division sign, when subbing Friedmann equation. ∇'(x,y,z,t,ωs,ωp,M,I,k,φ,S,X,Z,u) = ((ħωs)((|(Log(DgDaDψDφ-W)(((2ħGC2))Rs - (1/4)FaμvFaμv + i(ψ-bar)γμDμψi +(ψ-bar)iLVijφψjr + (aji) - V(φ)/-Dμ2)|)-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) I did this quickly so if this happens a third time, I will reconstruct the entire equation to make sure they match, three strikes and I destroy and reconstruct, luckily I remember every change. Edited December 5, 2017 by Vmedvil
Mordred Posted December 5, 2017 Posted December 5, 2017 Lol yeah working with equations that complex gets incredibly annoying on reductions. Glad to see your sheer diligence. Very few are willing to go the mile.
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