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| Nardelli's Master Equation Complete Set \begin{document} d/dt (S * G) = Subscript[k,DN] * (integrate(exp(phi) * Subscript[G,A] * star(Subscript[G,A]), X) + (1/(4*pi)) * integrate(tr(F^2) - tr(R^2), S/Subscript[Z,2])) + (3 * Subscript[k,DN] *... |
| From Nardelli's Master Equation to the Golden Ratio: Some Relations *PDF contains high-resolution typeset equations. Below, the first two equations in Wolfram-compatible versions:* D[SC,t]=k*(Integrate[Exp[p] GA,... |
| From this other version of Master equation ![enter image description here][1] We obtain, considering the integral tending to zero: ![enter image description here][2] From which, we obtain, in conclusion: ![enter image... |
| UnitaryMasterEquation := Dt[S * C] == kappaDN * Integrate[Exp[phi] * G4 \[Wedge] HodgeDual[G4], X] + (3 * kappaDN^6 * Lambda^2) / ((2*Pi)^7 * PlanckLength^2 * (r^2 + a^2)^4) + ... |
| We analyze the following equation, concerning the enthalpy of the modified white hole. All calculations were carried out using the WolframAlpha. ![formulas][1] ![formulas][2] ![formulas][3] ![formulas][4] ![formulas][5] ... |
| These are the so-called "recurring numbers", which result from analyzing various equations of that sector of mathematics studied by Srinivasa Ramanujan (Theory of Numbers) and various equations of various sectors of Theoretical Physics (String... |