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File:SazaeconT.png [[Category:Mathematical constant]] [[Category:Sazae-san constant]](2,118 × 1,682 (216 KB)) - 09:41, 21 June 2013File:Superfactocomple1.png \(u\!=\!\Re(f)=\)constant and<br> \(u\!=\!\Im(f)=\)constant are drawn.<br>(706 × 706 (172 KB)) - 00:10, 29 February 2024File:2015ruble3.jpg ...the approximations: Fitting of rouble with 3-parametric functions. Applied Mathematical Sciences, Vol. 9, 2015, no. 17, 831 - 838 Constant 0.0172024 is not adjusted parameter, it is approximation of the angular vel(1,726 × 684 (266 KB)) - 08:26, 1 December 2018File:2016ruble1.jpg ...the approximations: Fitting of rouble with 3-parametric functions. Applied Mathematical Sciences, Vol. 9, 2015, no. 17, 831 - 838 Constant 0.0172024 is not adjusted parameter, it is approximation of the angular vel(2,764 × 684 (414 KB)) - 08:27, 1 December 2018File:Analuxp01t400.jpg Lines of constant [[logamplitude]] $u$ and phase $v$ are shown in the complex plane: ...provides the match of the two asymptotics. It is fundamental mathematical constant;(2,083 × 3,011 (1.67 MB)) - 08:29, 1 December 2018File:Analuxp01u400.jpg ...provides the match of the two asymptotics. It is fundamental mathematical constant; D.Kouznetsov. Superexponential as special function. Vladikavkaz Mathematical Journal, 2010, v.12, issue 2, p.31-45.(2,083 × 3,011 (1.72 MB)) - 08:29, 1 December 2018File:Ruble85210a.png where $a$ is constant coefficient of proportionality. This equation is easy to solve: where $b$ is constant of integration.(1,519 × 689 (217 KB)) - 08:50, 1 December 2018