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- 24 bytes (2 words) - 15:01, 20 June 2013
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- =\exp\!\left( \frac{\hbar \omega_{\rm z}}{k_{\rm B} T}\right)</math> is thermal steady-state ratio of populations; frequency <math>\omega_{\rm z}</math> is called "zero-line" frequency <ref name="comment">16 KB (2,521 words) - 15:13, 17 June 2020
- :<math> F(z+1)=(z+1) F(z) </math> for all complex <math>z</math> except negative integer values.27 KB (3,925 words) - 18:26, 30 July 2019
- main(){ int m,n,k; DB x,y,z, X[49],Y[49], Z[49][17]; char c,d, namae[32]; ...6;k++){ fscanf(i,"%lf",&z); if(z==0) z=1.; printf(" %5.3lf",z); Z[n][k]=z;}4 KB (678 words) - 14:24, 20 June 2013
- main(){ int m,n,k; DB x,y,z, X[49],Y[49], Z[49][17]; char c,d, namae[32]; ...6;k++){ fscanf(i,"%lf",&z); if(z==0) z=1.; printf(" %5.3lf",z); Z[n][k]=z;}5 KB (785 words) - 14:24, 20 June 2013
- : \({\rm tet}_b(z\!+\!1) = \exp_b\!\big( {\rm tet}_b(z) \big)\) ...ast for \(b\!>\!1\), is holomorphic at least in \(\{ z \in \mathbb C : \Re(z)\!>\!-2\}\).21 KB (3,175 words) - 23:37, 2 May 2021
- // Plot of tetrational \(f={\rm tet}_b(z)\)<br> z_type FIT1(z_type d,z_type z){6 KB (1,030 words) - 18:48, 30 July 2019
- #define z(m,n) Z[(m)*N1+(n)] #define zmn z(m,n)13 KB (2,858 words) - 06:59, 1 December 2018
- Wang N., Wu X., Kehrwald N., Li Z., Li Q., Jiang X., Pu J. Fukushima nuclear accident recorded in tibetan pla146 KB (19,835 words) - 18:25, 30 July 2019
- main(){ int j,k,m,n; DB x,y,z, p,q, t;3 KB (564 words) - 18:33, 28 April 2023
- ...8-09-02188-7/home.html D.Kouznetsov. (2009). Solutions of \(F(z+1)=\exp(F(z))\) in the complex plane.. Mathematics of Computation, 78: 1647-1670. DOI:1 ...cae, v.81, p.65-76 (2011)</ref> is holomorphic solution \(F(z)={\rm tet}_b(z)\) of the equations14 KB (2,275 words) - 18:25, 30 July 2019
- <ref name="call"> http://thomas.loc.gov/cgi-bin/query/z?c111%3AH.RES.1489%3A Mr.KING. Bill Text 111th Congress (2009-2010) H.RES.14 ...a brzoza nie miała wpływu na pierwotne zniszczenie skrzydła - to jedna z kluczowych konkluzji raportu technicznego podkomisji smoleńskiej.145 KB (3,277 words) - 00:40, 25 March 2022
- <ref name="call"> http://thomas.loc.gov/cgi-bin/query/z?c111%3AH.RES.1489%3A Mr.KING. Bill Text 111th Congress (2009-2010) H.RES.14 Opracowanie to będzie służyć jako jeden z etapów na drodze do utworzenie tak bardzo potrzebnej międzynarodowej komi107 KB (7,830 words) - 15:02, 4 January 2022
- \(\displaystyle {{F(z)} \atop \,} {= \atop \,} {T^z(t) \atop \,} {= \atop \,}25 KB (3,622 words) - 08:35, 3 May 2021
- \(\mathrm{pen}(z\!+\!1)=\mathrm{tet}\Big(\mathrm{pen}(z) \Big)\) \(\displaystyle \mathrm{pen}(z)= \sum_{m=0}^{M-1} \alpha_m \mathrm e^{mkz} + O(\mathrm e^{Mkz})\)7 KB (1,090 words) - 18:49, 30 July 2019
- D.Kouznetsov. Analytic solution of F(z+1)=exp(F(z)) in complex z-plane. Mathematics of Computation, v.78 (2009), 1647-1670.100 KB (14,715 words) - 16:21, 31 October 2021
- http://link.springer.com/article/10.1007/s00424-006-0169-z?LI=true#page-1 Marco Piccolino. Luigi Galvani and animal electricity: two c ...ERS/2010superfar.pdf D.Kouznetsov. Solution of F(z+1)=exp(F(z)) in complex z-plane. [[Mathematics of Computation]], <b>78</b>, No.267, p.1647-1670 (2009111 KB (2,581 words) - 16:54, 17 June 2020
- // \(T(z)=4 z (1\!-\!z)\) z_type J(z_type z){ return .5-sqrt(.25-z/Q); }3 KB (513 words) - 18:48, 30 July 2019
- ...[[Factorial]]), or \(\sqrt{!\,}\) is solution \(h\) of equation \(h(h(z))=z!\). ...l}\). It is assumed that \(z\!=\!2\) is [[regular point]] of \(\sqrt{!\,}(z)\), and13 KB (1,766 words) - 18:43, 30 July 2019
- : \( \mathrm{Factorial}(\mathrm{ArcFactorial}(z))=z\) However, \(\mathrm{Factorial}^{-1}(z)\) should not be confused with3 KB (414 words) - 18:26, 30 July 2019
- : \(h(F(z))=F(z\!+\!1)\) : \(h(F(z))-F(z\!+\!1)=0\)5 KB (798 words) - 18:25, 30 July 2019
- :$\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\! (1) ~ ~ ~ F(z\!+\!1)=T(F(z))$ :$\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\!\! (2) ~ ~ ~ \displaystyle F(z) = L+\sum_{n=1}^{N} a_n \varepsilon^n + o(\varepsilon^N)$ , where $\varepsi20 KB (3,010 words) - 18:11, 11 June 2022
- : \(\mathrm{SuperFactorial}(z)=\mathrm{Factorial}^z(3)\) : \(\mathrm{Factorial}(\mathrm{SuperFactorial}(z))=\mathrm{SuperFactorial}(z\!+\!1)\)18 KB (2,278 words) - 00:03, 29 February 2024
- : \(F(z\!+\!1)=h(F(z))\) for all \(z\in C \subseteq \mathbb C\).3 KB (519 words) - 18:27, 30 July 2019
- : \(G(T(z))=G(z)+1\) In certain range of values of \(z\), this equation is equivalent of the [[Transfer equation]]4 KB (547 words) - 23:16, 24 August 2020
- D.Kouznetsov. Analytic solution of F(z+1)=exp(F(z)) in complex z-plane. Mathematics of Computation, v.78 (2009), 1647-1670. : \((1) ~ ~ ~ ~ ~ F(z\!+\!1)=h(F(z))\)11 KB (1,644 words) - 06:33, 20 July 2020
- : \((1)~ ~ ~ ~ ~ G(T(z))=G(z)+1\) at least for \(z\) from some domain in the complex plane.4 KB (598 words) - 18:26, 30 July 2019
- ...}{r} \frac{\partial u_r}{\partial \phi} + u_z \frac{\partial u_r}{\partial z} - \frac{u_{\phi}^2}{r}\right) = ...^2}\frac{\partial^2 u_r}{\partial \phi^2} + \frac{\partial^2 u_r}{\partial z^2}-\frac{u_r}{r^2}-\frac{2}{r^2}\frac{\partial u_\phi}{\partial \phi} \righ7 KB (1,149 words) - 18:26, 30 July 2019
- :\( \exp(\ln(z))=z ~ ~\) for all from the range of definition; : \(\exp_b(z)=b^z\)4 KB (661 words) - 10:12, 20 July 2020
- :\(\mathrm{Nest}[f,z,c]\) where \(f\) is name of iterated function, \(z\) is initial value of the argument, and \(c\) is number of iterations.3 KB (438 words) - 18:25, 30 July 2019
- | doi= 10.1007/s00340-005-2083-z | doi= 10.1007/s00340-005-2083-z15 KB (2,106 words) - 13:37, 5 December 2020
- ...plied Physics B 82 (3): 363–366.(2006). <!-- doi:10.1007/s00340-005-2083-z !--> ...agnet traps, [[Ioffe configuration trap]]s, [[QUIC trap]]s and others. The z-type trap shown in the picture happened to be to easy to manufacture and ef9 KB (1,400 words) - 18:26, 30 July 2019
- ...has translational symmetry in two directions (say <math>y</math> and <math>z</math>), such that only a single coordinate (say <math>x</math>) is importa16 KB (2,453 words) - 18:26, 30 July 2019
- D.Kouznetsov. Analytic solution of F(z+1)=exp(F(z)) in complex z-plane. Mathematics of Computation 78 (2009), 1647-1670. : \( \mathrm{ate}_b(\mathrm{tet}_b(z))=z \)7 KB (1,091 words) - 23:03, 30 November 2019
- ...cally analytic function with hyperbolic fixpoint at \(0\), i.e. \(f(z)=c_1 z + c_2z^2 + \dots\), \(|c_1|\neq 0,1\), there is always a locally analytic a <math>\sigma(f(z))=c_1 \sigma(z))\</math>4 KB (574 words) - 18:26, 30 July 2019
- main(){ int j,k,m,n; DB x,y, p,q, t; z_type z,c,d, cu,cd; DO(n,N1){y=Y[n]; z=z_type(x,y);3 KB (529 words) - 14:32, 20 June 2013
- // To call this function at complex argument z, type '''FSLOG(z)''' z_type z=z1-1.; z/=2.;5 KB (275 words) - 07:00, 1 December 2018
- ...(\mathbb Z\) is used to denote the set of integer numbers; \(m \in \mathbb Z\). \( \mathbb N \subset \mathbb Z\)7 KB (1,216 words) - 18:25, 30 July 2019
- ...C\), there is defined function \(f(z) \in \mathbb C\) such that for any \(z \in C\) there exist the derivative ...ystyle f'(z)= \lim_{t \rightarrow 0,~ t\in \mathbb C}~ \frac{f(z\!+\!t)-f(z)}{t}1 KB (151 words) - 21:08, 25 January 2021
- f'(z)= \frac{f(z)}{1+f(z)} ...nd then along the straight line (parallel to the real axis) to the point \(z\).27 KB (4,071 words) - 18:29, 16 July 2020
- ...nction." From MathWorld--A Wolfram Web Resource. </ref>, is solution \(W=W(z)\) of equations ...tyle \!\!\!\!\!\!\!\!\!\!\!\!\!\!\! (0\mathrm{a}) ~ ~ ~ W'= \frac{W}{(1+W)~z}\)8 KB (1,107 words) - 18:26, 30 July 2019
- In vicinity of the real axis (While \(|\Im(z)| \!<\! \pi\)), the [[Doya function]] can be expressed through the \mathrm{Doya}(z)=\mathrm{LambertW}\Big( z~ \mathrm{e}^{z+1} \Big)\)19 KB (2,778 words) - 10:05, 1 May 2021
- z_type ArcTania(z_type z) {return z + log(z) - 1. ;} z_type ArcTaniap(z_type z) {return 1. + 1./z ;}3 KB (480 words) - 14:33, 20 June 2013
- : \( \!\!\!\!\!\!\!\!\!\!\!\! (1) ~ ~ ~ F(z+1)=T(F(z)) \) : \( \!\!\!\!\!\!\!\!\!\!\!\! (2) ~ ~ ~ G(T(z))=G(z)+1 \)11 KB (1,565 words) - 18:26, 30 July 2019
- : \(\!\!\!\!\!\!\!\!\!\!\!\!\!(1) ~ ~ ~ \varphi(\varphi(z))=z\) ...) is assumed to be [[holomorphic function]] for some domain of values of \(z\).5 KB (750 words) - 18:25, 30 July 2019
- ...ot \</math>1/\sin(z)<math>); and \</math>\exp^2(z)\\]means <math>\exp(\exp(z))\</math>, but not \\[\exp(z)^2\\]and not <math>\exp(z^2)\</math>.</ref>.7 KB (1,006 words) - 18:26, 30 July 2019
- [[File:PowIteT.jpg|400px|thumb|Fig.1. Iterates of \(T(z)=z^2~\): \(~y\!=\!T^n(x)\!=\!x^{2^n}~\) for various \(n\)]] [[File:ExpIte4T.jpg|360px|thumb|Fig.3. Iterates of \(T(z)=\exp(z)~\): \(~y\!=\!T^n(x)\!=\!\exp^n(x)~\) ]]14 KB (2,203 words) - 06:36, 20 July 2020
- D.Kouznetsov. Analytic solution of F(z+1)=exp(F(z)) in complex z-plane. Mathematics of Computation, v.78 (2009), 1647-1670.2 KB (248 words) - 14:33, 20 June 2013
- : \(\exp(\mathrm{tet}(z))= \mathrm{tet}(z\!+\!1)\) ...on of the [[Transfer equation]] \( \mathrm{tet}(z\!+\!1)=\exp(\mathrm{tet}(z)) \).14 KB (1,972 words) - 02:22, 27 June 2020
- : \(f(f(z))=z!\) ...7/home.html D.Kouznetsov. Analytic solution of F(z+1)=exp(F(z)) in complex z-plane. Mathematics of Computation, v.78 (2009), 1647-1670.6 KB (312 words) - 18:33, 30 July 2019
- D^{-1} \mathrm {e}^{px}=\int_0^x \mathrm{e}^{pz} \mathrm d z ...\(u\) an \(v\) representable in form (6), and \(g(z)=\alpha u(z) + \beta v(z)\)9 KB (1,321 words) - 18:26, 30 July 2019
- : \(h(h(z))=z\) для некоторого домена значений \(z\).7 KB (381 words) - 18:38, 30 July 2019
- : \( \!\!\!(1) ~ ~ ~ T(f(z))=f(kz)\) : \(\!\!\!(2) ~ ~ ~ T(F(z))=F(z+1)\)5 KB (116 words) - 18:37, 30 July 2019
- Евгения Альбац. Кто вы, доктор Z? № 5 (274) от 18 февраля 2013 года.</ref>. Он состои ...ч активистов за компьютерами». Блогер doct-z — о создании глобального проекта по поис219 KB (3,034 words) - 19:23, 7 November 2021
- ...\(\exp(z)\) is evaluated with routine complex double Filog(complex double z) below z_type ArcTania(z_type z) {return z + log(z) - 1. ;}2 KB (258 words) - 10:19, 20 July 2020
- \(f=\mathrm{Filog}(z)\) is solution of the equation for base \(b\!=\!\exp(z)\).4 KB (572 words) - 20:10, 11 August 2020
- ...\!\!\! (1) \displaystyle ~ ~ ~ \exp(a~ \mathrm{tet_s}(z)) = \mathrm{tet}_s(z\!+\!1)\) ...ex half-line, except some facility of the negative part of the real axis \(z<-2\); the tetration should have the cutline there.5 KB (707 words) - 21:33, 13 July 2020
- ...-5718-09-02188-7/home.html D.Kouznetsov. (2009). Solutions of F(z+1)=exp(F(z)) in the complex plane.. Mathematics of Computation, 78: 1647-1670.</ref>. { int m,j,i; long double z1,z,xm,xl,pp,p3,p2,p1;108 KB (1,626 words) - 18:46, 30 July 2019
- T(F(z))=F(z+1) It is assumed that \(F(z)\) is holomorphic at least in the strip \(\Re(z)\le 1\), and6 KB (987 words) - 10:20, 20 July 2020
- | doi=10.1007/s00340-005-2083-z http://maps.google.com/maps?q=34.85,138.55&ie=UTF8&om=1&z=19&ll=35.657952,139.54128&spn=0.001077,0.002942&t=h12 KB (1,757 words) - 07:01, 1 December 2018
- // complex<double>FSEXP( complex <double> z) z_type fima(z_type z){ z_type c,e;9 KB (654 words) - 07:00, 1 December 2018
- : \( F(z)=z\cdot F(z\!-\!1)\) : \(\mathrm{Factorial}(z)=z!\)2 KB (59 words) - 18:33, 30 July 2019
- : \( \cos(\arccos(z))=z\) ...phic in the whole complex plane except the halflines \(z\!\le\! -1\) and \(z\!\ge\! 1\).5 KB (754 words) - 18:47, 30 July 2019
- : \(\displaystyle \mathrm {Cip}(z)=\frac{\cos(z)}{z}\) <!-- Complex map of function Cip is shown at right.!--> : \(\displaystyle \mathrm{Cip}(\mathrm{ArcCip}(z))=z\).8 KB (1,211 words) - 18:25, 30 July 2019
- z_type superfac0(z_type z){ int n; z_type s; z_type e=exp(k*z);1 KB (88 words) - 14:55, 20 June 2013
- z_type fracti(z_type z){ z_type s; int n; DB a[17]= s=a[16]/(z+19./(z+25./(z))); for(n=15;n>=0;n--) s=a[n]/(z+s);4 KB (487 words) - 07:00, 1 December 2018
- : \(\displaystyle \sin(z) = \frac{\exp(\mathrm i z)- \exp(-\mathrm i z)}{2~ \mathrm i}\) \(f=\arcsin(z)\) is holomorphic solution \(f\) of equation9 KB (982 words) - 18:48, 30 July 2019
- : \(\displaystyle \mathrm{coshc}(z)=\frac{\cosh(z)}{z}\) : \(\displaystyle \cosh(z)=\cos(\mathrm i z) = \frac{\mathrm e^z+\mathrm e^{-z} }{2}\)4 KB (509 words) - 18:26, 30 July 2019
- : \( \displaystyle \mathrm{cosc}(z)=\frac{\cos(z)}{z}\) : \(\displaystyle \mathrm{sinc}(z)=\frac{\sin(z)}{z}\)8 KB (1,137 words) - 18:27, 30 July 2019
- : \( \displaystyle \mathrm{cosc}(z)=\frac{\cos(z)}{z}\) : \( \displaystyle \mathrm{sinc}(z) = \frac{ \sin(z)}{z}\)4 KB (649 words) - 18:26, 30 July 2019
- : \(\!\!\!\!\!\!\!\!\! (4) ~ ~ ~ ~ \mathrm{cohc}(z)=\frac{\cosh(z)}{z}\); ...\!\!\!\! (5) ~ ~ ~ ~ \mathrm{cohc}'(z)=\frac{\sinh(z)}{z}-\frac{\cosh(z)}{z^2}\)4 KB (581 words) - 18:25, 30 July 2019
- ...{\cosh(z)}{z} ~,~\) \(~ ~ \displaystyle \mathrm{cosc}(z) = \frac{\cos(z)}{z}\) ...{\sinh(z)}{z} ~,~ \) \(~ ~ \displaystyle \mathrm{sinc}(z) = \frac{\sin(z)}{z} \)4 KB (495 words) - 18:47, 30 July 2019
- : \(\mathrm{acosq}(z)=\mathrm{acosc}\left( \mathrm e ^{\mathrm i \pi/4} \,z \right)\) main(){ int j,k,m,n; DB x,y, p,q, t; z_type z,c,d;4 KB (656 words) - 18:25, 30 July 2019
- // ArcCosc is [[inverse function]] of [[Cosc]]; \(\text{cosc}(z) = \cos(z)/z\). z_type cosc(z_type z) {return cos(z)/z;}1 KB (219 words) - 18:46, 30 July 2019
- : \(\text{acosqq}(z)=\text{acosq}(z)\, \tan\!\!\big( \text{acosq}(z) \big)\) : \(\text{acosq}(z)=\text{acosq}\big( \mathrm e ^{\mathrm i \pi /4}\, z \big)\)2 KB (216 words) - 18:26, 30 July 2019
- z_type acos(z_type z){ if(Im(z)<0){if(Re(z)>=0){return I*log( z + sqrt(z*z-1.) );}3 KB (436 words) - 18:47, 30 July 2019
- \(f=\mathrm{Acosc1}(z)\) is solution of equation : \( \displaystyle \mathrm{cosc}(f)=z\)6 KB (896 words) - 18:26, 30 July 2019
- : \( \mathrm{Factorial}(\mathrm{ArcFactorial}(z))=z\) However, \(\mathrm{Factorial}^{-1}(z)\) should not be confused with3 KB (376 words) - 18:26, 30 July 2019
- ...\!\!\!\!\!\ (2) ~ ~ ~ \Psi=\Psi( \vec x, z)=\exp(\mathrm i k z)\psi(\vec x,z)\) ...(2) into (1) and neglecting term with second derivative with respect to \(z\) gives3 KB (496 words) - 18:25, 30 July 2019
- ...al case, the particle propagates mainly along some coordinate, let it be \(z\), and the potential depends only on the transversal coordinates. ...\!\!\!\!\!\!\!\!\!\! (6) ~ ~ ~ \psi=\mathrm e ^{\mathrm i (c+\mathrm i s) z }\)15 KB (2,070 words) - 18:47, 30 July 2019
- J_0''(z)+ J_0'(z)/z+6 KB (913 words) - 18:25, 30 July 2019
- ...nc}(z)= \frac{\sin(z)}{z}~\), \(~~\mathrm{sinc}\big(\mathrm{asinc}(z)\big)=z\) : \( \displaystyle \mathrm{acosc}(z^*)= \mathrm{acosc}(z)^*\)4 KB (563 words) - 18:27, 30 July 2019
- ...is assumed, and it is supposed that mainly the particle propagates along \(z\) axis, and \(x\) is called the transversal coordinate.!--> ...psi= \psi(x,z)\) and \(\nabla\) differentiates with respect to \(x\) and \(z\).5 KB (743 words) - 18:47, 30 July 2019
- f''(z)+f(z)/z=f(z) K_0(z) = \exp(-z)\sqrt{\frac{\pi}{2z}} ~ \Big( 1+ O(1/z)\Big)3 KB (394 words) - 18:26, 30 July 2019
- solution \(f=f(z)\) of the Bessel equation f''+f'/z+f=0\)3 KB (445 words) - 18:26, 30 July 2019
- : \(\!\!\!\!\!\!\!\!\!\!\! (1) ~ ~ ~ z^2 f''(z) + z f'(z) + (z^2-\nu^2) f(z)=0\) : \(\!\!\!\!\!\!\!\!\!\!\! (2) ~ ~ ~ H_\nu(z)=J_\nu(z)+\mathrm i Y_\nu(z)\)3 KB (388 words) - 18:26, 30 July 2019
- : \(\!\!\!\! \mathrm{BesselJ1}(z)=J_1(z)= \mathrm{BesselJ}[1,z]\) f''(z)+f'(z)/z + (z^2\!-\!1)f(z) = 0\)3 KB (439 words) - 18:26, 30 July 2019
- z_type BesselJ0o(z_type z){ int n; z_type c,s,t; s=1.; c=1.; t=-z*z/4.; for(n=1;n<32;n++) {c/=0.+n*n; c*=t; s+=c;}2 KB (190 words) - 18:47, 30 July 2019
- // BesselJ[1,z] implementation: z_type BesselJ1o(z_type z){ int n; z_type c,s,t;2 KB (159 words) - 14:59, 20 June 2013
- \( \!\!\!\!\!\!\!\!\! (1) ~ ~ ~ f''(z)+f'(z)/z+(1-\nu/z^2)f(x) =0\) Due to singularity of the equation at \(z=0\), the regular solution should have specific behavior. This solution is c13 KB (1,592 words) - 18:25, 30 July 2019
- ...elj0.cin]] is also required for the evaluation of BesselY0(\(z\)) at \(\Re(z) < 0\). z_type BesselY0o(z_type z){ z_type q=z*z, L=log(z),c;4 KB (370 words) - 18:46, 30 July 2019
- [[BesselH0]]\((z)=H_0(z)\!=\)[[HankelH1]]\([0,z]\) is the [[Cylindric function]] H (called also the [[Hankel function]]) o : \(H_0(z)=J_0(z)+\mathrm i Y_0(z)\)4 KB (509 words) - 18:26, 30 July 2019
- The only two spatial coordinates \(Z\) and \(Y\) are used; and the letter \(Z\) is not necessary for the third spatial coordinate. There fore it is used ...!\!\!\!\!\!\!(2) ~ ~ ~ ~ Z=\mathrm{Serega}(z)=z+\mathrm i ~ \exp(\mathrm i z^*)\)12 KB (1,879 words) - 18:26, 30 July 2019
- z_type Serega(z_type z){ DB x,y, p,q, r,s,c; int n; x=Re(z); y=Im(z); z_type ArcSerega(z_type z){ DB x,y ,X,Y,X0,Y0, r,s,c, rc,rs, dX, dY; int n;1 KB (265 words) - 15:00, 20 June 2013
- ...on''' is nongolomorphic function \(\mathrm{Serega}\) of complex variable \(z\) such that : \(F(z)=x+\mathrm i ~ \exp(\mathrm i ~ z^*)\)5 KB (674 words) - 18:25, 30 July 2019
- ...\!\!\!\!\!\!\!\!(1) ~ ~ ~ ~ \mathrm{LogisticOperator}_s(z) = s\,z \,(1\!-\!z)\) where \(z\) is complex number and \(s\) is real number; usually it is assumed that \(7 KB (886 words) - 18:26, 30 July 2019
- z_type J(z_type z){ return .5-sqrt(.25-z/Q); } z_type H(z_type z){ return Q*z*(1.-z); }3 KB (364 words) - 07:00, 1 December 2018
- ...\!\!\!\!\!\! (1) ~ ~ ~ T(z)=\mathrm{LogisticOperator}_s(z)= s\, z\, (1\!-\!z)\) ...~ ~ \mathrm{ArcLogisticSequence}_s(T(z))= \mathrm{ArcLogisticSequence}_s(z)+1\)3 KB (380 words) - 18:25, 30 July 2019
- ...\!\!\!\!\!\!\!\!(1) ~ ~ ~ ~ \mathrm{LogisticOperator}_s(z) = s\,z \,(1\!-\!z)\) : \(\!\!\!\!\!\!\!\!\!\!\!(2) ~ ~ ~ ~ F(z\!+\!1)=T(F(z))\)6 KB (817 words) - 19:54, 5 August 2020
- f'(z)= \frac{f(z)}{1+f(z)} ...nd then along the straight line (parallel to the real axis) to the point \(z\).4 KB (610 words) - 10:22, 20 July 2020
- ...ler Institute of Quantum Electronics HPT E 16.3 Auguste-Piccard-Hof 1 8093 Zürich ...\!\!\!\! (1) ~ ~ ~ \mathrm{Keller}(z)=z+ \ln\!\Big(\mathrm e - \mathrm e^{-z}(\mathrm e-1) \Big)\)10 KB (1,479 words) - 05:27, 16 December 2019
