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- \(~q\!=\!\Im(f)\!=\! \mathrm{const}~\). The integer values correspond to the thi ...or \(b\!=\! 1.5\), \(\exp(1/\mathrm e)\) , \(\sqrt{2}\); \(p\!+\!\mathrm i q=\mathrm{tet}_b(x\!+\!\mathrm i y)\)21 KB (3,175 words) - 23:37, 2 May 2021
- z_type old0(z_type d){ z_type q=sqrt(d); return -1.0018 +(0.15128484821526975*(1.+33.04715298851381*q-3.51771875598067*d)*q)/6 KB (1,030 words) - 18:48, 30 July 2019
- #define bdpq {b=f(m,n+1);d=f(m+1,n+1);p=f(m,n);q=f(m+1,n);} {int M1=M+1,N1=N+1; DB b,d, p,q, x,y, B,D,P,Q; int mO=m,nO=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 plateau sn146 KB (19,835 words) - 18:25, 30 July 2019
- main(){ int j,k,m,n; DB x,y,z, p,q, t; fprintf(o,"1 setlinejoin 1 setlinecap\n"); q=800.;3 KB (564 words) - 18:33, 28 April 2023
- : \(\!\!\!\!\!\!\!\!\!\!\! (1) ~ ~ ~ \displaystyle P = P_0 Q \left( \left(\frac{t_0}{\tau-\tau_{\rm s}}\right)^{\!1/5} - \left(\frac{t_0 ...wer released at time \(\tau\) since the beginning of the chain reaction; \(Q=0.066\) and \(t_0\) are the fitting parameters. (For such a formula, it wou10 KB (1,441 words) - 18:44, 30 July 2019
- \( P = P_0 Q \left( \left(\frac{t_0}{\tau-\tau_{\rm s}}\right)^{\!1/5} - \left(\frac{t_0 \(Q=0.065\) and \(t_0=1\)секунда являются подгоночным16 KB (337 words) - 18:36, 30 July 2019
- For complex numbers <math>~p~</math> and <math>~q~</math>, such that <math>~p~</math> belongs to some connected domain <math> superfunction (from <math>p \mapsto q</math>) of [[holomorphic function]] <math>~T~</math> on domain <math>C \in25 KB (3,622 words) - 08:35, 3 May 2021
- DB Q=3; // void maq(DB q){3 KB (513 words) - 18:48, 30 July 2019
- : \(F(z\!+\!1)=2+q\varepsilon + a_2 q^2\varepsilon^25 KB (798 words) - 18:25, 30 July 2019
- ...) \displaystyle ~ ~ ~ ~ ~ F(z)=\frac{a+b z}{p+q z}~ ~, ~ ~\) where \(a,b,p,q\) are constants (for example, some complex numbers). : \((11) \displaystyle ~ ~ ~ ~ ~ G(z)=F^{-1}(z)=\frac{a- p z}{-b+q z}\)11 KB (1,644 words) - 06:33, 20 July 2020
- \mathcal L=u_k \left(q u_{k,0} + u_{k,j} u_j+ b_k\right)- \frac{\nu}{2} (u_{i,j}+u_{j,i})^2 ...3\) ; \(k\) and \(j\) and \(i\) take integer values from unity to \(3\); \(q\) is constant.5 KB (737 words) - 18:26, 30 July 2019
- Let <math>Q~</math> be the [[active laser medium|saturation intensity]],<ref name="uns" <math>P_{\rm k}=\eta_0\frac{R^2}{Q\beta^3}~</math>15 KB (2,320 words) - 14:31, 20 June 2013
- ...ory cell]] for the [[quantum computer]]. Ways of transferring atoms and/or q-bits between traps are under development; the adiabatic optical (with off-r9 KB (1,400 words) - 18:26, 30 July 2019
- \( p\!+\!\mathrm{i} q=\varphi(x\!+\!\mathrm{i} y) \) lines \( q=\Im(\varphi(z)) = \mathrm{const} \).7 KB (1,091 words) - 23:03, 30 November 2019
- main(){ int j,k,m,n; DB x,y, p,q, t; z_type z,c,d, cu,cd; p=Re(c); q=Im(c);3 KB (529 words) - 14:32, 20 June 2013
- // double q is maximal variation allowed per step p=2;q=1;2 KB (392 words) - 14:32, 20 June 2013
- b = (-1 + Exp[(-2*I)*q - 2*s])*(-1 + Exp[(2*I)*q - 2*s]) c = (-1 + (q - I*s)^2)*(-1 + (q + I*s)^2)12 KB (1,901 words) - 18:43, 30 July 2019
- ...eger numbers]] with certain class of equivalence. The character \(\mathbb {Q}\) is used to denote the set of rational numbers. In general, any rational or \(x=\mathbb{Q}(m,n)\)7 KB (1,216 words) - 18:25, 30 July 2019
- ...d each of then is expected to explode with small probability of order of \(q\) per year. Then one may expect of order of \(qN\) explosions per year; and ...hem (at Fukushima Daichi) had serious explosions; this gives an estimate \(q=3/(50 \mathrm{year})=0.06/\mathrm{year}\).9 KB (1,366 words) - 15:59, 22 October 2021
- {z_type u,w,t; int i,j,k,l,e=1,L,p,q,m; q=N/2; p=2; for(m=1;p<N;m++) p*=2;1 KB (238 words) - 14:33, 20 June 2013
- | \(t(z)=P(T( Q(z)))\) | \(~ g(z)=G(Q(z))\)11 KB (1,565 words) - 18:26, 30 July 2019
- ...the [[commutativity]]; in [[Quantum Mechanics]], such objects are called [[q-number]]s, to distinguish them from the924 bytes (142 words) - 14:33, 20 June 2013
- \( p\!+\!\mathrm i q=\varphi(z) \) <ref name="factorial">14 KB (1,972 words) - 02:22, 27 June 2020
- ...) \(\displaystyle\iint \mathrm dp ~\mathrm dq~ \exp(-i p x - i q y ) ~ f(p,q) \) ...\) \(\displaystyle\iint \mathrm dp ~\mathrm dq~ \exp(-i p x - i q y ) f(p,q) \)6 KB (954 words) - 18:27, 30 July 2019
- ...etical limit [[Active_mirror#Limit_of_power_scaling_for_disk_lasers|\(R^2/(Q \beta^3)\)]]8 KB (1,147 words) - 18:44, 30 July 2019
- ...magnetic wave packet that accelerate a particle of mass \(m\) and charge \(q\) (or a neutral particle with magnetic moment \(\mu\)) to velocity \(v\)?10 KB (1,625 words) - 18:44, 30 July 2019
- ...v \mathrm{e}^{q x} = u D^\alpha \mathrm{e}^{p x} + v D^\alpha \mathrm{e}^{q x} ~ \)?9 KB (1,321 words) - 18:26, 30 July 2019
- ...один вещественный параметр, жуковатость q. Этот параметр выражает десятичный логар14 KB (227 words) - 14:36, 20 June 2013
- | format= – <sup>[http://scholar.google.co.uk/scholar?hl=en&lr=&q=author%3A+intitle%3AScaling+laws+of+a+thin+disk+lasers&as_publication=Prepr |format= – <sup>[http://scholar.google.co.uk/scholar?hl=en&lr=&q=author%3A+intitle%3ABroadband+laser+materials+and+the+McCumber+relation&as_12 KB (1,757 words) - 07:01, 1 December 2018
- ...cCosq]]''' is expressed through [[ArcCosc]] of argument rotated for the '''Q'''uater of \(\pi\) phase, id est 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
- z_type acoscL(z_type z){ int n; z_type s,q; z*=-I; q=I*sqrt(1.50887956153832-z); s=q*1.1512978931181814 + 1.199678640257734; DO(n,6) s+= (z-cohc(s))/cohp(s);1 KB (219 words) - 18:46, 30 July 2019
- which is [[ArcCosc]] of argument rotated for the phase '''q'''uarter of \(\pi\). Namely this phase appears in the application for the [2 KB (216 words) - 18:26, 30 July 2019
- z_type acoscL(z_type z){ int n; z_type s,q; z*=-I; q=I*sqrt(1.50887956153832-z); s=q*1.1512978931181814 + 1.199678640257734; DO(n,6) s+= (z-cohc(s))/cohp(s);3 KB (436 words) - 18:47, 30 July 2019
- f(x)=\left\{ \begin{array}{ccc} \cos(px) &,& |x|\le d \\ r \exp\Big( q~ \big(|x|\!-\!d\big) \Big) &,& |x|\ge d ...(25) into (24) gives the equations for the complex parameters \(p\) and \(q\):15 KB (2,070 words) - 18:47, 30 July 2019
- ...displaystyle \int_0^W ~ J_0(s_p r)~ j_0(s_q r) ~r~ \mathrm d r = \delta_{p,q} \frac{W^2}{2} J_0'(s_p W)^2\) ...displaystyle \int_0^W ~ J_0(s r_q)~ j_0(s r_p) ~r~ \mathrm d r = \delta_{p,q} \frac{S^2}{2} J_0'(S\, r_p )^2\)6 KB (913 words) - 18:25, 30 July 2019
- z_type BesselY0o(z_type z){ z_type q=z*z, L=log(z),c; +q*( 0.17760601686906714209 - 0.15915494309189533577 *L //14 KB (370 words) - 18:46, 30 July 2019
- ...здействует на материальную точку массы \(q\) с координатами \(\vec y\) с силой : \(\displaystyle \vec F= G~ p~ q \frac{\vec y - \vec x}{|\vec y - \vec x|^3}\)25 KB (335 words) - 18:33, 30 July 2019
- {z_type u,w,t; int i,j,k,l,e=1,L,p,q,m; q=N/2; p=2; for(m=1;p<N;m++) p*=2;6 KB (1,032 words) - 18:48, 30 July 2019
- ...e simple and efficient implementation, \(N=2^q\) for some natural number \(q\). Note that the size of the arrays is for unity smaller than in the case o ...e simple and efficient implementation, \(N=2^q\) for some natural number \(q\). For the properties and the numerical implementation and the example, se3 KB (482 words) - 18:26, 30 July 2019
- ...e replaced with values calculated with the expression (1) above. For \(N=2^q\), the evaluation requires of order of \(Nq\) operations ...ementation is especially efficient for \(N=2^q\) for some natural number \(q\). The C++ implementation is stored in routines [[zfour1.cin]], [[zrealft.c10 KB (1,447 words) - 18:27, 30 July 2019
- ...(t),\dot q(t),t)\); dot means the derivative with respect to time \(t\); \(q\) are (generalized) coordinates. :\( S=\int_{a}^{b} L(q,\dot q, t) \mathrm d t \)10 KB (1,317 words) - 18:25, 30 July 2019
- ...cient implementation, it worth to keep \(N=1^q\) for some natural number \(q\). For this reasons, for some transforms, the required arrays have length \ For \(N=2^q\), the evaluation requires of order of \(Nq\) operations.10 KB (1,689 words) - 18:26, 30 July 2019
- ...e simple and efficient implementation, \(N=2^q\) for some natural number \(q\). Note that the size of the arrays is for unity smaller than in the case o5 KB (682 words) - 18:27, 30 July 2019
- // n is number of elements; \(n=2^q\) for some natural \(q\).2 KB (385 words) - 18:47, 30 July 2019
- ...e simple and efficient implementation, \(N=2^q\) for some natural number \(q\). Note that the size of the arrays is for unity smaller than in the case o However, at large \(q\), for \(N=2^q\) components, the routine above is significantly faster than the explicit s6 KB (825 words) - 18:25, 30 July 2019
- ...!\!\!\!\!\!\! (15) ~ ~ ~ ~ \dot x= -x_1 u -x_2 v = - r \omega \frac{c+kr}{q-(k r)^2}\) ...!\!\!\!\!\!\!\!\! (16) ~ ~ ~ ~ \dot y= -y_1 u - y_1 v= - r \omega \frac{s}{q-(k r)^2}\)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); r=exp(y); s=sin(x); c=cos(x); p=x-r*s; q=y+r*c; return z_type(p,q); }1 KB (265 words) - 15:00, 20 June 2013
- : "Если из высказывания P следует Q, и Q приятно, то P истинно."81 KB (1,075 words) - 22:59, 11 February 2020
- DB Q=3; // defaul void maq(DB q){3 KB (364 words) - 07:00, 1 December 2018
