From c34b47089a133e58032fe4ea52f61efacaf5f548 Mon Sep 17 00:00:00 2001 From: Juan Marin Noguera Date: Sun, 4 Dec 2022 22:49:17 +0100 Subject: Oops --- mne/n2.lyx | 18 +++++++++--------- 1 file changed, 9 insertions(+), 9 deletions(-) (limited to 'mne/n2.lyx') diff --git a/mne/n2.lyx b/mne/n2.lyx index 44b1b3a..8e04b88 100644 --- a/mne/n2.lyx +++ b/mne/n2.lyx @@ -106,7 +106,7 @@ paso \end_inset con -\begin_inset Formula $t_{i}:=a+hi$ +\begin_inset Formula $t_{i}\coloneqq a+hi$ \end_inset , aunque esto se suele calcular como @@ -134,11 +134,11 @@ El método de Euler \series default viene dado por -\begin_inset Formula $\omega_{0}:=x_{0}$ +\begin_inset Formula $\omega_{0}\coloneqq x_{0}$ \end_inset y -\begin_inset Formula $\omega_{i+1}:=\omega_{i}+hf(t_{i},\omega_{i})$ +\begin_inset Formula $\omega_{i+1}\coloneqq \omega_{i}+hf(t_{i},\omega_{i})$ \end_inset . @@ -204,7 +204,7 @@ Teorema de convergencia del método de Euler: \end_inset , -\begin_inset Formula $h:=\frac{b-a}{n}$ +\begin_inset Formula $h\coloneqq \frac{b-a}{n}$ \end_inset , @@ -241,7 +241,7 @@ con para dicho problema con redondeo, dado por \begin_inset Formula \[ -\left\{ \begin{aligned}\omega_{0} & \mid =x_{0}+\delta_{0},\\ +\left\{ \begin{aligned}\omega_{0} & :=x_{0}+\delta_{0},\\ \omega_{i+1} & :=\omega_{i}+hf(t_{i},\omega_{i})+\delta_{i+1}, \end{aligned} \right. @@ -258,7 +258,7 @@ con cada \end_inset , y -\begin_inset Formula $x_{i}:=x(t_{i})$ +\begin_inset Formula $x_{i}\coloneqq x(t_{i})$ \end_inset para cada @@ -451,7 +451,7 @@ Como \end_deeper \begin_layout Enumerate -\begin_inset Formula $y_{i}:=2\xi_{2i}-\omega_{i}$ +\begin_inset Formula $y_{i}\coloneqq 2\xi_{2i}-\omega_{i}$ \end_inset es un método de paso fijo @@ -517,11 +517,11 @@ El método de Euler es el método de Taylor de orden 1. \begin_layout Standard Dado un método de paso fijo de la forma -\begin_inset Formula $\omega_{0}:=\alpha$ +\begin_inset Formula $\omega_{0}\coloneqq \alpha$ \end_inset , -\begin_inset Formula $\omega_{i+1}:=\omega_{i}+hØ(t_{i},\omega_{i})$ +\begin_inset Formula $\omega_{i+1}\coloneqq \omega_{i}+hØ(t_{i},\omega_{i})$ \end_inset , llamamos -- cgit v1.2.3