Diferencia entre revisiones de «Usuario:Javier»

${\displaystyle {\ddot {\psi }}+2\beta {\dot {\psi }}+w_{0}\psi =F_{0}cos\left(w_{0}t\right)</math<math>{\ddot {\psi }}_{c}+2\beta {\dot {\psi }}_{c}+w_{0}\psi _{c}=F_{c}}$

${\displaystyle \psi _{c}=\psi _{0}e^{iw_{0}t}}$

${\displaystyle {\dot {\psi _{c}}}=i\psi _{0}we^{iw_{0}t}}$

${\displaystyle {\ddot {\psi _{c}}}=-\psi _{0}w^{2}e^{iw_{0}t}}$

${\displaystyle (w_{0}^{2}-w^{2}+2\beta iw)\psi _{0}e^{iw_{0}t}=F_{c}}$

${\displaystyle (w_{0}^{2}-w^{2}+2\beta iw)\psi _{c}=F_{c}}$

${\displaystyle \psi _{c}={\frac {F_{0}e^{iwt}}{w_{0}^{2}-w^{2}+2\beta iw}}}$

${\displaystyle \psi _{c}\equiv {\frac {F_{0}}{w_{0}^{2}-w^{2}+2\beta iw}}}$

Error al representar (error de sintaxis): {\displaystyle \psi_{c}=\frac{F_{0}}{w_{0}^{2}-w^{2}+2\beta iw}\frac{(w_{0}^{2}-w^{2}+2\beta iw)}{(w_{0}^{2}-w^{2}+2\beta iw)}=\frac{F_{0}(w_{0}^{2}-w^{2}+2\beta iw)}{(w_{0}^{2}-w^{2})^{2}+4\beta^{2}w^{2}}

${\displaystyle \psi _{c}={\frac {F_{0}(w_{0}^{2}-w^{2})}{(w_{0}^{2}-w^{2})^{2}+4\beta ^{2}w^{2}}}-i{\frac {F_{0}2\beta w}{(w_{0}^{2}-w^{2})^{2}+4\beta ^{2}w^{2}}}=A_{0}e^{i\propto }}$

Error al representar (SVG (MathML puede ser habilitado mediante un plugin de navegador): respuesta no válida («Math extension cannot connect to Restbase.») del servidor «https://en.wikipedia.org/api/rest_v1/»:): \psi_{0}(w)=\frac{1}{\sqrt{(w_{0}^{2}-w^{2})^{2}+4\beta^{2}w^{2}}}<math>Escriba aquí una fórmula $

${\displaystyle \propto (w)=ArcTan({\frac {-2\beta w}{w_{0}^{2}-w^{2}}})}$