Vorlage:Cquote/Doku: Unterschied zwischen den Versionen
K
→Examples: subst:example for export
K (→Examples: subst:example for export) |
|||
Zeile 31: | Zeile 31: | ||
{{cquote|External success has to do with people who may see me as a model, or an example, or a representative. As much as I may dislike or want to reject that responsibility, this is something that comes with public success. It's important to give others a sense of hope that it is possible and you can come from really different places in the world and find your own place in the world that's unique for yourself.}}<!--This is a bad example, as it is illustrating use of the template in article text, not as a pull-quote!--> | {{cquote|External success has to do with people who may see me as a model, or an example, or a representative. As much as I may dislike or want to reject that responsibility, this is something that comes with public success. It's important to give others a sense of hope that it is possible and you can come from really different places in the world and find your own place in the world that's unique for yourself.}}<!--This is a bad example, as it is illustrating use of the template in article text, not as a pull-quote!--> | ||
;<code><nowiki>{{cquote|1=quote text}}</nowiki></code> (quote text contains an equal sign) | ;<code><nowiki>{{cquote|1=quote text}}</nowiki></code> (quote text contains an equal sign) | ||
{{cquote|1=The essential point, established by Lorentz, is that the equations of the electromagnetic field are not altered by a certain transformation (which I will call by the name of Lorentz) of the form | {{cquote|1=The essential point, established by Lorentz, is that the equations of the electromagnetic field are not altered by a certain transformation (which I will call by the name of Lorentz) of the form<sup id="refQLT1904"><small>[[#endnoteQLT1904|2]]</small></sup>: | ||
::<math>x^\prime = k\ell\left(x + \varepsilon t\right),t^\prime = k\ell\left(t + \varepsilon x\right),y^\prime = \ell y,z^\prime = \ell z, k = 1/\sqrt{1-\varepsilon^2}.</math>}} | ::<math>x^\prime = k\ell\left(x + \varepsilon t\right),t^\prime = k\ell\left(t + \varepsilon x\right),y^\prime = \ell y,z^\prime = \ell z, k = 1/\sqrt{1-\varepsilon^2}.</math>}} | ||