LaTeX introduktion
I forumet så blir:
[tex]\mathbf{B}(\mathbf{r},t)=-\frac{\mu_0q}{4\pi}\left[\frac{c\,\hat{\mathbf{n}}\times \vec{\beta}}{\gamma^2R^2(1-\vec{\beta}\mathbf{\cdot}\hat{\mathbf{n}})^3}+ \frac{\hat{\mathbf{n}}\times[\,\dot{\vec{\beta}}+\hat{\mathbf{n}}\times(\vec{\beta} \times\dot{\vec{\beta}})]}{R\,(1-\vec{\beta}\mathbf{\cdot}\hat{\mathbf{n}})^3} \right]_{\mathrm{retarded}} \qquad (1)[/tex]
I wikin så blir:
<math>\mathbf{B}(\mathbf{r},t)=-\frac{\mu_0q}{4\pi}\left[\frac{c\,\hat{\mathbf{n}}\times \vec{\beta}}{\gamma^2R^2(1-\vec{\beta}\mathbf{\cdot}\hat{\mathbf{n}})^3}+ \frac{\hat{\mathbf{n}}\times[\,\dot{\vec{\beta}}+\hat{\mathbf{n}}\times(\vec{\beta} \times\dot{\vec{\beta}})]}{R\,(1-\vec{\beta}\mathbf{\cdot}\hat{\mathbf{n}})^3} \right]_{\mathrm{retarded}} \qquad (1)</math>)
- Till:
Inmatning | Resultat |
---|---|
[tex]\sqrt{2}[/tex] | |
[tex]e^{i + \pi} + 1 = 0[/tex] | |
[tex]\frac{1}{\sqrt{2}}[/tex] | |
[tex]\int \limits_a ^b f(x)d[/tex] |