¿Cómo puedo alinear esta ecuación a la izquierda?
\begin{equation}
\beta_1=(n_{20}+n_{02})
\\
\beta_2={(n_{20}-n_{02})^2}+4{n_{11}}^2
\\
\beta_3={(n_{30}-3n_{12})^2}+{(3n_{21}-n_{03})^2}
\\
\beta_4={(n_{30}+n_{12})^2}+{(n_{21}-n_{03})^2}
\\
\beta_5=(n_{30}-3n_{12})(n_{30}+n_{12})[{(n_{30}+n_{12})^2}-3{(n_{21}+n_{03})^2}]+(3n_{21}-n_{03})(n_{21}+n_{03})[3{(n_{30}+n_{12})^2}-{(n_{21}+n_{03})^2}
\\
\beta_6=(n_{20}-n_{02})[{(n_{30}+n_{12})^2}-{(n_{21}+n_{03})^2}]+4n_{11}(n_{30}+n_{12})(n_{21}+n_{03})
\\
\beta_7=(3n_{21}-n_{03})(n_{30}+n_{12})[{(n_{30}+n_{12})^2}-3{(n_{21}+n_{03})^2}]-(n_{30}+3n_{12})(n_{21}+n_{03})[3{(n_{30}+n_{12})^2}-{(n_{21}+n_{03})^2}]
\label{Eq:momentsHU}
\end{equation}
Respuesta1
No puede funcionar: equationes para ecuaciones unilineales. Utilice aligneddesde amsmath, están aligneddentro equation, si desea solo un número de ecuación. Las ecuaciones más largas deberán dividirse nuevamente, lo que puedes hacer, por ejemplo, con multlined:
\documentclass[a4paper, 11pt]{book}
\usepackage[utf8]{inputenc}
\usepackage[showframe]{geometry}
\usepackage{mathtools}
\begin{document}
\begin{equation}
\begin{aligned}
\beta_1 & =(n_{20}+n_{02})
\\
\beta_2 & ={(n_{20}-n_{02})^2}+4{n_{11}}^2
\\
\beta_3 & ={(n_{30}-3n_{12})^2}+{(3n_{21}-n_{03})^2}
\\
\beta_4 & ={(n_{30}+n_{12})^2}+{(n_{21}-n_{03})^2}
\\
\beta_5 & =\!\begin{multlined}[t]
(n_{30}-3n_{12})(n_{30}+n_{12})[{(n_{30}+n_{12})^2}-3{(n_{21}+n_{03})^2}]
\\+(3n_{21}-n_{03})(n_{21}+n_{03})[3{(n_{30}+n_{12})^2}-{(n_{21}+n_{03})^2}
\end{multlined}
\\
\beta_6 & =(n_{20}-n_{02})[{(n_{30}+n_{12})^2}-{(n_{21}+n_{03})^2}]+4n_{11}(n_{30}+n_{12})(n_{21}+n_{03})
\\
\beta_7 & =\!\begin{multlined}[t]
(3n_{21}-n_{03})(n_{30}+n_{12})[{(n_{30}+n_{12})^2}-3{(n_{21}+n_{03})^2}]\\ -(n_{30}+3n_{12})(n_{21}+n_{03})[3{(n_{30}+n_{12})^2}-{(n_{21}+n_{03})^2}]
\end{multlined}
\label{Eq:momentsHU}
\end{aligned}
\end{equation}
\end{document}
Respuesta2
Simplemente lo configuraría usando align*(incluirlo \usepackage{amsmath}en su preámbulo) y dividiría las líneas largas en las ubicaciones apropiadas. Puedes considerar usar flalign*también:
\documentclass{article}
\usepackage{amsmath}
\begin{document}
\begin{align*}
\beta_1 &= (n_{20} + n_{02}) \\
\beta_2 &= (n_{20} - n_{02})^2 + 4 n_{11}^2 \\
\beta_3 &= (n_{30} - 3n_{12})^2 + (3n_{21} - n_{03})^2 \\
\beta_4 &= (n_{30} + n_{12})^2 + (n_{21} - n_{03})^2 \\
\beta_5 &= (n_{30} - 3n_{12})(n_{30} + n_{12})[(n_{30} + n_{12})^2 - 3(n_{21} + n_{03})^2] + {} \\
&\phantom{{}={}} \qquad (3n_{21} - n_{03})(n_{21} + n_{03})[3(n_{30} + n_{12})^2 - (n_{21} + n_{03})^2 \\
\beta_6 &= (n_{20} - n_{02})[(n_{30} + n_{12})^2 - (n_{21} + n_{03})^2] + 4n_{11}(n_{30} + n_{12})(n_{21} + n_{03}) \\
\beta_7 &= (3n_{21} - n_{03})(n_{30} + n_{12})[(n_{30} + n_{12})^2 - 3(n_{21} + n_{03})^2] - {} \\
&\phantom{{}={}} \qquad (n_{30} + 3n_{12})(n_{21} + n_{03})[3(n_{30} + n_{12})^2 - (n_{21} + n_{03})^2]
\end{align*}
\end{document}
Respuesta3
Esta es más o menos la misma pregunta queAlinear la ecuación a la izquierda. Puedes usar el flalignentorno o cargar el tuyo documentclasscon la fleqnopción.