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- \documentclass{article}
- \usepackage[utf8]{inputenc}
- \usepackage[english]{babel}
- \usepackage{amssymb,amsmath}
-
- \begin{document}
- \section{Simple equations on text}
- \label{sec:eq-text}
-
- Here you can see simple equations along with text $x$, $y$ and \(z\) are in math mode. This mode is known as \textbf{inline} mode and it is recommended to write short equations like: $-10 \leq x \leq 10$. Thus, if complex and long equations are required, it is recommended to use the equation environment.\par
-
- \section{Equation environment}
- \label{sec:environment}
-
- Here we can find a way to write long equations like \eqref{eq:fraction}:
- \begin{equation}
- \label{eq:fraction}
- f(t)=\sqrt{\frac{t-a}{t+a}}
- \end{equation}
- \noindent here $t$ is time in seconds.
-
- More complex equations can be written using symbols and commands from math-mode. An example is the Fourier coefficients equations \eqref{eq:a0},\eqref{eq:an} and \eqref{eq:bn}:
- \begin{align}
- a_0&=\frac{1}{T}\int_0^T f(t)dt \label{eq:a0}\\
- a_n&=\frac{2}{T}\int_0^T f(t)\cdot \cos{\left(\frac{2\pi nt}{T}\right)}dt \label{eq:an}\\
- b_n&=\frac{2}{T}\int_0^T f(t)\cdot \sin{\left(\frac{2\pi nt}{T}\right)}dt \label{eq:bn}
- \end{align}
-
- Previous equations are used to define the Fourier series as:
- \begin{equation}
- \label{eq:fourier}
- g(t)=a_0+\sum_{m=1}^{\infty}a_m \cos{\left(\frac{2\pi mt}{T}\right)}++\sum_{m=1}^{\infty}b_n \sin{\left(\frac{2\pi nt}{T}\right)}
- \end{equation}
-
- \begin{equation}
- A=
- \begin{pmatrix}
- a & b& c\\
- d & e &f
- \end{pmatrix}
- \end{equation}
- \end{document}
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