Estou tentando centralizar uma legenda de figura com várias linhas, mas não consigo. Quando tento separar as linhas da legenda com colchetes {}, funciona, exceto que as linhas da legenda estão invertidas. Estou anexando um MWE abaixo.
Além disso, como posso garantir que, mesmo separando as linhas da legenda, ela apareça no sumário?
Obrigado!
\documentclass[12pt, oneside]{article}
\usepackage{geometry}
\geometry{letterpaper}
\geometry{left=1.5in, right=1in, top=1in, bottom=1in}
\usepackage{amssymb}
\usepackage [english]{babel}
\usepackage [autostyle, english = american]{csquotes}
\MakeOuterQuote{"}
\usepackage{floatrow}
\usepackage{tabularx}
\newcolumntype{C}{>{\centering\arraybackslash}X}
\renewcommand\tabularxcolumn[1]{m{#1}}
\usepackage[title,titletoc,page,header]{appendix}
\renewcommand{\appendixpagename}{\centering Appendices}
\usepackage[nottoc]{tocbibind}
\usepackage{graphicx}
\graphicspath{ {Images/} }
\linespread{1.6}
\begin{document}
\listoffigures
\newpage
\indent X-ray generation is produced by inelastic collisions of the incident electrons with electrons in discrete orbitals of atoms in the sample. As excited electrons return to lower energy states, they yield x-rays that are of a fixed wavelength. These wavelengths are related to the difference in energy levels of electrons in different shells for a given element. This allows characteristic x-rays to be generated for each element in a material that is "excited" by the electron. One of the benefits of SEM analysis is that it is "non-destructive"; the x-rays generated by the electron interactions do not lead to volume loss of the sample, so it is possible to analyze materials repeatedly.
Figure 3 displays a typical SEM schematic.
\begin{figure}[ht] \centering
\includegraphics[scale=0.30]{SEMSchematic}
\caption{Typical SEM Schematic Displaying Electron Source, Focal Lenses, and}{Detectors}
\end{figure}
\end{document}
Responder1
Talvez seja isso que você deseja – última linha de legenda centralizada? Por outro lado, observe que normalmente, ao aumentar o espaçamento entre linhas, você não deseja aumentá-lo para notas de rodapé e legendas. O pacote set space cuida desses detalhes, então tomei a liberdade de carregá-lo e substituí-lo \linespreadpor \setstretch.
\documentclass[12pt, oneside]{article}
\usepackage{geometry}
\geometry{letterpaper}
\geometry{left=1.5in, right=1in, top=1in, bottom=1in}
\usepackage{amssymb}
\usepackage [english]{babel}
\usepackage [autostyle, english = american]{csquotes}
\MakeOuterQuote{"}
\usepackage{floatrow}
\usepackage{tabularx}
\newcolumntype{C}{>{\centering\arraybackslash}X}
\renewcommand\tabularxcolumn[1]{m{#1}}
\usepackage[title,titletoc,page,header]{appendix}
\renewcommand{\appendixpagename}{\centering Appendices}
\usepackage[nottoc]{tocbibind}
\usepackage[demo]{graphicx}
\graphicspath{ {Images/} }
\usepackage{caption}
\captionsetup{justification=centerlast}
\usepackage{setspace}
%\linespread{1.6}
\setstretch{1.6}
\begin{document}
\listoffigures
\newpage
\indent X-ray generation is produced by inelastic collisions of the incident electrons with electrons in discrete orbitals of atoms in the sample. As excited electrons return to lower energy states, they yield x-rays that are of a fixed wavelength. These wavelengths are related to the difference in energy levels of electrons in different shells for a given element. This allows characteristic x-rays to be generated for each element in a material that is "excited" by the electron. One of the benefits of SEM analysis is that it is "non-destructive"; the x-rays generated by the electron interactions do not lead to volume loss of the sample, so it is possible to analyze materials repeatedly.
Figure 3 displays a typical SEM schematic.
\begin{figure}[ht] \centering
\includegraphics[scale=0.30]{SEMSchematic}
\caption{Typical SEM Schematic Displaying Electron Source, Focal Lenses, and Detectors}
\end{figure}
\end{document}
