Orbital elements or Keplerian elements

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Author
ImJaviPerez@gmail.com
Last Updated
4 года назад
License
Creative Commons CC BY 4.0
Аннотация
Elliptical orbital elements or Keplerian elements
Tags
TikZ
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\documentclass[compress,9pt]{beamer} % TALK

\usepackage{pgfpages}
\author{ImJaviPerez}

%\setbeameroption{hide notes} % solo muestra la presentación.
%\setbeameroption{show only notes} % solo muestras las notas.
%\setbeameroption{show notes on second screen=right} % presentación el doble de ancha que contiene las diapositivas y las notas. 


\usepackage{tikz}   %TikZ is required for this to work.  Make sure this exists before the next line

\usepackage{tikz-3dplot} %requires 3dplot.sty to be in same directory, or in your LaTeX installation

%\usetikzlibrary{babel}



\begin{document}
	

	% Orbital elements or Keplerian elements
	\begin{frame}[fragile,label={frm:elipse+}]
		% 
		\begin{figure}[H]
			\centering
			\def\r{3.5}
			\pgfmathsetmacro{\inclination}{35}
			\pgfmathsetmacro{\nuSatellite}{55}
			\pgfmathsetmacro{\gammaAngle}{290}
			
			\tdplotsetmaincoords{70}{165}
			\begin{tikzpicture}[tdplot_main_coords]
			\onslide<1->{
				\fill (0,0) coordinate (O) circle (5pt) node[left =7pt] {$M_\oplus$};
				
				% Draw equatorial ellipse
				%\tdplotdrawarc[thin]{(0,0,0)}{\r}{-90}{205}{label={[xshift=-3.7cm, yshift=0.9cm]Equatorial plane}}{}
				%\tdplotdrawarc[dotted]{(0,0,0)}{\r}{205}{270}{}{}
				% Draw equatorial plane
				\draw[] (0,-\r,0) -- (\r,-\r,0)  node[below]{Equatorial plane} -- (\r,\r,0) -- (-\r,\r,0) -- (-\r,-0.65*\r,0);
				\draw[dotted] (-\r,-0.65*\r,0) -- (-\r,-\r,0) -- (0,-\r,0);
				
				% Draw ellipses intersection. Line of nodes
				\draw[dashed] (0,-1.3*\r,0) -- (0,1.3*\r,0) node[right] {Line of nodes};
				% Draw gamma direction
			}
			
			\onslide<2->{
				% Set gamma direction
				\tdplotsetcoord{Pg}{1.3*\r}{90}{\gammaAngle}
				\draw[->] (0,0,0) -- (Pg) node[anchor=east] {Direcc. de referencia $\boldsymbol{\gamma}$};
			}
			\onslide<1->{
				% Create a new rotated system in the center
				\tdplotsetrotatedcoords{0}{\inclination}{90}
				
				% Draw orbital ellipse
				\tdplotdrawarc[tdplot_rotated_coords,thin,blue]{(0,0,0)}{\r}{-125}{180}{label={[xshift=-5.7cm, yshift=-2.2cm]Orbital plane}}{}
				\tdplotdrawarc[tdplot_rotated_coords,dotted,blue]{(0,0,0)}{\r}{180}{235}{}{}
				
				
				% Define m position
				\pgfmathsetmacro{\omegaSatellite}{90}
				\pgfmathsetmacro{\xmRot}{\r*cos(\omegaSatellite+\nuSatellite)}
				\pgfmathsetmacro{\ymRot}{\r*sin(\omegaSatellite+\nuSatellite)}
				\pgfmathsetmacro{\zmRot}{0}
				% Draw a vector to m
				\draw[tdplot_rotated_coords,thin,->,blue] (0,0,0) -- (\xmRot,\ymRot,\zmRot);
				% Draw a mass
				\filldraw[tdplot_rotated_coords, blue] (\xmRot,\ymRot,\zmRot) circle (2pt) node[above left] {$m$};
			}
			\onslide<5->{
				% Draw periapsis line
				\draw[dashed,tdplot_rotated_coords,blue] (0,0,0) -- (0,\r,0) node[anchor=south west] {Periapsis};
			}
			\onslide<5->{
				% Draw omega angle
				\tdplotdrawarc[tdplot_rotated_coords,thick,-stealth,blue]{(0,0,0)}{0.4*\r}{0}{\omegaSatellite}{anchor=south west}{$\omega$}
				% Draw nu angle
				\tdplotdrawarc[tdplot_rotated_coords,thick,-stealth,blue]{(0,0,0)}{0.4*\r}{\omegaSatellite}{\omegaSatellite+\nuSatellite}{anchor=south west}{$\nu$}
			}
			\onslide<3->{
				% Create rotated shifted system at (0,\r,0)
				\tdplotresetrotatedcoordsorigin
				\tdplotsetrotatedcoords{0}{0}{180}
				% Draw \Omega
				% Hidden part of the arc
				%% \tdplotdrawarc[tdplot_rotated_coords,dashed,thick,brown]{(0,0,0)}{0.4*\r}{0}{90}{anchor=south}{}%{$\Omega$}
				% Visible part of the arc
				\tdplotdrawarc[tdplot_rotated_coords,thick,-stealth,brown]{(0,0,0)}{0.4*\r}{\gammaAngle-180}{270}{anchor=north east}{$\Omega$}
				% Shift the rotated coordinates
				\coordinate (Shift) at (0,\r,0);
				\tdplotsetrotatedcoordsorigin{(Shift)}
				% \draw[thick,tdplot_rotated_coords,->,blue] (0,0,0) -- (.5,0,0) node[anchor=north west]{$x_2$};
				% \draw[thick,tdplot_rotated_coords,->,blue] (0,0,0) -- (0,.5,0) node[anchor=north]{$y_2$};
				% \draw[thick,tdplot_rotated_coords,->,blue] (0,0,0) -- (0,0,.5) node[anchor=south west]{$z_2$};
			}
			\onslide<4->{
				% Draw inclination angle
				\tdplotsetrotatedthetaplanecoords{0}
				\tdplotdrawarc[tdplot_rotated_coords,thick,-stealth,brown]{(Shift)}{0.3*\r}{90}{90-\inclination}{anchor=west}{$i$}
			}
			\end{tikzpicture}
			\caption{Orbital elements or Keplerian elements}\label{fig:elipseNodos2}
		\end{figure}	
	\end{frame}
	
\end{document}