LaTeX Example

Mon, 01 Jan 0001 00:00:00 +0000

Tables:

LaTeX Source

\documentclass[11pt]{beamer}
\usepackage{amssymb}
\usepackage{threeparttable}
\usepackage{booktabs}
%\usepackage{caption}
\usepackage{siunitx}
\setlength{\tabcolsep}{12pt}
\usepackage{tabularray}
\usepackage{multirow}
\usepackage{multicol}
\usepackage{float}
\setbeamertemplate{navigation symbols}{}
\geometry{paperwidth=21cm,paperheight=15cm}
\setbeamersize{text margin left=15pt,text margin right=2cm, sidebar width left=0pt,sidebar width right=10pt,}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\begin{document}
\begin{frame}
% {\renewcommand{\arraystretch}{0.75}
\begin{table}[hbt!]
\centering
\caption{\label{table1} Geometrical properties of Bean and Cassini curves}
\begin{tabular}{ rcc }
\toprule[0.07cm]
\midrule
\texttt{Properties} & \texttt{Bean curves} & \texttt{Cassini ovals}\\
\midrule
\texttt{\textit{Intercepts:}} & $ (0,~0 ) $, $ (0,~ a_{1}^2)$ & $ (\pm\sqrt{a_{2}^2\pm b_{2}^2},~0 ) $, $ (0,~\pm\sqrt{b_{2}^2-a_{2}^2} ) $\\
% \hline
\rule{0pt}{8ex}
\multirow[c]{2}{*}{\texttt{\textit{Extrema:}}} & $ (0,~ a_{1}^2) $, $\bigg(\pm\sqrt{\dfrac{a_{1}^{2}b_{1}^{3}(b_{1}-2a_{1})}{16 (b_{1}-a_{1})^{2}}},~ \dfrac{a_{1} b_{1}^{2}}{4 (b_{1}-a_{1})}\bigg)^{*}$, & $\big(\pm\sqrt{a_{2}^{2}\pm b_{2}^{2}}, 0 \big) $, $ \big(0,~ \pm\sqrt{b_{2}^{2}-a_{2}^2}\big)^{*}$, \\&
$\bigg(\pm\sqrt{\dfrac{a_{1}^{2} b_{1}^{2}}{16}(1+2\sqrt{\dfrac{a_{1}}{b_{1}}})},~ \dfrac{a_{1} b_{1}}{4}\bigg)$ & $\bigg(\dfrac{\pm\sqrt{4 a_{2}^{4}-b_{2}^{4}}}{2 a_{2}},~ \pm\dfrac{b_{2}^2}{2 a_{2}}\bigg) $ \\
\rule{0pt}{8ex}
% \hline
\texttt{\textit{Symmetries:}} & $ x=0 $; $ (0,~0) $ & $ x=0 $; $ y=0 $; $ (0,0) $ \\
\rule{0pt}{8ex}
% \hline
\multirow[c]{3}{*}{\texttt{\textit{Loops:}}} & a single connected loop for $ (\pm a_{1}, ~ \pm b_{1}) $ & a single loop if $ a_{2} b_{2}$\\
\rule{0pt}{8ex}
% \hline
\texttt{\textit{Nodes:}} & $ (0,~\dfrac{a_{1}^{2}}{2}) $ if $ a_{1}=b_{1} $ & $ (0,0) $ if $ a_{2}=b_{2} $ \\
%\hline
\bottomrule[0.07cm]
\end{tabular}
\end{table}
% }
\end{frame}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\begin{frame}
\huge
\begin{table}[ht]
\caption{XYZ}
\centering
\begin{threeparttable}
\begin{tabular}{llllll}\toprule
\multicolumn{1}{c}{$ \sigma $ } &
\multicolumn{2}{c}{$\eta$}
\\
& $ Model(I) $ & $ Model(II) $ &
\\\midrule
0.0 & -5.12 & -2.0
\\\addlinespace
0.15 & -5.04507 & -1.92518
\\\addlinespace
10.0 & -10.3949 & -7.62391
\\\addlinespace
30.0 & -22.2524 & -21.375
\\\addlinespace
70.0 & -49.6698 & -55.0179
\\\bottomrule
\end{tabular}
\begin{tablenotes}
\item Eigenvalues $ \omega_0^2 $ and $ \omega_1^2 $ of Eq.(26) for $ r_0=1.1 $ and varying $ B $, for two string configuration
\end{tablenotes}
\end{threeparttable}
\end{table}
\end{frame}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\begin{frame}
\Huge
\begin{table}[]
\begin{tabular}{@{}clclccc@{}}
\toprule[0.07cm]
\midrule
\multicolumn{7}{c}{Apples} \\ \midrule
\multicolumn{2}{c}{A1} & \multirow{2}{*}{a1} & & \multicolumn{2}{c}{B1} & \multirow{2}{*}{b1} \\ \cmidrule(r){1-2} \cmidrule(lr){5-6}
\multicolumn{1}{l}{Q1} & Q2 & & & Q1 & Q2 & \\ \cmidrule(r){1-3} \cmidrule(l){5-7}
1 & \multicolumn{1}{c}{3} & 4 & & \multicolumn{1}{c}{a} & \multicolumn{1}{c}{b} & c \\
\multicolumn{1}{c}{00} & 22 & \multicolumn{1}{c}{08} & & v & h & \multicolumn{1}{c}{p} \\
% \cmidrule(r){1-3} \cmidrule(l){5-7}
\bottomrule[0.07cm]
\end{tabular}
\end{table}
\end{frame}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\begin{frame}{With width specified:}
\begin{center}
\begin{tabular}{ | l | l | l | p{5cm} |}
\hline
Day & Min Temp & Max Temp & Summary \\ \hline
Monday & 11C & 22C & A clear day with lots of sunshine.
However, the strong breeze will bring down the temperatures. \\ \hline
Tuesday & 9C & 19C & Cloudy with rain, across many northern regions. Clear spells
across most of Scotland and Northern Ireland,
but rain reaching the far northwest. \\ \hline
Wednesday & 10C & 21C & Rain will still linger for the morning.
Conditions will improve by early afternoon and continue
throughout the evening. \\
\hline
\end{tabular}
\end{center}
\end{frame}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\begin{frame}
\huge
\centering
\begin{tabular}{l*{6}{c}r}
Team & P & W & D & L & F & A & Pts \\
\hline
Manchester United & 6 & 4 & 0 & 2 & 10 & 5 & 12 \\
Celtic & 6 & 3 & 0 & 3 & 8 & 9 & 9 \\
Benfica & 6 & 2 & 1 & 3 & 7 & 8 & 7 \\
FC Copenhagen & 6 & 2 & 1 & 3 & 5 & 8 & 7 \\
\end{tabular}
\end{frame}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\begin{frame}{Rows spanning multiple columns}
\centering
\Large
\begin{tabular}{ |l|l| }
\hline
\multicolumn{2}{|c|}{Team sheet} \\
\hline
GK & Paul Robinson \\
LB & Lucas Radebe \\
DC & Michael Duberry \\
DC & Dominic Matteo \\
RB & Dider Domi \\
MC & David Batty \\
MC & Eirik Bakke \\
MC & Jody Morris \\
FW & Jamie McMaster \\
ST & Alan Smith \\
ST & Mark Viduka \\
\hline
\end{tabular}
\end{frame}
%%%%%%%%%%%%%%%%%%%%%%%%
\begin{frame}{Columns spanning multiple rows}
\centering
\Large
\begin{tabular}{ |l|l|l| }
\hline
\multicolumn{3}{ |c| }{Team sheet} \\
\hline
Goalkeeper & GK & Paul Robinson \\ \hline
\multirow{4}{*}{Defenders} & LB & Lucas Radebe \\
& DC & Michael Duburry \\
& DC & Dominic Matteo \\
& RB & Didier Domi \\ \hline
\multirow{3}{*}{Midfielders} & MC & David Batty \\
& MC & Eirik Bakke \\
& MC & Jody Morris \\ \hline
Forward & FW & Jamie McMaster \\ \hline
\multirow{2}{*}{Strikers} & ST & Alan Smith \\
& ST & Mark Viduka \\
\hline
\end{tabular}
\end{frame}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\begin{frame}{Spanning in both directions simultaneously}
\centering
\Huge
\begin{tabular}{cc|c|c|c|c|l}
\cline{3-6}
& & \multicolumn{4}{ c| }{Primes} \\ \cline{3-6}
& & 2 & 3 & 5 & 7 \\ \cline{1-6}
\multicolumn{1}{ |c }{\multirow{2}{*}{Powers} } &
\multicolumn{1}{ |c| }{504} & 3 & 2 & 0 & 1 & \\ \cline{2-6}
\multicolumn{1}{ |c }{} &
\multicolumn{1}{ |c| }{540} & 2 & 3 & 1 & 0 & \\ \cline{1-6}
\multicolumn{1}{ |c }{\multirow{2}{*}{Powers} } &
\multicolumn{1}{ |c| }{gcd} & 2 & 2 & 0 & 0 & min \\ \cline{2-6}
\multicolumn{1}{ |c }{} &
\multicolumn{1}{ |c| }{lcm} & 3 & 3 & 1 & 1 & max \\ \cline{1-6}
\end{tabular}
\end{frame}
\end{document}

Rendered Output

Circular Image Arrangement:

LaTeX Source

\documentclass[tikz]{standalone}
\usepackage{mwe,bm}
\usepackage{wrapfig}
\usepackage{stackengine}
\usetikzlibrary{tikzmark,fit,backgrounds,mindmap,decorations.text,shapes.callouts,arrows}
\usetikzlibrary {shapes.geometric}
\usetikzlibrary{shapes.geometric,decorations.pathmorphing,decorations.pathreplacing}
\renewcommand\familydefault\sfdefault
\tikzset{%
team/.cd,
image/.store in=\imagefile, name/.store in=\imagenamed,
member 1/.style={image=example-image, name=A},
member 2/.style={image=example-image, name=B},
member 3/.style={image=example-image, name=C},
member 4/.style={image=example-image, name=D},
member 5/.style={image=example-image, name=E},
member 6/.style={image=example-image, name=\textcolor{magenta}{F}},
member 7/.style={image=example-image, name=G},
/tikz/pics/team member/.style={code={
\tikzset{team/.cd, member #1/.try}%
\draw [very thick,draw=cyan, path picture={%
\node at (path picture bounding box.center)
{\includegraphics[width=0.6\linewidth]{\imagefile}};}]
circle [radius=0.5];%outer circle radius
\node [below, font=\sffamily\tiny\bfseries, text width=6em, align=center, circle, decorate, decoration={text along path}] at (0,0.5) {\imagenamed};
%\path [decorate, decoration={text along path, text={\imagenamed}, text align=center, reverse path, raise=-2pt}, font=\tiny](0,0.6) arc (90:-270:0.6cm);
}}
}
\begin{document}
\begin{tikzpicture}
\begin{scope}
\draw[ultra thick, draw=lime, fill=lime!10] (0,0.0) circle (3.0cm);
\foreach \i in {1,...,7}
\pic at (\i*51+40:2) {team member=\i};
\draw[ultra thick, draw=red] (0,0.0) circle (1.1cm);% red circle
\clip (0,0.0) circle (1.0cm); %inner circle radius
\node at (0,0.0) {\includegraphics[width=0.4\linewidth]{example-image-a}};
\end{scope}
\end{tikzpicture}
\end{document}

Rendered Output

Gantt Chart:

LaTeX Source

\documentclass[tikz]{standalone} % Creates a standalone PDF with tight bounding box
\usepackage{pgfgantt} % Core package for Gantt charts
\usetikzlibrary{shadows}
\usepackage[dvipsnames]{xcolor} % Extended color definition
\definecolor{BlueGreen}{RGB}{0, 154, 166}
\definecolor{groupblue}{RGB}{51,102,254}
\definecolor{orange}{HTML}{FF7F00}
\definecolor{RubineRed}{RGB}{204, 0, 102}%0-255
% \definecolor{RubineRed}{rgb}{0.8, 0.0, 0.4}%0-1
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\begin{document}
\begin{ganttchart}[
% Chart dimensions and grid
canvas/.append style={fill=none, draw=black!5, line width=.75pt,dashed},
hgrid style/.style={draw=black!15, line width=.75pt, dashed},
vgrid={*1{draw=black!5, line width=.75pt}},
% y unit title = 1cm,
% y unit chart = 0.6cm,
today=6,
today label=$\frac{1}{2}$ Year,
today rule/.style={
draw=black!70,
dotted,
% dash pattern=on 3.5pt off 4.5pt,
line width=1.5pt
},
% today label font=\small\bfseries,
title/.style={draw=none, fill=none},
% title label font=\bfseries\footnotesize,
title label node/.append style={below=1pt},
include title in canvas=false,
% bar label font=\mdseries\small\color{black!70},
bar label node/.append style={left=0.5cm},
bar/.append style={draw=BlueGreen, fill=lime,rounded corners=2mm},
bar incomplete/.append style={fill=orange,rounded corners=2pt},
% bar progress label font=\mdseries\footnotesize\color{black!70},
group/.append style={draw=BlueGreen, fill=lime,rounded corners=1mm,drop shadow},
group incomplete/.append style={fill=groupblue,rounded corners=1mm},
group left shift=0,
group right shift=0,
group height=.5,
group peaks tip position=0,
group label node/.append style={left=0.5cm,fill=groupblue!20,rounded corners=2mm, drop shadow},
milestone/.append style={fill=BlueGreen,rounded corners=0.5mm},
milestone label node/.style={left=0.5cm},
% group progress label font=\bfseries\small,
link/.style={-to, %line width=1.5pt,
RubineRed, rounded corners=1mm, very thick},
% link label font=\tiny\color{white},
link label node/.append style={below left=-2pt and 0pt}
]{1}{12}
\gantttitle[
title label node/.append style={below left=1pt and 0pt}
]{\textbf{Months:}\quad1}{1}
\gantttitlelist{2,...,12}{1} \\
\ganttgroup[progress=19]{OBJECTIVE$\mathbf{-1}$ \& $\mathbf{-2}$}{1}{5} \\
\ganttmilestone[name=1A]{Project Setup}{0} \\
\ganttbar[
progress=40,
name=1B
]{Literature Review}{1}{4} \\
\ganttbar[
progress=50,
name=1C
]{Setup Computational Frameworks}{1}{1} \\
\ganttbar[
progress=80,
name=1D
]{Benchmark Numerical Methods}{1}{2}\\
\ganttbar[
progress=20,
name=1E
]{Obj.1a}{2}{4}\\
\ganttbar[
progress=0,
name=1F
]{Obj. 1b}{2}{4} \\
\ganttbar[
progress=0,
name=1G
]{Obj. 1 \& 2a}{2}{4} \\
\ganttbar[
progress=0,
name=1H
]{Obj. 2b}{3}{5}\\
\ganttlink[link bulge=0.5]{1A}{1B}
\ganttlink[
link type=s-s,
link label node/.append style=right
]{1B}{1C}
\ganttlink{1C}{1D}
\ganttlink[
link label node/.append style=right,
link bulge=0.5,
link mid=0.5
]{1D}{1E}
\ganttlink[
link label node/.append style=right,
link bulge=0.5,
link mid=0.25
]{1D}{1F}
\ganttlink[
link label node/.append style=right,
link bulge=0.5,
link mid=0.16
]{1D}{1G}
\ganttlink{1G}{1H}
\ganttbar[progress=0, name=1I]{\textit{Manuscript Preparation \& Submission}}{3}{6}\\
\ganttbar[progress=0,name=1J]{\textit{Present findings in conferences \& workshops}}{3}{9}
\ganttlink[
link label node/.append style=right,
link bulge=0.4,
link mid=0.5
]{1H}{1I}
\ganttlink[
link label node/.append style=right,
link bulge=0.4,
link mid=0.25
]{1H}{1J}
\\[grid]
\ganttgroup[progress=4]{OBJECTIVE$\mathbf{-3}$}{3}{8} \\
\ganttbar[progress=20,name=2A]{Literature Review}{3}{7} \\
\ganttbar[progress=0,name=2B]{Obj. 3a}{3}{6} \\
\ganttbar[progress=0,name=2C]{Obj. 3b}{4}{6} \\
\ganttbar[progress=0,name=2D]{Obj. 3c}{5}{7}\\
\ganttlink[
link type=s-s,
link label node/.append style=right,
]{2A}{2B}
\ganttlink{2B}{2C}
\ganttlink{2C}{2D}
\ganttlink[
link label node/.append style=right,
link bulge=0.6,
link mid=0.37
]{1D}{2B}
\ganttbar[progress=0,name=2E]{\textit{Manuscript Preparation \& Submission}}{6}{8}
\ganttlink{2D}{2E}
\\[grid]
\ganttgroup[progress=2]{OBJECTIVE$\mathbf{-4}$}{4}{9} \\
\ganttbar[progress=10,name=3A]{Literature Review}{4}{8} \\
\ganttbar[progress=0,name=3B]{Obj. 4a}{4}{4} \\
\ganttbar[progress=0,name=3C]{Obj. 4b}{5}{8} \\
\ganttbar[progress=0,name=3D]{\textit{Manuscript Preparation \& Submission}}{7}{9}\\
\ganttbar[progress=0,name=3E]{\textit{Present findings in conferences \& workshops}}{7}{11}
\ganttlink[
link type=s-s,
link label node/.append style=right
]{3A}{3B}
\ganttlink{3B}{3C}
\ganttlink[
link label node/.append style=right,
link bulge=0.5,
link mid=0.5
]{3C}{3D}
\ganttlink[
link label node/.append style=right,
link bulge=0.5,
link mid=0.25
]{3C}{3E}
\end{ganttchart}
\end{document}

Rendered Output

Curvature using Tikz:

LaTeX Source

\documentclass{standalone}
\usepackage{tikz,graphics}
\usetikzlibrary{optics, arrows.meta}
\usetikzlibrary{decorations.markings, fpu, decorations.pathreplacing, decorations.text, decorations.footprints, calc}
%%%%%%%%%%%%%%
\begin{document}
\begin{tikzpicture}[use optics, scale=.45, /pgf/fpu/install only={reciprocal}]
\draw [line width=0.25mm,rounded corners, fill=orange, fill opacity=0.1](-7,-4) rectangle (7,4);
\node[mirror, black, ultra thick, label={[label distance=0.25cm, blue]north: \footnotesize \textbf{Flat}}, label={[label distance=0.25cm, blue]south: $\kappa =0$}] (S) at (0,0) {};
\node[spherical mirror, spherical mirror angle=60, spherical mirror type=concave, black, ultra thick, label={[label distance=0.25cm, blue]north: \footnotesize \textbf{Focusing}}, label={[label distance=0.25cm, blue]south: $\kappa <0$}
] (M) at (-5,0) {};
\node[spherical mirror, spherical mirror angle=60, spherical mirror type=convex, black, ultra thick, label={[label distance=0.25cm, blue]north: \footnotesize \textbf{Scattering}}, label={[label distance=0.25cm, blue]south: $\kappa >0$}%, draw mirror focus
] (M) at (5,0) {};
% \node[spherical mirror, object height=2cm, spherical mirror angle=3cm, draw mirror focus, draw mirror center={red}] (M) {};
\draw[put arrow={at=0.99,arrow=latex,style={red}}] (0,0) -- (-2cm,0cm);
\draw[put arrow={at=0.99,arrow=latex,style={red}}] (0,1) -- (-2cm,1cm);
\draw[put arrow={at=0.99,arrow=latex,style={red}}] (0,2) -- (-2cm,2cm);
\draw[put arrow={at=0.99,arrow=latex,style={red}}] (0,-1) -- (-2cm,-1cm);
\draw[put arrow={at=0.99,arrow=latex,style={red}}] (0,-2) -- (-2cm,-2cm);
\draw[put arrow={at=0.99,arrow=latex,style={red}}] (-4.7,0) -- (-6.7cm,0cm);
\draw[put arrow={at=0.99,arrow=latex,style={red}}] (-4.8,1) -- (-6.7cm,0.6cm);
\draw[put arrow={at=0.99,arrow=latex,style={red}}] (-5.2,2) -- (-6.7cm,1.25cm);
\draw[put arrow={at=0.99,arrow=latex,style={red}}] (-4.8,-1) -- (-6.7cm,-0.6cm);
\draw[put arrow={at=0.99,arrow=latex,style={red}}] (-5.2,-2) -- (-6.7cm,-1.25cm);
\draw[put arrow={at=0.99,arrow=latex,style={red}}] (4.7,0) -- (2.7cm,0cm);
\draw[put arrow={at=0.99,arrow=latex,style={red}}] (4.8,1) -- (2.7cm,1.3cm);
\draw[put arrow={at=0.99,arrow=latex,style={red}}] (4.8,-1) -- (2.7cm,-1.3cm);
\draw[put arrow={at=0.99,arrow=latex,style={red}}] (5.2,2) -- (2.7cm,2.7cm);
\draw[put arrow={at=0.99,arrow=latex,style={red}}] (5.2,-2) -- (2.7cm,-2.7cm);
\end{tikzpicture}
\end{document}

Rendered Output

\documentclass{standalone}
%Load necesary libraries
\usepackage{tikz}
\usetikzlibrary{fit, calc, decorations.markings}
\usepackage{geometry}
\geometry{paperwidth=17cm,paperheight=20.5cm}
\usepackage{amsthm,mathtools}
\usepackage{bm}% bold math
\usepackage{xcolor}
\definecolor{oneC}{RGB}{255,0,244}
\definecolor{twoC}{RGB}{0,238,255}
\begin{document}
% \begin{frame}[shrink=0]
\begin{tikzpicture}%[remember picture, overlay, shift={(8,-3)}]
%Define control points for the first S-shaped curve
\coordinate (start) at (-4, 0);
\coordinate (control1) at (6, -3);
\coordinate (middle) at (0, -7);
\coordinate (end1) at (-6, -11);
% Draw the first S-shaped curve
\draw(start) .. controls (control1) .. (middle) .. controls (middle) and (end1) .. (end1);
% Optional: Add labels to the control points for the first curve
% \filldraw [olive] (start) circle (3pt) node[left] {\LARGE Objectives};
%\filldraw [red] (control1) circle (2pt) node[left] {Control 1};
%\filldraw [red] (middle) circle (2pt) node[above] {Middle};
%\filldraw [red] (end1) circle (2pt) node[below] {End 1};
% Define control points for the second S-shaped curve
\coordinate (control3) at (8, -2.5);
\coordinate (middle2) at (4, -6.5);
\coordinate (end2) at (-3, -14);
% Draw the second S-shaped curve with an arrow at the end
\draw (start) .. controls (control3) .. (middle2) .. controls (middle2) and (end2) .. (end2);
% Optional: Add labels to the control points for the second curve
%\filldraw [blue] (control3) circle (2pt) node[right] {Control 3};
%\filldraw [blue] (middle2) circle (2pt) node[below] {Middle 2};
%\filldraw [blue] (end2) circle (2pt) node[above] {End 2};
%General coordinates
\coordinate (arrow1) at ($(end1) + (-1, +1)$);
\coordinate (arrow2) at ($(end2) + (+1, -1)$);
\coordinate (arrow3) at ($(arrow2) + (-5.3, 0)$);
% Optional: Add labels to the control points for the arrow head
%\filldraw [green] (arrow1) circle (2pt) node[below] {Arrow 1};
%\filldraw [green] (arrow2) circle (2pt) node[above] {Arrow 2};
%\filldraw [green] (arrow3) circle (2pt) node[above] {Arrow 3};
%Draw the arrow head
\draw (end1) -- (arrow1) -- (arrow3) -- (arrow2) -- (end2);
%Shade the region between the two curves
\begin{scope}
\shade[bottom color=oneC, top color=twoC, opacity=0.8]
(arrow3) -- (arrow2) -- (end2) -- (middle2) .. controls (control3) .. (start) .. controls (control1) .. (middle) .. controls (middle) and (end1) .. (end1) -- (arrow1) -- (arrow3) -- cycle;
\end{scope}
% Define control points for the curved path
\coordinate (pathControl) at ($(control1)!0.5!(control3)$);
\coordinate (pathMiddle) at ($(middle)!0.5!(middle2)$);
\coordinate (pathEnd) at (arrow3);
\coordinate (pathEnd2) at ($(end1)!0.5!(end2)$);
% Draw the curved path
%\filldraw [yellow] (pathControl) circle (2pt) node[below] {Path Control};
%\filldraw [yellow] (pathMiddle) circle (2pt) node[below] {Path Middle};
%\filldraw [yellow] (pathEnd) circle (2pt) node[below] {Path End};
%\filldraw [yellow] (pathEnd2) circle (2pt) node[below] {Path End2};
%\draw[red] (start) .. controls (pathControl) .. (pathMiddle) .. controls (pathMiddle) and (pathEnd) .. (pathEnd2);
%\draw[blue] (pathEnd2) -- (pathEnd);
% Draw ovals around the existing ovals with the same ratios
\draw[color=red, fill=black,fill opacity=1,line width=0.02cm] ($(start) + (0.806, -0.2)$) ellipse [x radius=0.098cm*1.575, y radius=0.0225cm*1.575];
% \draw[color=orange, fill=black,fill opacity=1, line width=0.02cm] ($(start) + (4.2, -1.074)$) ellipse [x radius=0.436cm*1.5, y radius=0.155cm*1.5];
\draw[color = magenta, fill=black,fill opacity=1, line width = 0.02cm] ($(start) + (6.85, -1.84)$) ellipse [x radius=0.77cm*1.3, y radius=0.27cm*1.3];
\draw[color = green, fill=black,fill opacity=1, line width = 0.02cm] ($(start) +(9.23, -3.55)$) ellipse [x radius=1.135cm*1.3, y radius=0.5cm*1.3];
\draw[color = cyan, fill=black,fill opacity=1, line width = 0.02cm] ($(start) + (7.31, -5.8)$) ellipse [x radius=1.22cm*1.3, y radius=0.65cm*1.3];
\draw[color = blue, fill=black,fill opacity=1,line width = 0.02cm] ($(start) + (5.02, -7.7)$) ellipse [x radius=1.72cm*1.25, y radius=0.75cm*1.25];
\draw[color = purple, fill=black,fill opacity=1,line width = 0.02cm] ($(start) + (2.1, -10.111)$) ellipse [x radius=2.36cm*1.2, y radius=0.95cm*1.2];
% Draw ovals at the starting point
\draw[color = black, fill = red, opacity = 0.8, line width=0.01cm] ($(start) + (0.806, -0.2)$) ellipse [x radius=0.098cm, y radius=0.0225cm];
% \draw[color = black, fill = orange, opacity = 0.8, line width=0.01cm] ($(start) + (4.2, -1.074)$) ellipse [x radius=0.436cm, y radius=0.155cm];
\draw[color = black, fill = magenta, opacity = 0.8, line width=0.01cm] ($(start) + (6.85, -1.84)$) ellipse [x radius=0.77cm, y radius=0.27cm];
\draw[color = black, fill = green, opacity = 0.8, line width=0.01cm] ($(start) + (9.23, -3.55)$) ellipse [x radius=1.135cm, y radius=0.5cm];
\draw[color = black, fill = cyan!90!blue, opacity = 0.8, line width=0.01cm] ($(start) + (7.31, -5.8)$) ellipse [x radius=1.22cm, y radius=0.65cm];
\draw[color = black, fill = blue, opacity = 0.8, line width=0.01cm] ($(start) + (5.02, -7.7)$) ellipse [x radius=1.72cm, y radius=0.75cm];
\draw[color = black, fill = purple, opacity = 0.8, line width=0.01cm] ($(start) + (2.1, -10.111)$) ellipse [x radius=2.36cm, y radius=0.95cm];
% Draw perpendicular lines going up 3cm
\draw[color = red, ultra thick, dashed, opacity = 1] ($(start) + (0.806, -0.2)$) -- ++(90:3.4cm) node[right, scale = 0.9, color = black] {\Large \textbf{CHAPTER}\bm{$-\mathrm{I}$}};
% \draw[color = orange, ultra thick, dashed, opacity = 1] ($(start) + (4.2, -1.074)$) -- ++(90:3.5cm) node[right, scale = 0.9, color = black] {\Large \textbf{CHAPTER}\bm{$-\mathrm{II}$}};
\draw[color = magenta, ultra thick, dashed, opacity = 1] ($(start) + (6.85, -1.84)$) -- ++(90:3.5cm) node[right, scale = 0.9, color = black] {\Large \textbf{CHAPTER}\bm{$-\mathrm{II}$}};
\draw[color = green!70!black, ultra thick, dashed, opacity = 1] ($(start) + (9.23, -3.55)$) -- ++(-90:3.5cm) node[right, scale = 0.9, color = black] {\Large \textbf{CHAPTER}\bm{$-\mathrm{III}$}};
\draw[color = cyan, ultra thick, dashed, opacity = 1] ($(start) + (7.31, -5.8)$) -- ++(-90:3.6cm) node[right, scale = 0.9, color = black] {\Large \textbf{CHAPTER}\bm{$-\mathrm{IV}$}};
\draw[color = blue, dashed, opacity = 1, ultra thick] ($(start) + (5.02, -7.7)$) -- ++(-90:4.6cm) node[right, scale = 0.9, color = black] {\Large \textbf{CHAPTER}\bm{$-\mathrm{V}$}};
\draw[color = purple, ultra thick, dashed, opacity = 1] ($(start) + (2.1, -10.111)$) -- ++(-90:4.5cm) node[right, scale = 0.9, color = black] {\Large \textbf{CHAPTER}\bm{$-\mathrm{VI}$}};
% Add text under the years
\node[right, color = red, scale = 1] (1) at ($(start) + (0.87, -0.2) + (90:2.8cm)$) {\LARGE Introduction};
\node[right, color = black, scale = 1] (2) at ($(start) + (0.87, -0.32) + (90:2.4cm)$) {\LARGE};
\node[right, color = orange, scale = 1] (3) at ($(start) + (4.27, -1.074) + (90:2.8cm)$) {\LARGE};
\node[right, color = orange, scale = 1] (4) at ($(start) + (4.27, -1.074) + (90:2.2cm)$) {\LARGE};
\node[right, color = magenta, scale = 1] (5) at ($(start) + (6.95, -1.84) + (90:2.8cm)$) {\LARGE lkj-hgf};
\node[right, color = magenta, scale = 1] (6) at ($(start) + (6.95, -1.84)+ (90:2.2cm)$) {\LARGE};
\node[right, color = magenta, scale = 1] (7) at ($(start) + (6.95, -1.84) + (90:1.8cm)$) {\LARGE};
\node[right, color = green!69!black, scale = 1] (8) at ($(start) + (9.38, -3.55) + (-90:2.2cm)$) {\LARGE abc};
\node[right, color = green!69!black, scale = 1] (9) at ($(start) + (9.38, -3.55) + (-90:2.8cm)$) {\LARGE xyz};
\node[right, color = cyan, scale = 1] (10) at ($(start) + (7.36, -5.8) + (-90:1.8cm)$) {\LARGE abc-xyz};
\node[right, color = cyan, scale = 1] (11) at ($(start) + (7.36, -5.8) + (-90:2.4cm)$) {\LARGE 123};
\node[right, color = cyan, scale = 1] (12) at ($(start) + (7.36, -5.8) + (-90:3cm)$) {\LARGE };
\node[right, color = blue, scale = 1] (13) at ($(start) + (5.09, -7.7) + (-90:2.8cm)$) {\LARGE mnb};
\node[right, color = blue, scale = 1] (14) at ($(start) + (5.09, -7.7) + (-90:3.4cm)$) {\LARGE poi};
\node[right, color = blue, scale = 1] (15) at ($(start) + (5.09, -7.7) + (-90:4cm)$) {\LARGE };
\node[right, color = purple, scale = 1] (16) at ($(start) + (2.25, -10.111) + (-90:3.2cm)$) {\LARGE Conclusion};
\node[right, color = purple, scale = 1] (17) at ($(start) + (2.25, -10.111) + (-90:3.8cm)$) {};
% Draw a box around the text nodes with the same opacity
\node[draw, line width = 0.005cm, rounded corners, scale = 0.9, fit={(1) (2)}] {};
% \node[draw, line width = 0.005cm, rounded corners, scale = 0.85, fit={(3) (4)}] {};
\node[draw, line width = 0.005cm, rounded corners, scale = 0.9, fit={(5) (6) (7)}] {};
\node[draw, line width = 0.005cm, rounded corners, scale = 0.9, fit={(8) (9)}] {};
\node[draw, line width = 0.005cm, rounded corners, scale = 0.85, fit={(10) (11) (12)}] {};
\node[draw, line width = 0.005cm, rounded corners, scale = 0.9, fit={(13) (14) (15)}] {};
\node[draw, line width = 0.005cm, rounded corners, scale = 0.9, fit={(16) (17)}] {};
\end{tikzpicture}
% \end{frame}
\end{document}

Rendered Output

Time Lines:

LaTeX Source

\documentclass{beamer}
\usepackage{geometry}
\geometry{paperwidth=21cm,paperheight=7cm}
\setbeamertemplate{navigation symbols}{}
\usepackage{ragged2e}
%\usepackage{fourier}
\usepackage{tikz}
\usetikzlibrary{chains,shapes.arrows,fit}
\pgfdeclarelayer{background}
\pgfsetlayers{background,main}
\newcounter{task}
\newlength\taskwidth% width of the box for the task description
\newlength\taskvsep% vertical distance between the task description and arrow
\setlength\taskwidth{2.5cm}
\setlength\taskvsep{17pt}
\def\taskpos{}
\def\taskanchor{}
\newcommand\task[1]{%
{\parbox[t]{\taskwidth}{\scriptsize\Centering#1}}}
\tikzset{
inner/.style={
on chain,
circle,
inner sep=5pt,
fill=circlecolor,
line width=1.7pt,
draw=bordercolor,
text width=1.6em,
align=center,
text height=1.25ex,
text depth=0ex
},
on grid
}
\newcommand\Task[2][]{%
\node[inner xsep=0pt] (c1) {\phantom{A}};
\stepcounter{task}
\ifodd\thetask\relax
\renewcommand\taskpos{\taskvsep}\renewcommand\taskanchor{south}
\else
\renewcommand\taskpos{-\taskvsep}\renewcommand\taskanchor{north}
\fi
\node[inner,font=\footnotesize\sffamily\color{textcolor}]
(c\the\numexpr\value{task}+1\relax) {#1};
\node[anchor=\taskanchor,yshift=\taskpos]
at (c\the\numexpr\value{task}+1\relax) {\task{#2}};
}
\newcommand\drawarrow{% the arrow is placed in the background layer
% after the node for the tasks have been placed
\ifnum\thetask=0\relax
\node[on chain] (c1) {}; % if no \Task command is used, the arrow will be drawn
\fi
\node[on chain] (f) {};
\begin{pgfonlayer}{background}
\node[
inner sep=10pt,
single arrow,
single arrow head extend=0.8cm,
draw=none,
fill=arrowcolor,
fit= (c1) (f)
] (arrow) {};
\fill[white] % the decoration at the tail of the arrow
(arrow.before tail) -- (c1|-arrow.west) -- (arrow.after tail) -- cycle;
\end{pgfonlayer}
}
\newenvironment{timeline}[1][node distance=.75\taskwidth]
{\par\noindent\begin{tikzpicture}[start chain,#1]}
{\drawarrow\end{tikzpicture}\par}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\usetikzlibrary{decorations.markings,fadings,shadings}
\tikzset{pics/blurred arrow/.style={code={
\tikzset{blurring/.cd,#1}
\begin{pgfinterruptpicture}%
\begin{tikzfadingfrompicture}[name=fade right]
\shade[left color=transparent!0,
right color=transparent!100]
(0,-\pgfkeysvalueof{/tikz/blurring/line width}) rectangle
(\pgfkeysvalueof{/tikz/blurring/length}+\pgfkeysvalueof{/tikz/blurring/line width},\pgfkeysvalueof{/tikz/blurring/line width});
\end{tikzfadingfrompicture}%
\end{pgfinterruptpicture}
\newcommand{\bkv}[1]{\pgfkeysvalueof{/tikz/blurring/##1}}
\begin{scope}[local bounding box=faded]
% this is the main routine. it draws little rectangles along the upper
% and lower border of the path. The size of these rectangles decreases.
% The decrease is exponential and depends on the drop factor, larger
% values imply faster decrease (initially it is 0.006).
\draw[myarrowcolor,line width=\bkv{line width},postaction={decorate,decoration={markings,
mark=between positions 0 and 1 step 1pt with {
\pgfmathsetmacro{\myamp}{exp(-(\pgfkeysvalueof{/pgf/decoration/mark info/sequence number}*\bkv{drop factor}))}
\pgfmathsetmacro{\myoldamp}{exp(-((\pgfkeysvalueof{/pgf/decoration/mark info/sequence number}-1)*\bkv{drop factor}))}
\shade[top color=white,bottom color=myarrowcolor]
(0pt,0.49*\bkv{line width}-\myoldamp*\bkv{amplitude})
-- (0pt,0.49*\bkv{line width}+\myoldamp*\bkv{amplitude})
-- (1.1pt,0.49*\bkv{line width}+\myamp*\bkv{amplitude})
-- (1.1pt,0.49*\bkv{line width}-\myamp*\bkv{amplitude});
\shade[top color=myarrowcolor,bottom color=white]
(0pt,-0.49*\bkv{line width}+\myoldamp*\bkv{amplitude})
-- (0pt,-0.49*\bkv{line width}-\myoldamp*\bkv{amplitude})
-- (1.1pt,-0.49*\bkv{line width}-\myamp*\bkv{amplitude})
-- (1.1pt,-0.49*\bkv{line width}+\myamp*\bkv{amplitude});}}}]
(0,0) -- (\bkv{length}, 0);
% the parts left of the arrow are patched together
% left
\shade[left color=white,right color=myarrowcolor]
(-3*\bkv{amplitude},-0.5*\bkv{line width}+\bkv{amplitude})
rectangle (0,0.5*\bkv{line width}-\bkv{amplitude});
% top left
\shade[upper left=white,upper right=white,lower left=white,lower right=myarrowcolor]
(-3*\bkv{amplitude},0.5*\bkv{line width}-\bkv{amplitude})
rectangle (0,0.5*\bkv{line width}+\bkv{amplitude});
% bottom left
\shade[upper left=white,upper right=myarrowcolor,lower left=white,lower right=white]
(-3*\bkv{amplitude},-0.5*\bkv{line width}+\bkv{amplitude})
rectangle (0,-0.5*\bkv{line width}-\bkv{amplitude});
%
\fill[myarrowcolor] (\bkv{length}-\bkv{line width},-\bkv{line width})
-- (\bkv{length}-\bkv{line width},\bkv{line width})
-- (\bkv{length}+\bkv{line width}, 0) -- cycle;
%
\pgfmathtruncatemacro{\imax}{-1+\bkv{length}/1cm}
\foreach \XX in {1,...,\imax}
{\ifodd\XX
\draw[myarrowcolor, ultra thick] (\XX*1cm+\pgflinewidth/2-1cm,0)
-- (\XX*1cm+\pgflinewidth/2-1cm,\bkv{tick prominence})
node [black, above] {Event \XX};
\else
\draw[myarrowcolor, ultra thick] (\XX*1cm+\pgflinewidth/2-1cm,0)
-- (\XX*1cm+\pgflinewidth/2-1cm,-\bkv{tick prominence})
node [black, below] {Event \XX};
\fi
}
\end{scope}
\fill[white,path fading=fade right] (faded.south west) rectangle
(faded.north east);
}},blurring/.cd,amplitude/.initial=2mm,drop factor/.initial=0.006,line
width/.initial=1cm,%<-width of the arrow line
length/.initial=9cm,%<- length of the arrow
tick prominence/.initial=0.8cm,%<- length of the ticks
color/.code={\colorlet{myarrowcolor}{#1}},
color=gray}%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\usetikzlibrary{overlay-beamer-styles}
\tikzset{
highlight on/.style={alt={#1{fill=red!80!black,color=red!80!black}{fill=gray!30!white,color=gray!30!white}}},
}
\usepackage{multicol}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\usepackage[utf8]{inputenc}
%\usepackage{geometry}
%\geometry{paperwidth=20cm,paperheight=8cm}
\usepackage{xcolor}
\definecolor{light_red}{RGB}{209,105,81}
\definecolor{light_green}{RGB}{58,181,75}
\definecolor{light_blue}{RGB}{0,153,228}
%\setbeamertemplate{frametitle}[default][center]
\setbeamerfont{footline}{series=\bfseries}
%\setbeamertemplate{footline}[page number]
\usepackage{tikz}
\newcommand{\topline}{%
\tikz[remember picture, overlay] {%
\draw[gray, thick] ([xshift = 1cm, yshift = -1.2cm]current page.north west) -- ([xshift = -1cm, yshift = -1.2cm, xshift = \paperwidth]current page.north west);}}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\usetikzlibrary{calc, arrows.meta, intersections, patterns, positioning, shapes.misc, fadings, through,decorations.pathreplacing}
%\definecolor{ColorOne}{named}{MidnightBlue}
%\definecolor{ColorTwo}{named}{Dandelion}
%\definecolor{ColorThree}{named}{Plum}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\begin{document}
\begin{frame}[c]
\definecolor{arrowcolor}{RGB}{144,168,65}
\colorlet{circlecolor}{white}
\definecolor{bordercolor}{RGB}{168,89,65}
\colorlet{textcolor}{bordercolor}
%\setlength\taskwidth{1.7cm}
\begin{timeline}
\Task[Year 1]{Event 1}
\Task[Year 2]{Event 2}
\Task[Year 3]{Event 3}
\Task[Year 4]{Event 4}
\Task[Year 5]{Event 5}
\Task[Year 6]{Event 6}
\Task[Year 7]{Event 7}
\Task[Year 8]{Event 8}
\Task[Year 9]{Event 9}
\end{timeline}
\end{frame}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\begin{frame}[c]
\begin{tikzpicture}[font=\sffamily]
\pic{blurred arrow={color=lime!50!cyan,amplitude=2.5mm,drop factor=0.005}};
\end{tikzpicture}
\end{frame}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\begin{frame}[c]
\tikzstyle{descript} = [text = black,align=center, minimum height=1.25cm, align=center, outer sep=0pt,font = \footnotesize]
\tikzstyle{activity} =[align=center,outer sep=1pt]
\begin{tikzpicture}[very thick, black]
%% Coordinates
\coordinate (O) at (-3,0); % Origin
\coordinate (P1) at (3,0);
\coordinate (P2) at (7,0);
\coordinate (P3) at (11,0);
\coordinate (F) at (15,0); %End
\coordinate (E1) at (4,0); %Event
\coordinate (E2) at (-0.5,0); %Event
\coordinate (X0) at (-1,0);
\coordinate (X1) at (3,0);
\coordinate (X2) at (6,0);
\coordinate (X3) at (7,0);
\coordinate (X4) at (10,0);
%% Filled regions
%\fill[color=ColorOne!20] rectangle (O) -- (X0) -- ($(X0)+(0,1)$) -- ($(O)+(0,1)$); % Studies
\shade[right color=black!50, left color=white] rectangle (O) -- (X0) -- ($(X0)+(0,1)$) -- ($(O)+(0,1)$); % Current work
\fill[color=violet!50] rectangle (X0) -- (X1) -- ($(X1)+(0,1)$) -- ($(X0)+(0,1)$); %
\fill[color=blue!50] rectangle (X1) -- (X2) -- ($(X2)+(0,1)$) -- ($(X1)+(0,1)$); %
\fill[color=cyan!50] rectangle (X2) -- (X3) -- ($(X3)+(0,1)$) -- ($(X2)+(0,1)$); % Work
\fill[color=red!50] rectangle (X3) -- (X4) -- ($(X4)+(0,1)$) -- ($(X3)+(0,1)$); % Work
\fill[color=yellow!50] rectangle (X4) -- (P3) -- ($(P3)+(0,1)$) -- ($(X4)+(0,1)$); % Work
\shade[left color=green, right color=white] rectangle (P3) -- (F) -- ($(F)+(0,1)$) -- ($(P3)+(0,1)$); % Current work
\path [pattern color=red, pattern=north east lines, line width = 1pt, very thick] rectangle ($(X0)+(0,0)$) -- ($(X0)+(0.0,0)$) -- ($(X0)+(-0.5,1)$) -- ($(X0)+(0.5,1)$); % Something else
\path [pattern color=black, pattern=north east lines, line width = 1pt, very thick] rectangle ($(X1)+(0.0,0)$) -- ($(X1)+(0.0,0)$) -- ($(X1)+(-0.5,1)$) -- ($(X1)+(0.5,1)$); % Something else
\path [pattern color=yellow, pattern=north east lines, line width = 1pt, very thick] rectangle ($(X2)+(0.0,0)$) -- ($(X2)+(0.0,0)$) -- ($(X2)+(-0.5,1)$) -- ($(X2)+(0.5,1)$); % Something else
\path [pattern color=blue, pattern=north east lines, line width = 1pt, very thick] rectangle ($(X3)+(0.0,0)$) -- ($(X3)+(0.0,0)$) -- ($(X3)+(-0.5,1)$) -- ($(X3)+(0.5,1)$); % Something else
\path [pattern color=magenta, pattern=north east lines, line width = 1pt, very thick] rectangle ($(X4)+(0.0,0)$) -- ($(X4)+(0.0,0)$) -- ($(X4)+(-0.5,1)$) -- ($(X4)+(0.5,1)$); % Something else
\path [pattern color=violet!50!green, pattern=north east lines, line width = 1pt, very thick] rectangle ($(P3)+(0.0,0)$) -- ($(P3)+(0.0,0)$) -- ($(P3)+(-0.5,1)$) -- ($(P3)+(0.5,1)$); % Something else
%% Description
\node[descript,fill=red!15,text=black](D0) at ($(X0)+(-2,-2.5)$) {TEXT red};
\node[descript,fill=gray!60,text=black](D2) at ($(X1)+(-4,3)$) {TEXT gray};
\node[descript,fill=yellow!60,text=black](D3) at ($(X2)+(-4,-2.5)$) {TEXT yellow};
\node[descript,fill=blue!15,text=black](D4) at ($(X3)+(-4.8,3)$) {TEXT blue};
\node[descript,fill=green!20,text=black](D5) at ($(X4)+(-3,-2.5)$) {TEXT Green};
\node[descript,fill=magenta!40,text=black](D6) at ($(P3)+(-2.2,3)$){TEXT Mgenta};
\node[descript,fill=orange!25,text=black](D7) at ($(P3)+(2,-2.5)$) {TEXT Orange};
\node[descript,fill=violet!25,text=black](D8) at ($(P3)+(3,3)$) {TEXT Purple};
%% Arrows
\path[->,color=red, line width=1.5mm] ($(X0)$) edge [out=-50, in=90] ($(D0)+(0,1)$);
\path[->,color=black, line width=1.5mm] ($(X1)$) edge [out=70, in=-130] ($(D2)+(0,-1)$);
\path[->,color=yellow!70!black, line width=1.5mm]($(X2)$) edge [out=-50, in=90] ($(D3)+(0,1)$);
\path[->,color=blue, line width=1.5mm]($(X3)$) edge [out=100, in=-90] ($(D4)+(0,-1)$);
\path[->,color=green, line width=1.5mm]($(X4)$) edge [out=-70, in=90] ($(D5)+(0,1)$);
\path[->,color=magenta, line width=1.5mm]($(P3)$) edge [out=70, in=-90] ($(D6)+(0,-1)$);
\path[->,color=orange, line width=1.5mm]($(P3)$) edge [out=-70, in=90] ($(D7)+(0,1)$);
\path[->,color=violet, line width=1.5mm]($(P3)$) edge [out=70, in=-90] ($(D8)+(0,-1)$);
%% Arrow
\draw[->>, pattern=crosshatch, line width=1.5mm] ($(O)+(0,0.2)$) -- ($(F)+(0,0.2)$);
%% Ticks
\foreach \x in {-4,-3,...,17}
\draw(\x cm,6pt) -- (\x cm,0pt);
%% Labels
\foreach \i \j in {0/\textbf{\large Yr 1},3/\textbf{\large Yr 2},7/\textbf{\large Yr 3},9/\textbf{\large Yr 4},11/\textbf{\large Yr 5},12.1/\textbf{\large Yr 6},13.5/\textbf{\large Yr 7}}{
\draw (\i,0) node[below=3pt] {\j} ;
}
\end{tikzpicture}
\end{frame}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\begin{frame}[c]
%\frametitle{\color{light_red}\textbf{Background}}
% \topline
\noindent\rule[1ex]{\linewidth}{5pt}
\textbf{Chaos Theory}
\noindent\rule[0ex]{\linewidth}{0.2pt}
\resizebox{18cm}{!}{
\begin{tikzpicture}
%%% B. F. Skinner %%%
\pgfdeclareimage[height = 4cm]{aristotle}{Aristotle.jpg}
\node (aristotle) at (0, 0) {\pgfuseimage{aristotle}};
\draw (0, 2.5) node {\color{light_red}\textbf{ABC}};
\draw (0, -2.5) node {\large\textbf{Aristotle}};
\node [circle, line width = 1mm, draw = light_blue, fill = green, minimum size = 0.4cm] (node1) at (0, 3.2) {};
\draw (0, 4) node {\Large\textbf{350 BCE}};
%%% Social Learning book 1 %%%
\node [circle, line width = 1mm, draw = red, fill = red, minimum size = 0.4cm] (node2) at (5, 3.2) {};
\pgfdeclareimage[height = 4cm]{poincaré}{Henri_Poincaré-2.jpg}
\node (poincaré) at (5, 0) {\pgfuseimage{poincaré}};
\draw (5, 4) node {\Large\textbf{1890}};
\draw (5, 2.7) node {\color{light_red}\textbf{\large{Three-Body}}};
\draw (5, 2.3) node {\color{light_red}\textbf{\large{Problem}}};
\draw (5, -2.5) node {\large\textbf{Henri Poincaré}};
%\draw (5, 0.8) node {\large\textbf{John Dollard}};
%%% Path Aristotle and poincaré %%%
%\path [line width = 1mm, draw = light_blue, -] (node1) edge (node2);
%%% Social Learning book 2 %%%
\node [circle, line width = 1mm, draw = light_blue, fill = white, minimum size = 0.4cm] (node3) at (10, 3.2) {};
\pgfdeclareimage[height = 4cm]{hadamard}{Hadamard2.jpg}
\node (hadamard) at (10, 0) {\pgfuseimage{hadamard}};
\draw (10, 4) node {\Large\textbf{1898}};
\draw (10, 2.7) node {\color{light_red}\textbf{\large{Motion on certain}}};
\draw (10, 2.3) node {\color{light_red}\textbf{\large{ surfaces always diverge}}};
\draw (10, -2.5) node {\large\textbf{Jacques Hadamard}};
%%% Path between book 1 and book 2 %%%
\draw [line width = 1mm, draw = light_blue] (5.2, 3.2) -- (7.5, 3.2) -- (7.6, 3.5) -- (7.8, 2.9) -- (7.9, 3.2) -- (9.8, 3.2);
%%% Noam Chomsky %%%
\pgfdeclareimage[height = 4cm]{cartwright}{cartwright}
\node (cartwright) at (15, 0) {\pgfuseimage{cartwright}};
\node [circle, line width = 1mm, draw = light_blue, fill = white, minimum size = 0.4cm] (node4) at (15, 3.2) {};
\draw (15, 4) node {\Large\textbf{1931}};
\draw (15, 2.7) node {\color{light_red}\textbf{\large{ Studied Van der Pol}}};
\draw (15, 2.3) node {\color{light_red}\textbf{\large{equation}}};
\draw (15, -2.5) node {\large\textbf{Mary Lucy Cartwright}};
%%% Path between book 2 and Chomsky %%%
\draw [line width = 1mm, draw = light_blue] (5.2 + 5, 3.2) -- (7.5 + 5, 3.2) -- (7.6 + 5, 3.5) -- (7.8 + 5, 2.9) -- (7.9 + 5, 3.2) -- (9.8 + 5, 3.2);
%%% Albert Bandura %%%
\pgfdeclareimage[height = 4cm]{lorenz}{lorenz.jpg} \node (lorenz) at (20, 0) {\pgfuseimage{lorenz}};
\node [circle, line width = 1mm, draw = red, fill = red, minimum size = 0.4cm] (node5) at (20, 3.2) {};
\draw (20, 4) node {\Large\textbf{1963}};
\draw (20, 2.7) node {\color{light_red}\textbf{\large{Butterfly}}};
\draw (20, 2.3) node {\color{light_red}\textbf{\large{Effect}}};
\draw (20, -2.5) node {\large\textbf{Edward Norton Lorenz }};
%%% Path between Chomsky and Bandura %%%
\draw [line width = 1mm, draw = light_blue] (5.2 + 10, 3.2) -- (7.5 + 10, 3.2) -- (7.6 + 10, 3.5) -- (7.8 + 10, 2.9) -- (7.9 + 10, 3.2) -- (9.8 + 10, 3.2);
%%% RichardMiller %%%
\pgfdeclareimage[width= 5cm]{RichardMiller}{RichardMiller.jpg}
\node (RichardMiller) at (25, 0) {\pgfuseimage{RichardMiller}};
\node [circle, line width = 1mm, draw = light_blue, fill = white, minimum size = 0.4cm] (node5) at (25, 3.2) {};
\draw (25, 4) node {\Large\textbf{1964}};
\draw (25, 2.7) node {\color{light_red}\textbf{\large{First demonstration of the}}};
\draw (25, 2.3) node {\color{light_red}\textbf{\large{ exponential divergence of}}};
\draw (25, 1.9) node {\color{light_red}\textbf{\large{ chaotic trajectories}}};
\draw (25, -2.5) node {\large\textbf{ Richard H. Miller}};
\draw [line width = 1mm, draw = light_blue] (5.2 + 15, 3.2) -- (9.8 + 15, 3.2);
%%% Mandelbrot %%%
\pgfdeclareimage[height = 4cm]{Mandelbrot}{Mandelbrot.jpg} \node (Mandelbrot) at (30, 0) {\pgfuseimage{Mandelbrot}};
\node [circle, line width = 1mm, draw = light_blue, fill = white, minimum size = 0.4cm] (node5) at (30, 3.2) {};
\draw (30, 4) node {\Large\textbf{1967}};
\draw (30, 2.7) node {\color{light_red}\textbf{\large{Mandelbrot}}};
\draw (30, 2.3) node {\color{light_red}\textbf{\large{Set}}};
\draw (30, -2.5) node {\large\textbf{ Benoit Mandelbrot}};
\draw [line width = 1mm, draw = light_blue] (5.2 + 20, 3.2) -- (9.8 + 20, 3.2);
%%% Gutzwiller %%%
\pgfdeclareimage[height = 4cm]{MGutzwiller}{gutzwiller.jpg}
\node (MGutzwiller) at (35, 0) {\pgfuseimage{MGutzwiller}};
\node [circle, line width = 1mm, draw = light_green, fill = white, minimum size = 0.4cm] (node5) at (35, 3.2) {};
\draw (35, 4) node {\Large\textbf{1971}};
\draw (35, 2.7) node {\color{light_red}\textbf{\large{Gutzwiller}}};
\draw (35, 2.3) node {\color{light_red}\textbf{\large{Trace Formula}}};
\draw (35, -2.5) node {\large\textbf{M. C. Gutzwiller}};
\draw [line width = 1mm, draw = light_blue] (5.2 + 25, 3.2) -- (7.5 + 25, 3.2) -- (7.6 + 25, 3.5) -- (7.8 + 25, 2.9) -- (7.9 + 25, 3.2) -- (9.8 + 25, 3.2);
%Ruelle_Takens
\pgfdeclareimage[width= 5cm]{Ruelle_Takens}{Ruelle_Takens.jpg}
\node (MGutzwiller) at (40, 0) {\pgfuseimage{Ruelle_Takens}};
\node [circle, line width = 1mm, draw = light_green, fill = white, minimum size = 0.4cm] (node5) at (40, 3.2) {};
\draw (40, 4) node {\Large\textbf{1971}};
\draw (40, 2.7) node {\color{light_red}\textbf{\large{Strange}}};
\draw (40, 2.3) node {\color{light_red}\textbf{\large{Attractor}}};
\draw (40, -2.0) node {\large\textbf{ David Ruelle \& Floris Takens}};
\draw (40, -2.5) node {\large\textbf{\& Floris Takens}};
\draw [line width = 1mm, draw = green, dashed] (5.2 + 30, 3.2) -- (9.8 + 30, 3.2);
%%% Feigenbaum%%%
\pgfdeclareimage[height = 4cm]{Feigenbaum}{Feigenbaum.jpg} \node (Feigenbaum) at (45, 0) {\pgfuseimage{Feigenbaum}};
\node [circle, line width = 1mm, draw = light_blue, fill = white, minimum size = 0.4cm] (node5) at (45, 3.2) {};
\draw (45, 4) node {\Large\textbf{1975}};
\draw (45, 2.7) node {\color{light_red}\textbf{\large{Feigenbaum}}};
\draw (45, 2.3) node {\color{light_red}\textbf{\large{Constant}}};
\draw (45, -2.5) node {\large\textbf{ Mitchell J. Feigenbaum}};
\draw [line width = 1mm, draw = light_blue] (5.2 + 35, 3.2) -- (9.8 + 35, 3.2);
%%% berry-tobar %%%
\pgfdeclareimage[width = 5cm]{beey_tobar}{beey_tobar.jpg} \node (beey_tobar) at (50, 0) {\pgfuseimage{beey_tobar}};
\node [circle, line width = 1mm, draw = light_blue, fill = white, minimum size = 0.4cm] (node5) at (50, 3.2) {};
\draw (50, 4) node {\Large\textbf{1977}};
\draw (50, 2.7) node {\color{light_red}\textbf{\large{Berry and Tabor}}};
\draw (50, 2.3) node {\color{light_red}\textbf{\large{Conjecture}}};
\draw (50, -2.0) node {\large\textbf{Sir Michael Victor Berry}};
\draw (50, -2.5) node {\large\textbf{ \& Michael Tabor}};
\draw [line width = 1mm, draw = light_blue] (5.2 + 40, 3.2) -- (9.8 + 40, 3.2);
%%% kicked rotor %%%
\pgfdeclareimage[height= 4cm]{qkr}{QKR.jpg}
\node (qkr) at (55, 0) {\pgfuseimage{qkr}};
\node [circle, line width = 1mm, draw = light_blue, fill = white, minimum size = 0.4cm] (node5) at (55, 3.2) {};
\draw (55, 4) node {\Large\textbf{1979}};
\draw (55, 2.7) node {\color{light_red}\textbf{\large{Quantum}}};
\draw (55, 2.3) node {\color{light_red}\textbf{\large{Kicked Rotor}}};
\draw (55, -2.5) node {\large\textbf{Joseph Ford, Giulio Casati,}};
\draw (55, -3.0) node {\large\textbf{ Boris Chirikov, \& Fritz Izrailev}};
\draw [line width = 1mm, draw = light_blue] (5.2 + 45, 3.2) -- (9.8 + 45, 3.2);
%%% OriolBohigas %%%
\pgfdeclareimage[height= 4cm]{OriolBohigas}{OriolBohigas.jpg}
\node (OriolBohigas) at (60, 0) {\pgfuseimage{OriolBohigas}};
\node [circle, line width = 1mm, draw = red, fill = red, minimum size = 0.4cm] (node5) at (60, 3.2) {};
\draw (60, 4) node {\Large\textbf{1984}};
\draw (60, 2.7) node {\color{light_red}\textbf{\large{BGS Conjecture}}};
\draw (60, 2.3) node {\color{light_red}\textbf{\large{Random Matrix Universality}}};
\draw (60, -2.5) node {\large\textbf{Oriol Bohigas Martí,}};
%\draw (52, -2.0) node {\large\textbf{ Marie-Joya Giannoni,}};
%\draw (52, -2.5) node {\large\textbf{ Marie-Joya Giannoni,}};
\draw [line width = 1mm, draw = light_blue] (5.2 + 50, 3.2) -- (7.5 + 50, 3.2) -- (7.6 + 50, 3.5) -- (7.8 + 50, 2.9) -- (7.9 + 50, 3.2) -- (9.8 + 50, 3.2);
%%% mss bound %%%
\pgfdeclareimage[width= 5cm]{MSS}{MSS.jpg}
\node (MSS) at (65, 0) {\pgfuseimage{MSS}};
\node [circle, line width = 1mm, draw = red, fill = red, minimum size = 0.4cm] (node5) at (65, 3.2) {};
\draw (65, 4) node {\Large\textbf{2015}};
\draw (65, 2.7) node {\color{light_red}\textbf{\large{MSS Bound}}};
%\draw (65, 2.3) node {\color{light_red}\textbf{\large{Random Matrix Universality}}};
\draw (65, -1.5) node {\large\textbf{Juan Maldacena,}};
\draw (65, -2.0) node {\large\textbf{Stephen H. Shenker,}};
\draw (65, -2.5) node {\large\textbf{\& Douglas Stanford}};
\draw [line width = 1mm, draw = light_blue] (5.2 + 55, 3.2) -- (7.5 + 55, 3.2) -- (7.6 + 55, 3.5) -- (7.8 + 55, 2.9) -- (7.9 + 55, 3.2) -- (9.8 + 55, 3.2);
%%% Path between Chomsky and Bandura %%%
\draw [line width = 1mm, draw = light_blue] (5.2 + 60, 3.2) -- (7.5 + 60, 3.2) -- (7.6 + 60, 3.5) -- (7.8 + 60, 2.9) -- (7.9 + 60, 3.2) -- (9.8 + 60, 3.2);
%%% Path between Chomsky and Bandura %%%
%\draw [line width = 1mm, draw = light_green] (5.2 + 65, 3.2) -- (6.5 + 65, 3.2) -- (6.6 + 65, 3.5) -- (6.8 + 65, 2.9) -- (6.9 + 65, 3.2) -- (7.8 + 65, 3.2);
\end{tikzpicture}
}
\noindent\rule[1ex]{\linewidth}{5pt}
\end{frame}
\begin{frame}[c]
%\frametitle{\color{light_red}\textbf{Background}}
% \topline
\textbf{Quantum Mechanics}
\noindent\rule[0ex]{\linewidth}{0.2pt}
\resizebox{18cm}{!}{
\begin{tikzpicture}
%%% B. F. Skinner %%%
\pgfdeclareimage[height = 4cm]{MaxP}{MaxP}
\node (MaxP) at (0, -7) {\pgfuseimage{MaxP}};
\draw (0, -4.3) node {\color{light_red}\textbf{\large{Black Body}}};
\draw (0, -4.7) node {\color{light_red}\textbf{\large{Radiation}}};
\draw (0, -9.5) node {\large\textbf{Max Planck}};
\node [circle, line width = 1mm, draw = red, fill = red, minimum size = 0.4cm] (node1) at (0, -3.8) {};
\draw (0, -3) node {\Large\textbf{1900}};
%%% Social Learning book 1 %%%
\node [circle, line width = 1mm, draw = red, fill = red, minimum size = 0.4cm] (node2) at (5, -3.8) {};
\pgfdeclareimage[height = 4cm]{einstein}{albert-einstein.jpg}
\node (einstein) at (5, -7) {\pgfuseimage{einstein}};
\draw (5, -3) node {\Large\textbf{1905}};
\draw (5, -4.3) node {\color{light_red}\textbf{\large{Photo Electric}}};
\draw (5, -4.7) node {\color{light_red}\textbf{\large{Effect}}};
\draw (5, -9.5) node {\large\textbf{Albert Einstein}};
%%% Path between Skinner and Social Learning book 1 %%%
\path [line width = 1mm, draw = light_blue, -] (node1) edge (node2);
%%% Social Learning book 2 %%%
\node [circle, line width = 1mm, draw = light_blue, fill = white, minimum size = 0.4cm] (node3) at (10, -3.8) {};
\pgfdeclareimage[height = 4cm]{rutherford}{Rutherford}
\node (rutherford) at (10, -7) {\pgfuseimage{rutherford}};
\draw (10, -3) node {\Large\textbf{1911}};
\draw (10, -4.3) node {\color{light_red}\textbf{\large{Discovery of}}};
\draw (10, -4.7) node {\color{light_red}\textbf{\large{Nucleus Charge}}};
\draw (10, -9.5) node {\large\textbf{Ernest Rutherford}};
%%% Path between book 1 and book 2 %%%
\draw [line width = 1mm, draw = light_blue] (5.2, -3.8)-- (9.8, -3.8);
%%% Noam Chomsky %%%
\pgfdeclareimage[height = 4cm]{Bohr}{Bohr}
\node (Bohr) at (14, -7) {\pgfuseimage{Bohr}};
\node [circle, line width = 1mm, draw = light_blue, fill = white, minimum size = 0.4cm] (node4) at (14, -3.8) {};
\draw (14, -3) node {\Large\textbf{1913}};
\draw (14, -4.3) node {\color{light_red}\textbf{\large{Atomic structure}}};
\draw (14, -4.7) node {\color{light_red}\textbf{\large{Model}}};
\draw (14, -9.5) node {\large\textbf{Niels Bohr}};
%%% Path between book 2 and Chomsky %%%
\draw [line width = 1mm, draw = light_blue] (5.2 + 5, -3.8) -- (9.8 + 4, -3.8);
%%% Albert Bandura %%%
\pgfdeclareimage[width = 5cm]{SG}{SG}
\node (SG) at (19, -7) {\pgfuseimage{SG}};
\node [circle, line width = 1mm, draw = light_green, fill = white, minimum size = 0.4cm] (node5) at (19, -3.8) {};
\draw (19, -3) node {\Large\textbf{1922}};
\draw (19, -4.3) node {\color{light_red}\textbf{\large{Stern-Gerlach}}};
\draw (19, -4.7) node {\color{light_red}\textbf{\large{ Experiment}}};
\draw (19, -5.1) node {\color{light_red}\textbf{\large{(Spin quantization)}}};
\draw (19, -9.5) node {\large\textbf{Otto Stern \& Walter Gerlach }};
%%% Path between Chomsky and Bandura %%%
\draw [line width = 1mm, draw = light_blue] (5.2 + 9, -3.8) -- (7.5 + 9, -3.8) -- (7.6 + 9, -3.5) -- (7.8 + 9, -4.1) -- (7.9 + 9, -3.8) -- (9.8 + 9, -3.8);
%1924
\pgfdeclareimage[height = 4cm]{broglie}{Broglie}
\node (SG) at (24, -7) {\pgfuseimage{broglie}};
\node [circle, line width = 1mm, draw = red, fill = red, minimum size = 0.4cm] (node5) at (24, -3.8) {};
\draw (24, -3) node {\Large\textbf{1924}};
\draw (24, -4.3) node {\color{light_red}\textbf{\large{Wave-Particle}}};
\draw (24, -4.7) node {\color{light_red}\textbf{\large{Duality}}};
\draw (24, -9.5) node {\large\textbf{Louis De Broglie}};
\draw [line width = 1mm, draw = light_blue] (5.2 + 14, -3.8) -- (9.8 + 14, -3.8);
%1925
\pgfdeclareimage[height = 4cm]{pauli}{Pauli}
\node (pauli) at (28, -7) {\pgfuseimage{pauli}};
\node [circle, line width = 1mm, draw = red, fill = red, minimum size = 0.4cm] (node5) at (28, -3.8) {};
\draw (28, -3) node {\Large\textbf{1925}};
\draw (28, -4.3) node {\color{light_red}\textbf{\large{Introduction of}}};
\draw (28, -4.7) node {\color{light_red}\textbf{\large{Spin}}};
\draw (28, -9.5) node {\large\textbf{Wolfgang Pauli}};
\draw [line width = 1mm, draw = light_blue] (5.2 + 19, -3.8) -- (9.8 + 18, -3.8);
%1926
\pgfdeclareimage[height = 4cm]{Schrödinger}{Erwin_Schrödinger}
\node (Schrödinger) at (32, -7) {\pgfuseimage{Schrödinger}};
\node [circle, line width = 1mm, draw = red, fill = red, minimum size = 0.4cm] (node5) at (32, -3.8) {};
\draw (32, -3) node {\Large\textbf{1926}};
\draw (32, -4.3) node {\color{light_red}\textbf{\large{Schrödinger}}};
\draw (32, -4.7) node {\color{light_red}\textbf{\large{wave Equation}}};
\draw (32, -9.5) node {\large\textbf{Erwin Schrödinger}};
\draw [line width = 1mm, draw = light_blue] (5.2 + 23, -3.8) -- (9.8 + 22, -3.8);
%1927
\pgfdeclareimage[height = 4cm]{Heisenberg}{heisenberg_werner}
\node (Heisenberg) at (36, -7) {\pgfuseimage{Heisenberg}};
\node [circle, line width = 1mm, draw = red, fill = red, minimum size = 0.4cm] (node5) at (36, -3.8) {};
\draw (36, -3) node {\Large\textbf{1927}};
\draw (36, -4.3) node {\color{light_red}\textbf{\large{ Uncertainty}}};
\draw (36, -4.7) node {\color{light_red}\textbf{\large{Principle}}};
\draw (36, -9.5) node {\large\textbf{Werner Heisenberg}};
\draw [line width = 1mm, draw = light_blue] (5.2 + 27, -3.8) -- (9.8 + 26, -3.8);
%-1927
\pgfdeclareimage[height = 4cm]{Dirac}{Paul_Dirac}
\node (Dirac) at (40, -7) {\pgfuseimage{Dirac}};
\node [circle, line width = 1mm, draw = red, fill = red, minimum size = 0.4cm] (node5) at (40, -3.8) {};
\draw (40, -3) node {\Large\textbf{1927}};
\draw (40, -4.3) node {\color{light_red}\textbf{\large{ Relativistic }}};
\draw (40, -4.7) node {\color{light_red}\textbf{\large{Quantum Mechanics}}};
\draw (40, -9.5) node {\large\textbf{Paul Dirac}};
\draw [line width = 1mm, draw = green, dashed] (5.2 + 31, -3.8) -- (9.8 + 30, -3.8);
%-1927-40s
\pgfdeclareimage[height = 4cm]{qft}{qft.jpg}
\node (qft) at (45, -7) {\pgfuseimage{qft}};
\node [circle, line width = 1mm, draw = light_green, fill = white, minimum size = 0.4cm] (node5) at (45, -3.8) {};
\draw (45, -3) node {\Large\textbf{1927-1940s}};
\draw (45, -4.3) node {\color{light_red}\textbf{\large{ Quantum }}};
\draw (45, -4.7) node {\color{light_red}\textbf{\large{Field Theory}}};
\draw (45, -9.5) node {\large\textbf{ R.P. Feynman, S. Tomonag}};
\draw (45, -10) node {\large\textbf{J. Schwinger \& F. Dyson}};
\draw [line width = 1mm, draw = light_blue] (5.2 + 35, -3.8) -- (6.5 + 36, -3.8) -- (6.6 + 36, -3.5) -- (6.8 + 36, -4.1) -- (6.9 + 36, -3.8) --(9.8 + 35, -3.8);
%-1960s-70s
\pgfdeclareimage[width = 5cm]{qft}{ChromoD.jpg}
\node (qft) at (50, -7) {\pgfuseimage{qft}};
\node [circle, line width = 1mm, draw = light_green, fill = white, minimum size = 0.4cm] (node5) at (50, -3.8) {};
\draw (50, -3) node {\Large\textbf{1960s-1970s}};
\draw (50, -4.3) node {\color{light_red}\textbf{\large{ Quantum }}};
\draw (50, -4.7) node {\color{light_red}\textbf{\large{Chromodynamics}}};
\draw (50, -9.0) node {\large\textbf{David Gross,}};
\draw (50, -9.5) node {\large\textbf{ H. David Politzer,}};
\draw (50, -10) node {\large\textbf{\& Frank Wilczek}};
\draw [line width = 1mm, draw = light_blue] (5.2 + 40, -3.8) -- (6.5 + 41, -3.8) -- (6.6 + 41, -3.5) -- (6.8 + 41, -4.1) -- (6.9 + 41, -3.8) --(9.8 + 40, -3.8);
%Late 20st
%\pgfdeclareimage[width = 5cm]{qft}{ChromoD.jpg}
%\node (qft) at (55, -7) {\pgfuseimage{qft}};
\node [circle, line width = 1mm, draw = light_green, fill = white, minimum size = 0.4cm] (node5) at (55, -3.8) {};
\draw (55, -3) node {\Large\textbf{Late 20th Century}};
\draw (55, -4.3) node {\color{light_red}\textbf{\large{ Quantum }}};
\draw (55, -4.7) node {\color{light_red}\textbf{\large{Information Theory}}};
%\draw (50, -9.0) node {\large\textbf{David Gross,}};
%\draw (50, -9.5) node {\large\textbf{ H. David Politzer,}};
%\draw (50, -10) node {\large\textbf{\& Frank Wilczek}};
\draw [line width = 1mm, draw = light_blue] (5.2 + 43, -3.8) -- (6.5 + 46, -3.8) -- (6.6 + 46, -3.5) -- (6.8 + 46, -4.1) -- (6.9 + 46, -3.8) --(9.8 + 45, -3.8);
%Early 21st
%\pgfdeclareimage[width = 5cm]{qft}{ChromoD.jpg}
%\node (qft) at (55, -7) {\pgfuseimage{qft}};
\node [circle, line width = 1mm, draw = light_green, fill = white, minimum size = 0.4cm] (node5) at (60, -3.8) {};
\draw (60, -3) node {\Large\textbf{Early 21st Century}};
\draw (60, -4.3) node {\color{light_red}\textbf{\large{ Quantum }}};
\draw (60, -4.7) node {\color{light_red}\textbf{\large{Chaos }}};
%\draw (50, -9.0) node {\large\textbf{David Gross,}};
%\draw (50, -9.5) node {\large\textbf{ H. David Politzer,}};
%\draw (50, -10) node {\large\textbf{\& Frank Wilczek}};
\draw [line width = 1mm, draw = light_blue] (5.2 + 50, -3.8) -- (6.5 + 51, -3.8) -- (6.6 + 51, -3.5) -- (6.8 + 51, -4.1) -- (6.9 + 51, -3.8) --(9.8 + 51, -3.8);
%\draw [line width = 1mm, draw = light_blue] (5.2 + 44, -3.8) -- (6.5 + 46, -3.8) -- (6.6 + 46, -3.5) -- (6.8 + 46, -4.1) -- (6.9 + 46, -3.8) --(9.8 + 55, -3.8);
%%% Path between Chomsky and Bandura %%%
\draw [line width = 1mm, draw = light_green] (5.2 + 50, -3.8) -- (6.5 + 55, -3.8) -- (6.6 + 55, -3.5) -- (6.8 + 55, -4.1) -- (6.9 + 55, -3.8) -- (7.8 + 55, -3.8);
\end{tikzpicture}
}
\noindent\rule[1ex]{\linewidth}{5pt}
\end{frame}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\begin{frame}[t]
\frametitle{A time line}
\begin{tikzpicture}
\draw[line width=2mm,-latex,red!20] (-0.2,0) -- (9,0);
\foreach \X [evaluate=\X as \Y using int(\X-2000),count=\Z] in {2000,2001,2002,2005}
{
\draw[highlight on=<\Z>] ({\Y-0.2},-0.5) -- ({\Y+0.2},-0.5) -- (\Y,-0.1) -- cycle;
\node[anchor=south,highlight on=<\Z>,fill=white] at (\Y,0.2) {\X};
}
\end{tikzpicture}
\begin{multicols}{2}
\begin{itemize}
\item<1-> November 2000: marmots start hibernating
\item<2-> August 2001: marmots eat
\item<2-> Semptember 2001: marmots eat
\item<3-> July 2002: marmots eat
\item<4-> May 2005: marmots awake from hibernation
\item<4-> November 2005: marmots start hibernating again
\end{itemize}
\end{multicols}
\end{frame}
\end{document}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

Rendered Output

Pyramid - 1 :

LaTeX Source

\documentclass[tikz, border=10mm]{standalone}
\usetikzlibrary{calc}
\usepackage{bm}% bold math
\def\pyramidwidth{1.0cm}
\def\pyramiddepth{0.5cm}
\def\pyramidheight{.35cm}
\def\levels{6}
\def\levelsep{0.05}
\usetikzlibrary{calc,shadings,shadows,fadings}
\usetikzlibrary{shadows.blur, positioning}
\usetikzlibrary{shapes.geometric} % Cylinder
\usetikzlibrary{shapes.symbols}
\usetikzlibrary{shapes.callouts}
\usetikzlibrary{shapes.misc}
\usetikzlibrary{arrows.meta,bending,positioning}
\begin{document}
\sffamily
\begin{tikzpicture}[ line width=1pt, every node/.style={scale=3},
level 1/.style={draw=white, ball color=blue},
level 2/.style={ draw=white, ball color=red},
level 3/.style={ draw=white, ball color= gray},
level 4/.style={ draw=white, ball color=gray!90!black},
level 5/.style={draw=white, ball color=gray},
level 6/.style={draw=white, ball color=gray},
x={(3.5mm,-1mm)}]
\coordinate[alias=A1b] (A) at (0,0,0);
\coordinate[alias=C1b] (C) at (\pyramidwidth,0,\pyramiddepth);
\coordinate[alias=B1b] (B) at (0,0,\pyramiddepth);
\coordinate[alias=D1b] (D) at (\pyramidwidth,0,0);
\coordinate (H) at (\pyramidwidth/2,\pyramidheight,\pyramiddepth/2);
\foreach \n in {A,B,C,D}{%
\foreach \level[remember=\level as \lastlevel (initially 1)] in {2,...,\levels}{%
\coordinate (\n\lastlevel t) at ($(\n)!\lastlevel/\levels-\levelsep/2!(H)$);
\coordinate (\n\level b) at ($(\n)!\lastlevel/\levels+\levelsep/2!(H)$);}}
\foreach \n in {A,B,C,D}{\coordinate (\n\levels t) at (H);}
\foreach \level in {1,...,\levels}{%
\foreach \i/\j in {D/A, A/B, B/C, C/D}{%
\draw[level \level, line join=round] (\i\level b) -- (\j\level b) -- (\j\level t) -- (\i\level t) -- cycle;};
\draw[level \level, line join=round] (A\level t) -- (B\level t) -- (C\level t) -- (D\level t) -- cycle;};
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% First level
\path[%drop shadow={shadow scale=0.99, shadow xshift=.1ex, shadow yshift=-4ex, opacity=.5, fill=gray},
blur shadow={shadow blur steps=10,
shadow blur extra rounding=10pt,
shadow xshift=1ex,
shadow yshift=-4ex}] (B1b) -- (C1b) -- (D1b) -- (A1b);
\draw[line join=round, draw=white, ultra thick] (D1b) -- (A1b) -- (A1t) -- (D1t) -- cycle;
\draw[line join=round, draw=white, ultra thick] (A1b) -- (B1b) -- (B1t) -- (A1t) -- cycle;
\shade[line join=round, upper right=gray!10, lower left=gray, upper left=gray, lower right=gray, draw=white, ultra thick,ball color=gray] (B1b) -- (C1b) -- (C1t) -- (B1t) -- cycle;%F
\shade[line join=round, upper left=gray!10, lower right=gray!50, upper right=gray, lower left=gray, draw=white, ultra thick] (C1b) -- (D1b) -- (D1t) -- (C1t) -- cycle;
\shade[line join=round, lower right=black, upper right=black, lower left=black, upper left=black, draw=white, ultra thick] (A1t) -- (B1t) -- (C1t) -- (D1t) -- cycle;
%2nd
%\path[drop shadow={shadow scale=0.9, shadow xshift=.5ex, shadow yshift=-4ex, opacity=.5, fill=gray}] (B2b) -- (C2b) -- (D2b) -- (A2b);
\draw[line join=round, draw=white, ultra thick] (D2b) -- (A2b) -- (A2t) -- (D2t) -- cycle;
\draw[line join=round, draw=white, ultra thick] (A2b) -- (B2b) -- (B2t) -- (A2t) -- cycle;
\shade[line join=round, upper right=gray!10, lower left=gray, upper left=gray, lower right=gray, draw=white, ultra thick, ball color=gray] (B2b) -- (C2b) -- (C2t) -- (B2t) -- cycle;
\shade[line join=round, upper left=gray!10, lower right=gray!50, upper right=gray, lower left=gray, draw=white, ultra thick] (C2b) -- (D2b) -- (D2t) -- (C2t) -- cycle;
\shade[line join=round, lower right=black, upper right=black, lower left=black, upper left=black, draw=white, ultra thick] (A2t) -- (B2t) -- (C2t) -- (D2t) -- cycle;
%3rd
%\path[drop shadow={shadow scale=0.9, shadow xshift=.5ex, shadow yshift=-4ex, opacity=.5, fill=gray}] (B2b) -- (C2b) -- (D2b) -- (A2b);
\draw[line join=round, draw=white, ultra thick] (D3b) -- (A3b) -- (A3t) -- (D3t) -- cycle;
\draw[line join=round, draw=white, ultra thick] (A3b) -- (B3b) -- (B3t) -- (A3t) -- cycle;
\shade[line join=round, upper right=gray!10, lower left=gray, upper left=gray, lower right=gray, draw=white, ultra thick, ball color=gray] (B3b) -- (C3b) -- (C3t) -- (B3t) -- cycle;
\shade[line join=round, upper left=gray!10, lower right=gray!50, upper right=gray, lower left=gray, draw=white, ultra thick] (C3b) -- (D3b) -- (D3t) -- (C3t) -- cycle;
\shade[line join=round, lower right=black, upper right=black, lower left=black, upper left=black, draw=white, ultra thick] (A3t) -- (B3t) -- (C3t) -- (D3t) -- cycle;
%4th
%\path[drop shadow={shadow scale=0.9, shadow xshift=.5ex, shadow yshift=-4ex, opacity=.5, fill=gray}] (B4b) -- (C4b) -- (D4b) -- (A4b);
\draw[line join=round, draw=white, ultra thick] (D4b) -- (A4b) -- (A4t) -- (D4t) -- cycle;
\draw[line join=round, draw=white, ultra thick] (A4b) -- (B4b) -- (B4t) -- (A4t) -- cycle;
\shade[line join=round, upper right=gray!10, lower left=gray, upper left=gray, lower right=gray, draw=white, ultra thick, ball color=gray] (B4b) -- (C4b) -- (C4t) -- (B4t) -- cycle;
\shade[line join=round, upper left=gray!70!black, lower right=gray!50, upper right=gray, lower left=gray, draw=white, ultra thick] (C4b) -- (D4b) -- (D4t) -- (C4t) -- cycle;
\shade[line join=round, lower right=black, upper right=black, lower left=black, upper left=black, draw=white, ultra thick] (A4t) -- (B4t) -- (C4t) -- (D4t) -- cycle;
%5th
%\path[drop shadow={shadow scale=0.9, shadow xshift=.5ex, shadow yshift=-4ex, opacity=.5, fill=gray}] (B4b) -- (C4b) -- (D4b) -- (A4b);
\draw[line join=round, draw=white, ultra thick] (D5b) -- (A5b) -- (A5t) -- (D5t) -- cycle;
\draw[line join=round, draw=white, ultra thick] (A5b) -- (B5b) -- (B5t) -- (A5t) -- cycle;
\shade[line join=round, upper right=gray!10, lower left=gray!90!black, upper left=gray!90!black, lower right=gray!70!black, draw=white, ultra thick, ball color=gray!70!black] (B5b) -- (C5b) -- (C5t) -- (B5t) -- cycle;
\shade[line join=round, upper left=gray!10, lower right=gray!70, upper right=gray!70!black, lower left=gray!70!black, draw=white, ultra thick] (C5b) -- (D5b) -- (D5t) -- (C5t) -- cycle;
\shade[line join=round, lower right=black, upper right=black, lower left=black, upper left=black, draw=white, ultra thick] (A5t) -- (B5t) -- (C5t) -- (D5t) -- cycle;
%6th
%\path[drop shadow={shadow scale=0.9, shadow xshift=.5ex, shadow yshift=-4ex, opacity=.5, fill=gray}] (B5b) -- (C5b) -- (D5b) -- (A5b);
\draw[line join=round, draw=white, ultra thick] (D6b) -- (A6b) -- (A6t) -- (D6t) -- cycle;
\draw[line join=round, draw=white, ultra thick] (A6b) -- (B6b) -- (B6t) -- (A6t) -- cycle;
\shade[line join=round, upper right=gray!10, lower left=gray, upper left=gray, lower right=gray, draw=white, ultra thick, ball color=gray!70!black] (B6b) -- (C6b) -- (C6t) -- (B6t) -- cycle;
\shade[line join=round, upper left=gray!10, lower right=gray!50, upper right=gray!70!black, lower left=gray!70!black, draw=white, ultra thick] (C6b) -- (D6b) -- (D6t) -- (C6t) -- cycle;
\shade[line join=round, lower right=gray!10, upper right=gray, lower left=gray, upper left=gray, draw=white, ultra thick] (A6t) -- (B6t) -- (C6t) -- (D6t) -- cycle;
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% \begin{scope}[every node/.style={rotate=-16, xslant=.1, above, inner sep=3pt, font=\bfseries, text=white}]
% \node[scale=4] at ($(B1b)!.5!(C1b)$) {$\bm\lambda=0$};
% \node[scale=3] at ($(B2b)!.5!(C2b)$) {$\bm\lambda = 0$};
% \node[scale=2] at ($(B3b)!.5!(C3b)$) {$\bm\lambda \geq 0$};
% \node[scale=1.4] at ($(B4b)!.5!(C4b)$) {$\bm\lambda > 0$};
% \node[scale=1.4] at ($(B5b)!.5!(C5b)$) {$\bm \lambda > 0$};
% \node[scale=1.2] at ($(B6b)!.5!(C6b)$) {$\bm\lambda \gg 0$};
% \end{scope}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\begin{scope}[x=2cm]
\draw[gray!70!black, arrows = -{Kite[]Kite[length=6mm, round, gray!70!black]}, ultra thick, blur shadow={shadow blur steps=10,
shadow blur extra rounding=2pt,
shadow xshift=1ex,
shadow yshift=-1ex}] ($(D6b)!.5!(D6t)$) -- +(1,0) node[right, text=white, draw=white, text=white, rounded rectangle, ball color=gray!70!black, shading=ball, scale=0.75, shading=ball, blur shadow={shadow blur steps=10,
shadow blur extra rounding=2pt,
shadow xshift=1ex,
shadow yshift=-1ex}] {Bernoulli};
\draw[black, arrows = -{Kite[]Kite[length=6mm, round, black]},ultra thick, blur shadow={shadow blur steps=10,
shadow blur extra rounding=2pt,
shadow xshift=1ex,
shadow yshift=-1ex}] ($(D5b)!.5!(D5t)$) -- +(1,0) node[right, text=white, scale=0.7, draw=white, rounded rectangle, rounded rectangle west arc=convex, draw, fill=gray!20, ball color=gray!70!black, shading=ball, blur shadow={shadow blur steps=10,
shadow blur extra rounding=2pt,
shadow xshift=1ex,
shadow yshift=-1ex}] {Completely Hyperbolic};
\draw[gray, arrows = -{Kite[]Kite[length=6mm, round, gray!90!black]}, ultra thick, blur shadow={shadow blur steps=10,
shadow blur extra rounding=2pt,
shadow xshift=1ex,
shadow yshift=-1ex}] ($(D4b)!.5!(D4t)$) -- +(1,0) node[right, scale=0.75, text=white, draw=white, rounded rectangle, ball color=gray!70!black, shading=ball, blur shadow={shadow blur steps=10,
shadow blur extra rounding=2pt,
shadow xshift=1ex,
shadow yshift=-1ex}] {Kolmogorov};
\draw[gray, arrows = -{Kite[]Kite[length=6mm, round, gray]},% -{Stealth[length=5mm,round, gray]},
ultra thick, blur shadow={shadow blur steps=10,
shadow blur extra rounding=2pt,
shadow xshift=1ex,
shadow yshift=-1ex}] ($(D3b)!.5!(D3t)$) -- +(1,0) node[right, scale=0.75, text=white, draw=white, rounded rectangle, ball color=gray, shading=ball, blur shadow={shadow blur steps=10,
shadow blur extra rounding=2pt,
shadow xshift=1ex,
shadow yshift=-1ex}] {Strong Mixing};
\draw[gray, arrows = -{Kite[]Kite[length=6mm, round, gray]},% -{Stealth[length=5mm,round, red]},
ultra thick, blur shadow={shadow blur steps=10,
shadow blur extra rounding=2pt,
shadow xshift=1ex,
shadow yshift=-1ex}] ($(D2b)!.5!(D2t)$) -- +(1,0) node[right, scale=0.75, text=white, draw=white, rounded rectangle, ball color=gray, shading=ball, blur shadow={shadow blur steps=10,
shadow blur extra rounding=2pt,
shadow xshift=1ex,
shadow yshift=-1ex}] {Weak Mixing};
\draw[gray, arrows = -{Kite[]Kite[length=6mm, round, gray]}, ultra thick, blur shadow={shadow blur steps=10,
shadow blur extra rounding=2pt,
shadow xshift=1ex,
shadow yshift=-1ex}] ($(D1b)!.5!(D1t)$) -- +(1,0) node[right, scale=0.75, text=white, draw=white, rounded rectangle, ball color=gray, shading=ball, blur shadow={shadow blur steps=10,
shadow blur extra rounding=2pt,
shadow xshift=1ex,
shadow yshift=-1ex}] {Ergodic};
\end{scope}
\draw[black, arrows = -{Circle[open]Diamond[]Kite[length=10mm, round, black]}, ultra thick, blur shadow={shadow blur steps=10,shadow blur extra rounding=2pt, shadow xshift=1ex,shadow yshift=-1ex}] (-15,-5)--(1,5)
node[left, scale=0.8, text=black, rotate=56, xshift=-3ex, yshift=1ex] {Degree of Ergodicity};
\draw (12,-8) node[below, scale=0.55, text=black, draw=white, rounded rectangle, ultra thick,
%ball color=black, shading=ball,
blur shadow={shadow blur steps=10, shadow blur extra rounding=2pt, shadow xshift=1ex, shadow yshift=-1ex},
fill=black,align=center, text width=14.5cm, text height=10pt
] {\Large \textbf{
\color{white} B-System
\color{white} $\bm\subset$ \color{white!50} C-System
\color{white}$\bm\subset$ \color{white!50} K-System
\color{white}$\bm\subset$ \color{white!50} SM
\color{white}$\bm\subset$ \color{white!50} WM \color{white}$\bm\subset$ \color{white!50} E-System}};
\end{tikzpicture}
% \begin{tikzpicture}
% \path[draw=red]circle (5pt) (0,0) -- (0.5,0.5) -- (2,1)circle (10pt);
% \end{tikzpicture}
\end{document}

Rendered Output

Pyramid - 2 :

LaTeX Source

\documentclass[%aspectratio=43,%2013,
compress]{beamer}
\usepackage{graphicx}
\usepackage{geometry}
\geometry{paperwidth=13cm,paperheight=10.75cm}
%\geometry{paperwidth=16cm,paperheight=12cm}
\usepackage{xcolor,color}
\usepackage[labelfont=bf,list=true]{subcaption}
\usepackage[many]{tcolorbox}
\setbeamertemplate{navigation symbols}{}
%\setbeamersize{text margin left=13pt,text margin right=0pt, sidebar width left=0pt,sidebar width right=0pt}
\usepackage{tikz}
\usetikzlibrary{calc}
\begin{document}
\begin{frame}
\Large
\begin{figure}
\centering
\includegraphics[width=\linewidth]{Hierarchy of Ergodicity}
\end{figure}
\begin{tikzpicture}[overlay]
%Setting up coordinates
\coordinate (o) at (5.5, 1.75);
\coordinate (x) at (5.5, 3.25);
\coordinate (y) at (5.5, 4.75);
\coordinate (z) at (5.5, 6.25);
\coordinate (r) at (5.5, 7.5);
%draw graph system
\draw[text=black] (o) node [below] {\textbf{Ergodicity}} (x) node [below] {\textbf{Weak Mixing}} (y) node [below] {\textbf{Strong Mixing}} (z) node [below] {\textbf{Multiple Mixing}};
\draw [text=red] (r) node [below] {\textbf{Bernoulli}};
% \draw [text=red] (7.25,9.75) node [below] {\textit{\textbf{z}}} (2,3.5) node [below] {\textit{\textbf{x}}} (6.75,1.5) node [below] {\textit{\textbf{y}}};
% \draw [text=gray!75!black] (9.25,2.25) node [below, rotate=338] {\textbf{Poincaré Section}};
\end{tikzpicture}
\end{frame}
\end{document}

Rendered Output

Thesis Structure:

LaTeX Source

% Time course of events in an experiment
% Author: Rudolf Siegel
\documentclass[tikz,border=10pt]{standalone}
\usetikzlibrary{positioning}
\usetikzlibrary{trees, shapes,shadows,shadows.blur}
\usetikzlibrary{chains,shapes.arrows,fit}
\usetikzlibrary{snakes}
\usepackage{tikz,stackengine}
\usetikzlibrary{tikzmark,fit,backgrounds,mindmap,decorations.text,shapes.callouts,arrows}
\usetikzlibrary{arrows, chains,through, positioning, trees, shapes.symbols}
\usetikzlibrary{shadings,positioning}
\usetikzlibrary{arrows,automata}
\usetikzlibrary{optics, arrows.meta}
\usetikzlibrary{decorations.markings, fpu, decorations.pathreplacing, decorations.text, decorations.footprints, calc}
\begin{document}
\begin{tikzpicture}
\tikzset{scale=0.27,
basefont/.style = {font = \Large\sffamily},
timing/.style = {basefont, sloped,},
label/.style = {basefont, align = left,},
screen/.style = {basefont, black, align = center, minimum size = 2.5cm, fill = gray!20, draw = white, fill opacity=0.8, line width=1mm,
blur shadow={shadow blur steps=10,
shadow blur extra rounding=10pt,
shadow xshift=1ex,
shadow yshift=-1ex},
rounded corners=10,
% shading=ball,
% ball color=white
}};
% macro for defining screens
\newcommand*{\screen}[4]{%
\begin{scope}[xshift =#3, yshift = #4,
every node/.append style = {yslant = 0.5},
yslant = 0.33,
local bounding box = #1]
\node[screen] at (4cm,4cm) {#2};
\end{scope}
}
% define several screens
\screen{frame1}{\LARGE\textbf{Chapter-1}}{0} {0}
\screen{frame2}{\LARGE\textbf{Chapter-2}}{300}{-80}
\screen{frame3}{\LARGE\textbf{Chapter-3}}{600}{-160}
\screen{frame4}{\LARGE\textbf{Chapter-4}}{900}{-240}
\screen{frame5}{\LARGE\textbf{Chapter-5}}{1200}{-320}
\screen{frame6}{\LARGE\textbf{Chapter-6}}{1500}{-400};
% \screen{frame7}{.}{1800}{-480};
\coordinate[xshift=480, yshift=-146] (frame7);
% \coordinate[xshift=390, yshift=-57.5] (frame8);
% add annotations
\foreach \i / \content in {
1/\textit{\texttt{Introduction}},
2/\textit{\texttt{Numerical tools}},
3/\textit{\texttt{Linear perturb$\ldots$}},
4/\textit{\texttt{Nonlinear perturb$\ldots$}},
5/\textit{\texttt{Billiards}},
6/\textit{\texttt{Conclusion}}%\\(depending on response)
% 7/\textit{\texttt{Bibliography}}%\\(depending on response)
}
\node[label, rotate=25, above=5em and 5em of frame\i.east]
(f\i-label) {\content};
%
% add time course
\foreach \j [count=\i] / \content in {
2/p1-7\,,
3/p8-32\,,
4/p32-49\,,
5/p50-64\,,
6/p65-91\,,
7/p92-95\,
}
\path[ultra thick, gray, arrows = {Straight Barb[reversed]-Kite[]}] (frame\i.south west) edge node[timing, below=0.5em] {\content} (frame\j.south west);
% some manual addition
\path[ultra thick, gray, arrows = {-Kite[]Kite[length=8mm, round, gray]}] (frame1.south west) ++(5,-6.5) edge node[timing, below] {Pages} ([xshift=5mm,yshift=-6.75cm]frame4.south);
\path[ultra thick, gray, arrows = {-Kite[]Kite[length=8mm, round, gray]}] (frame1.south west) edge node[timing, above=0.75em] {Chapters} (frame1.north west);
\end{tikzpicture}
\end{document}

Rendered Output

Annotate Equation:

LaTeX Source

\documentclass[11pt]{beamer}
\setbeamertemplate{navigation symbols}{}
\geometry{paperwidth=31cm,paperheight=15cm}
\setbeamersize{text margin left=15pt,text margin right=2cm, sidebar width left=0pt,sidebar width right=10pt,}
\usepackage{mathtools}
\usepackage{tikz}
\usetikzlibrary{positioning,arrows}
\usepackage{stackengine}
\usetikzlibrary{tikzmark,fit,backgrounds,mindmap,decorations.text,shapes.callouts,arrows}
\usetikzlibrary{arrows, chains,through, positioning, trees, shapes.symbols}
\usetikzlibrary{arrows.meta}
%\usetikzlibrary{shadows}
\usetikzlibrary{shadings}
%% even fancier shadows
%\usetikzlibrary{shadows.blur}
\usetikzlibrary{fadings}
%\usepackage[english]{babel}
\usepackage{physics}
\usepackage{graphicx}
%\usepackage{ragged2e}
%\usepackage[most]{tcolorbox}
%\usepackage{mdframed}
%%%%%%%%%%%%%%%%%%equation highlighter%%%
\tikzset{every picture/.style={remember picture}}
%%%%%%%%%%%%%%%%%%%%%%%
\begin{document}
\begin{frame}
\begin{tikzpicture}[
g/.style={rectangle,draw,rounded corners,minimum height=6em,inner sep=1em,font=\Huge},
w/.style={font=\Huge},
c/.style={node distance=15ex,align=left,font=\huge},
a/.style={draw,-latex',ultra thick}
]
\node [w,scale=3] (bra) {(};
\node [node distance=0ex,fill=orange!30,g,right=of bra] (kinetic) {$-\frac{\hbar^2}{2m}\,\vec{\nabla}_{\vec{r}}^2$};
\node [node distance=2ex,w,right=of kinetic] (plus1) {$+$};
\node [node distance=2ex,fill=red!30,g,right=of plus1] (external) {$v_\text{ext}(\vec{r})$};
\node [node distance=2ex,w,right=of external] (plus2) {$+$};
\node [node distance=2ex,fill=red!30,g,right=of plus2] (hartree) {$v_H(\vec{r})$};
\node [node distance=2ex,w,right=of hartree] (plus3) {$+$};
\node [node distance=2ex,fill=red!30,g,right=of plus3] (xc) {$v_{xc}$};
\node [node distance=0ex,w,right=of xc,scale=3] (ket) {)};
\node [node distance=0ex,fill=gray!30,g,right=of ket] (phi1) {$\phi_i(\vec{r})$};
\node [node distance=4ex,w,right=of phi1] (equal) {$=$};
\node [node distance=4ex,fill=blue!30,g,right=of equal] (energy) {$E_i$};
\node [node distance=2ex,fill=gray!30,g,right=of energy] (phi2) {$\phi_i(\vec{r})$};
\node [c,above=of kinetic,xshift=5em] (kinetic comment) {non-rel. Schr\"{o}dinger equation\\or relativistic Dirac equation};
\node [c,below=of external,xshift=-10em] (external comment) {crystal ions or\\pseudopotential};
\node [c,below=of hartree,xshift=5em] (hartree comment) {Poisson equation\\or Hartree potential};
\node [c,above=of xc,xshift=-11em] (xc comment) {LDA or GGA\\or hybrids};
\node [c,above=of phi1,xshift=5em] (phi comment) {physical orbitals or not\\mesh density and basis set};
\node [c,below=of energy] (energy comment) {band structure\\ or not};
\path [a] (kinetic comment) -- (kinetic.north);
\path [a] (external comment) -- (external.south);
\path [a] (hartree comment) -- (hartree.south);
\path [a] (xc comment) -- (xc.north);
\path [a] (phi comment) -- (phi1.north);
\path [a] (phi comment) -- (phi2.north);
\path [a] (energy comment) -- (energy.south);
\end{tikzpicture}
\end{frame}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\begin{frame}
\centering
\Huge
\begin{tikzpicture}
$H= \tikz[baseline]{
\node (d1) at (0.0,0.0) [draw=green!75!black,fill=green!20,anchor=base,circle,inner sep = 2pt]
{$\frac{-1}{2}\laplacian_{x}$};}+
\tikz[baseline]{
\node(d2) at (1,0) [draw=red,fill=red!20,ultra thick, anchor=base, circle, inner sep = 5pt]
{V(x)}; } $;
\end{tikzpicture}%
\begin{tikzpicture}[overlay,scale=2]
\draw[blue,ultra thick,->>] (d1) to [bend left] +(70:2cm) node[anchor=west,text = black, align = left] {Kinetic Energy};
\draw[orange,ultra thick,->>] (d2) -- ++(30:70pt) node[anchor=west,text = blue, align = left] {\textbf{ Potential}};
\end{tikzpicture}
\end{frame}
%%%%%%%%%%%%%%%%%%
\begin{frame}
\Huge
\begin{equation*}
\hat{A}(t) =
\underbrace{e^{\frac{iHt}{\hbar}}}_{\color{blue}
\text{\fbox{\parbox[b]{1cm}{\tiny\raggedright\color{black}Backward}}}
}
\underbrace{\hat{A}}_{\color{red}
\text{\fbox{\parbox[b]{1.4cm}{\tiny\raggedright\color{black}Perturbation}}}
}
\underbrace{e^{\frac{-iHt}{\hbar}}}_{\color{green!75!black}
\text{\fbox{\parbox[b]{0.8cm}{\tiny\raggedright\color{black}Forward}}}
}
\end{equation*}
\end{frame}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\begin{frame}
\Huge
\begin{equation*}
\hat{\mathcal{H}}\psi(x) =
\underbrace{\left( -\frac{1}{2}\laplacian_x - \frac{1}{2}\hat{x}^2 \lambda \right)\psi(x)}_{\color{red}
\begin{tabular}{c}
\text{Scattering off a}\\
\text{parabolic potential barrier}
\end{tabular}
} = E\psi(x)
\end{equation*}
\end{frame}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\begin{frame}
\Huge
\begin{equation*}
\mathcal{H}=\frac{\hat{p}^2}{2}\; \tikz[baseline]{\node[draw=red, ultra thick,anchor=base,rectangle,rounded corners,inner sep = 3pt](d12) {$-$};} \frac{1 }{2}\hat{x}^2\; \tikz[baseline]{\node[draw=red, ultra thick,anchor=base,rectangle,rounded corners,inner sep = 3pt](d11) {$\lambda$};}
\end{equation*}
\begin{tikzpicture}[overlay,remember picture]
\draw[red,ultra thick,->] (d12) -- +(270:3cm) node[anchor=north, text = red, align = right] {Inversion};
\draw[red,ultra thick,->] (d11) -- +(350:2.8cm) node[anchor=north,text = red,align = right] {Curvature of \\ the potential};
%
\end{tikzpicture}
\end{frame}
\end{document}

Rendered Output

Figure Shadow:

LaTeX Source

\documentclass{beamer}
\usepackage{graphicx, subfigure}
\usepackage[many]{tcolorbox}
\setbeamertemplate{navigation symbols}{}
\geometry{paperwidth=5cm,paperheight=5cm}
\begin{document}
\begin{frame}
%\centering
\begin{tcolorbox}[beamer,
width=\linewidth,
arc=2pt,
boxsep=0pt,
left=0pt,right=0pt,top=0pt,bottom=0pt,
]
\includegraphics[width=\linewidth]{/home/ppd/Downloads/niimg.jpg}
\end{tcolorbox}
\end{frame}
\end{document}

Rendered Output

Mandala:

LaTeX Source

% Mandala
% Author: Elena Botoeva
\documentclass{article}
\usepackage[margin=0.3cm, paperwidth=8.4cm, paperheight=8.4cm]{geometry}
\usepackage{tikz}
\usetikzlibrary{shadows}
\usetikzlibrary{fadings}
\tikzfading[name=fade out, inner color=transparent!0,
outer color=transparent!100]
\def\petal {
[rounded corners=0.5] %
(-1,0)%
.. controls (-1,0.6) and (-0.07,0.8).. (0,1)%
.. controls (0.07,0.8) and (1,0.6).. (1,0)%
.. controls (0.7,-1) and (-0.7,-1).. (-1,0)%
}
%%%%% circles in the background %%%%%
\def\background[#1,#2]{
\fill[#1] (0,0) circle (3.9);
\fill[#2] (0,0) circle (1);
}
%%%%% star and small circle in the center %%%%%
\def\center[#1]{
\foreach \a in {51.4285,102.857,...,360} { %
\draw[color=yellow,rotate=\a,fill=#1]
(-0.08,0) -- (0,0.46) -- (0.08,0); %
}
\draw[color=yellow,fill=#1] (0,0) circle (0.1);
}
%%%%%%%%%% Mandala with fixed colouring %%%%%%%%%%
\def \mandala {
\background[red!30!blue!70!black,blue!70!yellow!50];
% ysh - yshift
% xs - xscale
% ys - yscale
% af - first angle in foreach
% as - second angle in foreach
% y - number in the color specification after yellow
% b - number in the color specification before blue
% r - number in the color specification of the shading after red
% bl - number in the color specification of the shading before black
\foreach \ysh/\xs/\ys/\af/\as/\y/\b/\w/\r/\bl in {%
3.06/0.72/0.8/ 25.71425/51.4285/ 70/100/100/ 100/100,%
2.34/1/0.9/ 25.71425/77.14275/ 6/90/92/ 80/80,%
1.8/0.8/0.9/ 51.4285/102.857/ 0/75/100/ 60/70,%
1.5/0.6/0.6/ 25.71425/77.14275/ 0/55/100/ 40/60,%
1.1/0.53/0.58/ 51.4285/102.857/ 0/40/100/ 20/50,%
0.8/0.37/0.45/ 25.71425/77.14275/ 0/45/85/ 20/40,%
0.53/0.1/0.24/ 25.71425/77.14275/ 0/10/100/ 0/30,%
0.49/0.22/0.32/ 51.4285/102.857/ 0/10/100/ 0/50%
}
{
\foreach \a in {\af,\as,...,360}
{
\begin{scope}[rotate=\a,shift={(0,\ysh)},xscale=\xs,yscale=\ys]
\draw[color=yellow,fill=yellow!\y!red!\b!blue!\w] %
[drop shadow={shadow xshift=0.5pt, shadow yshift=-0.5pt}]
\petal;
\end{scope}
\begin{scope}[transform canvas={rotate=\a},shift={(0,\ysh)},xscale=\xs,yscale=\ys]
\clip \petal; %
\fill[path fading=fade out,fill=red!\r!blue!\bl!black, opacity=0.7]%
(0,-0.35) ellipse (1.2 and 0.75);
\fill[path fading=fade out,fill=red!\r!blue!\bl!black, opacity=0.3]%
(0,-0.2) ellipse (1.2 and 0.4);
\fill[path fading=fade out,fill=red!\r!blue,opacity=0.2] %
(-0.4,0.6) -- (0,0.9) -- (0.4,0.6);
\end{scope}
}
}
\center[blue]
}
%%%%%%%%%% End of Mandala with fixed colouring %%%%%%%%%%
%%%%% one layer of petals %%%%%
\def\mainbody{
\foreach \a in {\af,\as,...,360}
{
\begin{scope}[rotate=\a,shift={(0,\ysh)},xscale=\xs,yscale=\ys]
\draw[color=yellow,fill=\c] %
[drop shadow={shadow xshift=0.5pt, shadow yshift=-0.5pt}]
\petal;
\end{scope}
% fadings
\begin{scope}[transform canvas={rotate=\a}, shift={(0,\ysh)},xscale=\xs,yscale=\ys]
\clip \petal; %
\fill[path fading=fade out,fill=\fc, opacity=0.7]%
(0,-0.35) ellipse (1.2 and 0.75);
\fill[path fading=fade out,fill=\fc, opacity=0.3]%
(0,-0.2) ellipse (1.2 and 0.4);
\fill[path fading=fade out,fill=\fc,opacity=0.2] %
(-0.4,0.6) -- (0,0.9) -- (0.4,0.6);
\end{scope}
}
}
%%%%%%%%%%% Mandalas with parametrized colouring %%%%%%%%%%
% #1 - the color of the outer most (first) layer
% #2 - the color of the third layer
% #3 - the color of the fifth layer
% #4 - the color of the seventh layer
% #5 - the color of the fading, gets denser closer to the center
\def \mandalac[#1,#2,#3,#4,#5]{
\background[#3!30!#4!70!#5,#4!70!#2!50];
% ysh - yshift
% xs - xscale
% ys - yscale
% af - first angle in foreach
% as - second angle in foreach
% c - color of the petal
% fc - color of the fading
\foreach \ysh/\xs/\ys/\af/\as/\c/\fc in {%
3.06/0.72/0.8/ 25.71425/51.4285 /#1/#1!50!#2!90!#5,%
2.34/1/0.9/ 25.71425/77.14275/#1!50!#2/#2!80!#5,%
1.8/0.8/0.9/ 51.4285/102.857 /#2/#2!50!#3!70!#5,%
1.5/0.6/0.6/ 25.71425/77.14275/#2!50!#3/#3!60!#5,%
1.1/0.53/0.58/ 51.4285/102.857 /#3/#3!50!#4!50!#5,%
0.8/0.37/0.45/ 25.71425/77.14275/#3!50!#4/#4!40!#5,%
0.53/0.1/0.24/ 25.71425/77.14275/#4/#4!50!#5,%
0.49/0.22/0.32/ 51.4285/102.857 /#4/#4!50!#5%
}
{
\mainbody
}
\center[#4]
}
% #1 - the color of the outer most (first) layer
% #2 - the color of the second layer
% #3 - the color of the third layer
% #4 - the color of the forth layer
% #5 - the color of the fifth layer
% #6 - the color of the sixth layer
% #7 - the color of the seventh layer
% #8 - the color of the fading, gets denser closer to the center
\def \mandalab[#1,#2,#3,#4,#5,#6,#7,#8]{
\background[#6!30!#7!70!#8,#7!70!#4!50];
% ysh - yshift
% xs - xscale
% ys - yscale
% af - first angle in foreach
% as - second angle in foreach
% c - color of the petal
% fc - color of the fading
\foreach \ysh/\xs/\ys/\af/\as/\c/\fc in {%
3.06/0.72/0.8/ 25.71425/51.4285 /#1/#2!90!#8,%
2.34/1/0.9/ 25.71425/77.14275/#2/#3!90!#8,%
1.8/0.8/0.9/ 51.4285/102.857 /#3/#4!80!#8,%
1.5/0.6/0.6/ 25.71425/77.14275/#4/#5!80!#8,%
1.1/0.53/0.58/ 51.4285/102.857 /#5/#6!70!#8,%
0.8/0.37/0.45/ 25.71425/77.14275/#6/#7!70!#8,%
0.53/0.1/0.24/ 25.71425/77.14275/#7/#7!50!#8,%
0.49/0.22/0.32/ 51.4285/102.857 /#7/#7!50!#8%
}
{
\mainbody
}
\center[#7]
}
%%%%%%%%%%% End of Mandalas with parametrized colouring %%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%% BEGIN DOCUMENT %%%%%%%%%%%%%%%%%%%%%%%%
\pagestyle{empty}
\setlength{\parindent}{0pt}
\begin{document}
\tikz\mandala;
\tikz\mandalac[magenta!30!,magenta,purple,violet,];
\tikz\mandalac[blue!40!black,violet,purple,pink,];
\tikz\mandalac[lime!90!black,yellow!95!black,orange,red,];
\tikz\mandalac[green!80!black,yellow,pink,purple!90!,red];
\tikz\mandalab[green!50!black, green!60!black, green!70!black!80!, green!50!,
green!10!, pink!40!, red!40!,];
\tikz\mandalab[blue!30!black, blue!40!black, blue!60!black, blue!70!black!80!,
blue!50!, yellow!40!, yellow!70!,];
\end{document}

Rendered Output

Jigsaw:

LaTeX Source

\documentclass[x11names, svgnames, dvipsnames,tikz,border=3.14mm]{standalone}
\begin{document}
\tikzset{pics/.cd,
image jigsaw/.style args={img at #1 and #2/#3/#4/#5}{
code={%
\draw[path picture={%
\node at #1
{\edef\temp{\noexpand\includegraphics[\pgfkeysvalueof{/tikz/jigsaw/img options}]{\pgfkeysvalueof{/tikz/jigsaw/img}}}
\temp};}] (-2,-0.35) to[out=90,in={90+#2*45}] ({-2+0.5*#2},-0.45)
arc({-135-(#2-1)*45}:{(#2-1)*180+135+(#2-1)*45}:0.6 and
{0.45*sqrt(2)}) to[out=-90-#2*45,in=-90] (-2,0.35) |- (-0.35,2)
to[out=0,in={0+#3*45}] (-0.45,2-0.5*#3) arc(180-#3*45:{(#3+1)*180+#3*45}:{0.45*sqrt(2)} and 0.6)
to[out=-180-#3*45,in=180] (0.35,2) -| (2,0.35)
to[out=-90,in=270+#4*45] (2-#4*0.5,0.45)
arc(90-#4*45:{(#4+1)*180-90+#4*45}:0.6 and {0.45*sqrt(2)})
to[out=90-#4*45,in=90] (2,-0.35) |- (0.35,-2)
to[out=180,in=-180+#5*45] (0.45,-2+#5*0.5) arc(-#5*45:{(#5-1)*180+180+#5*45}:{0.45*sqrt(2)} and 0.6)
to[out=-#5*45,in=0] (-0.35,-2) -| cycle;
}},
/tikz/jigsaw/.cd,img/.initial={example-image-duck},img options/.initial={}
}
% order : left/top/right/bottom and -1 is out, 1 is in, 0 none
\foreach \X in {0,0.1,...,1,0.9,0.8,...,0.1}
{\begin{tikzpicture}
\path[use as bounding box] (-3,-3) rectangle (3,3);
\draw (-1-\X,-1-\X) pic[scale=0.25]{image jigsaw=img at {(4,4)} and 0/-1/1/0}
(0,-1-\X) pic[scale=0.25]{image jigsaw=img at {(0,4)} and -1/-1/1/0}
(1+\X,-1-\X) pic[scale=0.25]{image jigsaw=img at {(-4,4)} and -1/1/0/0}
(-1-\X,0) pic[scale=0.25]{image jigsaw=img at {(4,0)} and 0/1/-1/1}
(0,0) pic[scale=0.25]{image jigsaw=img at {(0,0)} and 1/-1/1/1}
(1+\X,0) pic[scale=0.25]{image jigsaw=img at {(-4,0)} and -1/1/0/-1}
(-1-\X,1+\X) pic[scale=0.25]{image jigsaw=img at {(4,-4)} and 0/0/1/-1}
(0,1+\X) pic[scale=0.25]{image jigsaw=img at {(0,-4)} and -1/0/1/1}
(1+\X,1+\X) pic[scale=0.25]{image jigsaw=img at {(-4,-4)} and -1/0/0/-1};
\end{tikzpicture}}
\end{document}

Rendered Output

Periodic Table:

LaTeX Source

\documentclass[aspectratio=2013]{beamer}
\setbeamertemplate{navigation symbols}{}
\usepackage[active,tightpage]{preview}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\usepackage[en]{pgf-PeriodicTable}
\usepgfPTlibrary{colorschemes}
\pgfPTGroupColors{example}{G1=red!90!black,G2=orange}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\begin{document}
\begin{frame}
\begin{preview}
\pgfPT
\end{preview}
\end{frame}
\begin{frame}
\begin{preview}
\pgfPT[cell style=pgfPTdisc,DiscY color=red]
\end{preview}
\end{frame}
\begin{frame}
\begin{preview}
\pgfPT[csSolid]
\end{preview}
\end{frame}
\begin{frame}
\begin{preview}
\pgfPT[csSoft]
\end{preview}
\end{frame}
\begin{frame}
\begin{preview}
\pgfPT[csJmol]
\end{preview}
\end{frame}
\begin{frame}
\begin{preview}
\pgfPT[csCPK]
\end{preview}
\end{frame}
\begin{frame}
\begin{preview}
% \pgfPT[csWikipedia]
\pgfPT[csRadio]
\end{preview}
\end{frame}
\begin{frame}
\begin{preview}
\pgfPT[show title=true, back color scheme=example,
legend box={draw=blue!50,fill=blue!20},
show extra legend,
Z list={1,3,4,11,12}]
\end{preview}
\end{frame}
\begin{frame}
\begin{preview}
\pgfPT[Z list={1,...,36},Z backcolor=blue!70!black]
\end{preview}
\end{frame}
\begin{frame}
\begin{preview}
\pgfPT[Z list={1,...,36},only cells with periods and group numbers plus Z]
\end{preview}
\end{frame}
\end{document}

Rendered Output

Time Table:

LaTeX Source

% Build in Compiler: Lualatex
\documentclass{article}
\usepackage{geometry}
\geometry{paperwidth=20cm,paperheight=18cm}
\usepackage{microtype}
\usepackage[default,semibold,light]{sourcesanspro}
\usepackage{realscripts}
\usepackage{parskip}
\pagestyle{empty}
\newcommand*{\roomone}{Adare Uniting Church Auditorium}
\newcommand*{\roomtwo}{Adare Uniting Church Hall}
\newcommand*{\roomfour}{Adare Uniting Church Foyer}
\newcommand*{\roomsix}{Adare Dining Room}
\newcommand*{\roomtwelve}{Bethany Hall}
\newcommand*{\roomfood}{\roomsix\slash\roomtwelve}
\newcommand*{\roommdgs}{Room listed on booklet cover}
\newcommand*{\roomseminars}{Rooms listed on p.~\pageref{seminars}}
\newcommand*{\roomworkshops}{Rooms listed on p.~\pageref{workshops}}
\newcommand*{\firstspeaker}{Gary Millar}
\newcommand*{\secondspeaker}{Reuben Salagaras}
\newcommand*{\timetablefont}{\scriptsize}
\newcommand*{\yscale}{0.862}
\newlength{\timewidth}
\settowidth{\timewidth}{\timetablefont\bfseries
\addfontfeature{RawFeature=-pnum}00:00}
\addtolength{\timewidth}{4pt}
\newlength{\activitywidth}
\setlength{\activitywidth}{\textwidth}
\addtolength{\activitywidth}{-4\timewidth}
\addtolength{\activitywidth}{-14pt}
\setlength{\activitywidth}{0.25\activitywidth}
\usepackage[cmyk]{xcolor}
\definecolor{mdg}{cmyk}{0,0.3,0.24,0.03}
\definecolor{talk}{cmyk}{0.13,0,0,0}
\definecolor{coach}{cmyk}{0,0.02,0.22,0}
\definecolor{food}{cmyk}{0,0.2,0.41,0.06}
\definecolor{seminar}{cmyk}{0.08,0,0.11,0.04}
\definecolor{workshop}{cmyk}{0,0,0,0.11}
\usepackage{tikz}
\usetikzlibrary{positioning,chains}
\begin{document}
\begin{tikzpicture}[
remember picture,
overlay,
node distance=0 cm,
chain default direction=going below,
inner sep=0pt,
outer sep=1pt,
font=\timetablefont,
time/.style args={#1,#2}{
anchor=north west,
minimum width=\timewidth,
minimum height=\yscale*#1cm-2pt,
node contents={},
append after command={
node[anchor=north east, inner sep=0pt, outer sep=3pt,
font=\timetablefont\bfseries\addfontfeature{RawFeature=-pnum}]
at (\tikzlastnode.north east) {#2}
},
on chain
},
activity/.style args={#1,#2,#3}{
anchor=north west,
minimum width=\activitywidth,
minimum height=\yscale*#1cm-2pt,
node contents={},
append after command={
node[anchor=north west, inner sep=0pt, outer sep=3pt,
text width=\activitywidth-6pt]
at (\tikzlastnode.north west) {\textbf{#2}\\#3}
},
on chain
}
]
\begin{scope}[start chain]
\node (fri-time) [time={1,}];
\node[time={10,}];
\node[time={2,18:00}];
\node[time={1.5,20:00}];
\node[time={1,21:30}];
\end{scope}
\begin{scope}[start chain]
\node (fri) [right=of fri-time.north east, activity={1,\Large\hfill
Friday\hfill\strut,}];
\node[activity={10,,}];
\node[activity={2,Registration,\roomfour}];
\node[activity={1.5,Talk 1: \firstspeaker,\roomone},fill=talk];
\node[activity={1,Supper,\roomtwo}];
\end{scope}
\begin{scope}[start chain]
\node (sat-time) [right=of fri.north east, time={1,}];
\node[time={1,8:00}];
\node[time={1.5,9:00}];
\node[time={0.75,10:30}];
\node[time={1.25,11:15}];
\node[time={0.5,12:45}];
\node[time={1.5,13:00}];
\node[time={1.5,14:30}];
\node[time={0.5,16:00}];
\node[time={1.5,16:30}];
\node[time={1.5,18:00}];
\node[time={1.5,19:30}];
\node[time={1.5,21:00}];
\end{scope}
\begin{scope}[start chain]
\node (sat) [right=of sat-time.north east, activity={1,\Large\hfill
Saturday\hfill\strut,}];
\node[activity={1,Breakfast,\roomfood}, fill=food];
\node[activity={1.5,Talk 2: \secondspeaker,\roomone}, fill=talk];
\node[activity={0.75,Morning tea,}];
\node[activity={1.25,Ministry Discussion Group 1,Room listed on booklet
cover}, fill=mdg];
\node[activity={0.5,Coach's briefing,}];
\node[activity={1.5,Lunch,\roomfood}, fill=food];
\node[activity={1.5,Free time\slash Coaching slot 1,}, fill=coach];
\node[activity={0.5,Afternoon tea,}];
\node[activity={1.5,Free time\slash Coaching slot 2,}, fill=coach];
\node[activity={1.5,Dinner,\roomfood}, fill=food];
\node[activity={1.5,Talk 3: \firstspeaker,\roomone}, fill=talk];
\node[activity={1.5,Supper,\roomtwo}];
\end{scope}
\begin{scope}[start chain]
\node (sun-time) [right=of sat.north east, time={1,}];
\node[time={0.5,}];
\node[time={1,8:30}];
\node[time={1.25,9:30}];
\node[time={0.5,10:45}];
\node[time={1.25,11:15}];
\node[time={1,12:30}];
\node[time={1,13:30}];
\node[time={1.5,14:30}];
\node[time={0.5,16:00}];
\node[time={1.5,16:30}];
\node[time={1.5,18:00}];
\node[time={2,19:30}];
\node[time={1,21:30}];
\end{scope}
\begin{scope}[start chain]
\node (sun) [right=of sun-time.north east, activity={1,\Large\hfill
Sunday\hfill\strut,}];
\node[activity={0.5,,}];
\node[activity={1,Breakfast,\roomfood}, fill=food];
\node[activity={1.25,Seminars,\roomseminars}, fill=seminar];
\node[activity={0.5,Morning tea,}];
\node[activity={1.25,Workshops,\roomworkshops}, fill=workshop];
\node[activity={1,Lunch,\roomfood}, fill=food];
\node[activity={1,Ministry Discussion Group 2,\roommdgs}, fill=mdg];
\node[activity={1.5,Free time\slash Coaching slot 3,}, fill=coach];
\node[activity={0.5,Afternoon tea,}];
\node[activity={1.5,Free time\slash Coaching slot 4,}, fill=coach];
\node[activity={1.5,Dinner,\roomfood}, fill=food];
\node[activity={2,Talk 4: \secondspeaker,\roomone}, fill=talk];
\node[activity={1,Supper,\roomtwo}];
\end{scope}
\begin{scope}[start chain]
\node (mon-time) [right=of sun.north east, time={1,}];
\node[time={0.5,}];
\node[time={0.5,8:30}];
\node[time={1,9:00}];
\node[time={0.5,10:00}];
\node[time={1,10:30}];
\node[time={1.5,11:30}];
\node[time={1,13:00}];
\end{scope}
\begin{scope}[start chain]
\node[right=of mon-time.north east, activity={1,\Large\hfill
Monday\hfill\strut,}];
\node[activity={0.5,,}];
\node[activity={0.5,Light breakfast,}];
\node[activity={1,Ministry Discussion Group 3,\roommdgs}, fill=mdg];
\node[activity={0.5,Personal reflection\slash prayer,}];
\node[activity={1,Brunch,\roomtwo}, fill=food];
\node[activity={1.5,Talk 5: \firstspeaker,\roomone}, fill=talk];
\node[activity={1,Pack up and leave,}];
\end{scope}
\end{tikzpicture}%
\end{document}

Pranaya Pratik Das

Archive

Location

Office Hours

Research Interests:

Research Philosophy:

LaTeX Example

Tables:

LaTeX Source

Rendered Output

Circular Image Arrangement:

LaTeX Source

Rendered Output

Gantt Chart:

LaTeX Source

Rendered Output

Curvature using Tikz:

LaTeX Source

Rendered Output

Table of Contents:

LaTeX Source

Rendered Output

Time Lines:

LaTeX Source

Rendered Output

Pyramid - 1 :

LaTeX Source

Rendered Output

Pyramid - 2 :

LaTeX Source

Rendered Output

Thesis Structure:

LaTeX Source

Rendered Output

Annotate Equation:

LaTeX Source

Rendered Output

Figure Shadow:

LaTeX Source

Rendered Output

Mandala:

LaTeX Source

Rendered Output

Jigsaw:

LaTeX Source

Rendered Output

Periodic Table:

LaTeX Source

Rendered Output

Time Table:

LaTeX Source

Rendered Output

Papers

Working Title: Friends of Cockatiel