How does Uprising scale over the different difficulties?

Here's my version with Tikz. There are some minor details that I simplified but I'd say it resembles your image enough. The only thing missing are the circles to symbolize the gas, but I don't think that'd be hard for you to replicate.

The command is as follows:

\flask[ <arrow direction> ]{ <position of the flask> }{ <pressure> }{ <text> };

The first argument is optional. If not specified, the arrow will go right. To make it go left add [arrL] in the position you see above, with square brackets. After the position of the picture, which is self-explanatory, we have pressure where you type the value for the manometer. It accepts the actual value, so if you type 500, it will show that. Of course, typing 130 will work too, as you can see below, or even 137. The last argument is the text near the arrow to name the gas.

Output

enter image description here

Code

\documentclass[margin=10pt]{standalone}
\usepackage{tikz}

\usetikzlibrary{calc, shadings, arrows.meta}

\definecolor{tappo}{RGB}{148,154,110}
\definecolor{lightblue}{RGB}{155,210,220}

\tikzset{
    arrR/.style={-Latex},
    arrL/.style={Latex-}
}

\newcommand\flask[4][arrR]{%
\begin{scope}[shift={(#2)}]
\draw[gray] (-1.8,0) arc (180:0:1.8cm and 6mm);
\begin{scope}
\clip[rounded corners=5mm] (-.5,5) -- (-.5,3.5) -- (-1.8,.5) [sharp corners]-- (-1.8,0) arc (180:360:1.8cm and 6mm) [rounded corners=5mm]--  (1.8,.5) --  (.5,3.5) [sharp corners]-- (.5,5) -- cycle;
\end{scope}

\draw[gray] (.1,4) arc (0:180:1mm and .5mm);
\draw (.1,4.8) -- (.1,4) arc (360:180:1mm and .5mm) -- (-.1,4.8);

\draw[right color=tappo, left color=tappo, middle color=tappo!40] (.4,4.5) -- (.6,5.5) arc (0:180:6mm and 2mm) -- (-.4,4.5) arc (180:360:4mm and 2mm);
\draw[fill=tappo!60] (0,5.5) ellipse (6mm and 2mm);
\draw[fill=lightblue,rounded corners=5mm, fill opacity=.7] (-.5,5) -- (-.5,3.5) -- (-1.8,.5) [sharp corners]-- (-1.8,0) arc (180:360:1.8cm and 6mm) [rounded corners=5mm]--  (1.8,.5) --  (.5,3.5) [sharp corners]-- (.5,5) arc (360:180:5mm and 2mm);
\draw[fill=lightblue, opacity=.5] (.5,5) to[out=-50,in=230, looseness=2] (-.5,5) arc (180:360:5mm and 2mm);

\fill[black] (0,5.5) ellipse (1mm and .5mm);
\draw[fill=lightblue, fill opacity=.5] (.1,6.3) -- (.1,5.5) arc (360:180:1mm and .5mm) -- (-.1,6.3) -- cycle;
\draw[left color=black, right color=black, middle color=gray] (.1,6.5) -- (.1,6.3) arc (360:180:1mm and .5mm) -- (-.1,6.5) -- cycle;

\draw[ultra thick, fill=white!95!black] (0,7.5) circle (1cm);
\node[font=\sffamily\bfseries\scriptsize] at (0,7.9) {hPa};
\foreach \x [evaluate=\x as \angle using int(210-(\x*16))] in {0,...,15}{%
    \pgfmathsetmacro\tick{int(mod(\x,5))}
    \ifnum\x=0
    \draw[very thick] ($(0,7.5)+(\angle:1cm)$) --++ (\angle:-2mm) node[pos=1.8, text=black, font=\tiny] {$\x$};
    \else
    \ifnum\tick=0
    \draw[very thick] ($(0,7.5)+(\angle:1cm)$) --++ (\angle:-2mm) node[pos=1.8, text=black, font=\tiny] {$\x00$};
    \else   
    \draw ($(0,7.5)+(\angle:1cm)$) --++ (\angle:-2mm);
    \fi
    \fi
}

\begin{scope}[remember picture,overlay,shift={(0,7.5)},rotate=210-(#3*.16)]
\filldraw[black] (-.2,.03) --++ (1,-.01) --++ (0,-.04) --++ (-1,-.01) --++ (0,-.08) --++ (-.05,0) --++ (0,.22) --++ (.05,0) -- cycle;
\end{scope}

\draw[gray, fill=lightblue!50] (.49,3.9) ellipse (.5mm and 1mm);
\draw[fill=lightblue, fill opacity=.5] (.49,4) -- (2,4) arc (90:-90:.5mm and 1mm) -- (.49,3.8) arc (-90:-270:.5mm and 1mm);
\draw (2,3.8) arc (-90:-270:.5mm and 1mm);

\begin{scope}
\draw[#1, line width=.2mm] (1.5,3.9) -- (2.5,3.9) node[right, font=\scriptsize] {#4};
\draw[fill=lightblue!60] (.8,4.2) -- (1,4.2) -- (1,4.1) -- (.94,4.1) -- (.94,4.05) -- (1,4) arc (360:180:1mm and .25mm) -- (.86,4.05) -- (.86,4.1) -- (.8,4.1) -- cycle;

\draw[fill=lightblue!60] (1,3.81) -- (.95,3.75) -- (.85,3.75) -- (.8,3.81);
\draw[fill=lightblue!60] (.96,3.76) to[out=-50,in=230, looseness=1.8] (.84,3.76) to[out=-15,in=195] cycle;
\draw[fill=lightblue!60] (.94,3.72) to[out=-50,in=230, looseness=2] (.86,3.72) to[out=-15,in=195] cycle;
\end{scope}
\begin{scope}[xshift=4mm]
\draw[fill=lightblue!60] (.8,4.2) -- (1,4.2) -- (1,4.1) -- (.94,4.1) -- (.94,4.05) -- (1,4) arc (360:180:1mm and .25mm) -- (.86,4.05) -- (.86,4.1) -- (.8,4.1) -- cycle;

\draw[fill=lightblue!60] (1,3.81) -- (.95,3.75) -- (.85,3.75) -- (.8,3.81);
\draw[fill=lightblue!60] (.96,3.76) to[out=-50,in=230, looseness=1.8] (.84,3.76) to[out=-15,in=195] cycle;
\draw[fill=lightblue!60] (.94,3.72) to[out=-50,in=230, looseness=2] (.86,3.72) to[out=-15,in=195] cycle;
\end{scope}
\end{scope}
}

\begin{document}
\begin{tikzpicture}

\flask{0,0}{0}{pomp};
\flask[arrL]{5,0}{130}{ether};
\flask[arrL]{10,0}{590}{ether};

\end{tikzpicture}
\end{document} 

What you can do is add another number to the call once you’ve started it, then you can talk using the other phone number that you added.

The only thing is you cannot hang up on he original number once you add the second number or else both numbers will be disconnected.


You can add your excel file via the delimited text button (save it out of excel as csv). Drag your Ridings shapefiles into QGIS. You then want to do a Spatial Join on the two layers and then save your new layer (by right clicking and picking save as), choose CSV as your output format and you can pull the file back into excel.

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