okay fine i'll add 50mg/ml for the euros

pghrt.tex

@@ -265,27 +265,27 @@ Your dosage is the concentration of your vial multiplied by the volume that you
 
 \subsection{What are some example dosage calculations?}
 
-The math is simple, I promise! Below is a small reference table comparing concentrations and volume for a range of common dosages. Stick to only two decimal places. You won’t be using syringes that have the accuracy for a number like 0.153ml for instance. That’s within rounding error and isn’t a relevant difference at our scale.
+The math is simple, I promise! Below is a small reference table comparing concentrations and volume for a range of common dosages. Stick to only two decimal places. You won’t be using syringes that have the accuracy for a number like 0.153ml for instance. That’s within rounding error and isn’t a relevant difference at our scale. You can also use \href{https://hrtcafe.net/Calc/}{this calculator} as a reference as well.
 
 \begin{table}
 \centering
 \caption{Example Dosages for Common Concentrations by Volume}
 \label{tab:concentrations}
-\begin{tabular}{@{}lllll@{}}
+\begin{tabular}{@{}llllll@{}}
   \toprule
-  \multicolumn{1}{c}{} & \multicolumn{4}{c}{Concentrations (mg/ml)} \\
-  \cmidrule(rl){2-5}
-            & 5    & 10  & 20 & 40    \\
-            \cmidrule(rl){2-5}
-Dosage (mg) & \multicolumn{4}{c}{Volume (mL)}  \\
-    \cmidrule(r){1-1} \cmidrule(lr){2-5}
-4        & 0.8  & 0.4 & 0.2  & 0.1      \\
-5        & 1    & 0.5 & 0.25 & 0.13   \\
-6        & 1.2  & 0.6   & 0.3  & 0.15     \\
-7        & 1.4  & 0.7 & 0.35  & 0.18  \\
-8        & 1.6  & 0.8   & 0.4  & 0.2    \\
-9        & 1.8  & 0.9 & 0.45  & 0.23 \\
-10       & 2    & 1   & 0.5  & 0.25   \\
+  \multicolumn{1}{c}{} & \multicolumn{5}{c}{Concentrations (mg/ml)} \\
+  \cmidrule(rl){2-6}
+            & 5    & 10  & 20 & 40 & 50   \\
+            \cmidrule(rl){2-6}
+Dosage (mg) & \multicolumn{5}{c}{Volume (mL)}  \\
+    \cmidrule(r){1-1} \cmidrule(lr){2-6}
+4        & 0.8  & 0.4 & 0.20  & 0.10 & 0.08\\
+5        & 1.0    & 0.5 & 0.25 & 0.13 &  0.10\\
+6        & 1.2  & 0.6   & 0.30  & 0.15 & 0.12   \\
+7        & 1.4  & 0.7 & 0.35  & 0.18 & 0.14\\
+8        & 1.6  & 0.8   & 0.40  & 0.20 & 0.16  \\
+9        & 1.8  & 0.9 & 0.45  & 0.23 & 0.18\\
+10       & 2.0    & 1.0   & 0.50  & 0.25 & 0.20 \\
   \bottomrule
 \end{tabular}
 \end{table}
@@ -530,7 +530,7 @@ If you are using Luer lock syringes, the length of the drawing needle does not m
 
 \subsection{What needle gauge should I inject with?}\label{5-16}
 
-This is a tricky and highly subjective question, and your answer will depend on 4 main factors: 1) the carrier oil for what you are injecting; 2) if the vial contains a cosolvent; 3) your patience to have a needle in your leg for longer; and 4) your willingness/ability to push harder on the syringe plunger. It’s a question of comfort. Thicker oils mean more time and more effort when using a higher gauge, but also higher gauges can be significantly less painful going in. \textbf{As a baseline, 25G is the minimum needle gauge that you should use to manage discomfort.} Most common carrier oils can generally do up to 27G comfortably, whereas MCT oil in particular is notable for being able to easily do 30G (See Question \ref{6-16}).
+This is a tricky and highly subjective question, and your answer will depend on 4 main factors: 1) the carrier oil for what you are injecting; 2) if the vial contains a cosolvent; 3) your patience to have a needle in your body for longer; and 4) your willingness/ability to push harder on the syringe plunger. It’s a question of comfort. Thicker oils mean more time and more effort when using a higher gauge, but also higher gauges can be significantly less painful going in. \textbf{As a baseline, 25G is the minimum needle gauge that you should use to manage discomfort.} Most common carrier oils can generally do up to 27G comfortably, whereas MCT oil in particular is notable for being able to easily do 30G (See Question \ref{6-16}).
 
 \subsection{What needle length should I inject with?}