diff --git a/Solutions.md b/Solutions.md
index 14a2a7b9ac7fae4819255cd774179b24c2c6df55..b7e0edb2c78e0d86313d76e7a2bb7f7e0a8f2244 100644
--- a/Solutions.md
+++ b/Solutions.md
@@ -96,13 +96,13 @@ Laden Sie für diese Aufgabe die Dateien [Zinkblende.cif](cif files/Zinkblende.c
 
 <div  align="center"><figure>
 <img height="500" src="graphics/Zinkblende lattice planes.png">
-<figcaption><b>Figure 1</b>: Copper nitrides with ternary metal measured in normal XRD and investigated with EXAFS.
+<figcaption><b>Graphik Lösung 1</b>: Copper nitrides with ternary metal measured in normal XRD and investigated with EXAFS.
 </figcaption>
 </figure></div><br><br>
 
 <div  align="center"><figure>
 <img height="500" src="graphics/Zinkblende PXRD sym.png">
-<figcaption><b>Figure 1</b>: Copper nitrides with ternary metal measured in normal XRD and investigated with EXAFS.
+<figcaption><b>Graphik Lösung 2</b>: Copper nitrides with ternary metal measured in normal XRD and investigated with EXAFS.
 </figcaption>
 </figure></div><br><br>
 
@@ -112,7 +112,7 @@ Exportieren sie das Beugungsmuster für d)
 
 <div  align="center"><figure>
 <img height="500" src="graphics/Diamant PXRD sym.png">
-<figcaption><b>Figure 1</b>: Copper nitrides with ternary metal measured in normal XRD and investigated with EXAFS.
+<figcaption><b>Graphik Lösung 3</b>: Copper nitrides with ternary metal measured in normal XRD and investigated with EXAFS.
 </figcaption>
 </figure></div><br><br>
 
@@ -122,7 +122,7 @@ Hierfür müssen die daten im energieunabhängigem Impulsraum $`q = \frac{4 \pi}
 
 <div  align="center"><figure>
 <img height="500" src="graphics/Zinkblende vs Experiment.png">
-<figcaption><b>Figure 1</b>: Copper nitrides with ternary metal measured in normal XRD and investigated with EXAFS.
+<figcaption><b>Graphik Lösung 4</b>: Copper nitrides with ternary metal measured in normal XRD and investigated with EXAFS.
 </figcaption>
 </figure></div><br><br>