Fixed some language in the report.

doc/report/report_philip/thesisPage__experiments__linMom.tex

@@ -233,7 +233,7 @@ So any method to simulate a physical process should also be able to meet this re
 		The figure is very similar to the momentum plot we presented in figure \ref{fig:experiments:linMom:linMod2:relBallMomentum}.
 		%
 		We see that the error in \LinMomTZEta{} (dashed green line) is smaller than in the normal version (solid green line).
-		Which is somehow expected, but looking at the different integrators, it could probably be an anomaly.
+		Which is somehow expected, but looking at the different integrators, it could probably be an anomaly as well.
 		
 		\FloatBarrier
 		% END:		Initial Momentum Problem
@@ -291,7 +291,7 @@ So any method to simulate a physical process should also be able to meet this re
 		%
 		Now assume a node, that is located outside the ball, however near its vicinity.
 		Clearly the viscosity for that node, should be the same as the surrounding media (fluid).
-		However since its DoD will contain ball markers, that have a very high viscosity, the viscosity at the node will be artificially increased.
+		However since its DoD will contain ball markers as well, which have a very high viscosity, the viscosity at the node will be artificially increased.
 		%
 		It is also important that this effect does not only affect viscosity, all quantities are affected by it, with varying implications.
 		However in the current work, we have focused the on viscosity.