Adjustments to spelling and presentation

Signed-off-by: Riccardo Finotello <riccardo.finotello@gmail.com>

sec/part1/conclusion.tex

@@ -1,5 +1,5 @@
 We thus showed that the specific geometry of the intersecting D-branes leads to different results when computing the value of the classical action, that is the leading contribution to the Yukawa couplings in string theory.
-In particular in the Abelian case the value of the action is exactly the area formed by the intersecting D-branes in the $\R^2$ plane, i.e.\ the string worldsheet is completely contained in the polygon on the plane.
+In particular in the Abelian case the value of the action is exactly the area formed by the intersecting D-branes in the $\R^2$ plane, that is the string worldsheet is completely contained in the polygon on the plane.
 The difference between the \SO{4} case and \SU{2} is more subtle as in the latter there are complex coordinates in $\R^4$ for which the classical string solution is holomorphic in the upper half plane.
 In the generic case presented so far this is in general no longer true.
 The reason can probably be traced back to supersymmetry, even though we only dealt with the bosonic string.