Differences

This shows you the differences between two versions of the page.

--- book:chap2:2.8_cartesian_coordinates [2022/04/01 21:03] – jv
+++ book:chap2:2.8_cartesian_coordinates [2022/04/01 21:13] (current) – jv
@@ Line 20: / Line 20: @@
 <WRAP 120pt left #fig_vector-2DcoordinatesE>
-{{vector-2Dcoordinates_E.png}} Figure 2.14: Representation of the vector $\mathbf c$ in terms of the orthogonal unit vectors $(\mathbf e_1, \mathbf e_2)$.
+{{vector-2Dcoordinates_E.png}}
+Figure 2.14: Representation of the vector $\mathbf c$ in terms of the orthogonal unit vectors $(\mathbf e_1, \mathbf e_2)$.
 </WRAP>
@@ Line 72: / Line 74: @@
 </WRAP>
-<WRAP 120pt left #fig_vector-2DcoordinatesAlt>
+<WRAP 200pt left #fig_vector-2DcoordinatesAlt>
-{{vector-2Dcoordinates2.png}} Representation of the vector $\mathbf c$ of [[#fig_vector-2DcoordinatesE |Figure 2.14]] in terms of the bases $(\mathbf e_1, \mathbf e_2)$ and $(\mathbf n_1, \mathbf n_2)$.
+{{vector-2Dcoordinates2.png}}
+Representation of the vector $\mathbf c$ of [[#fig_vector-2DcoordinatesE |Figure 2.14]] in terms of the bases $(\mathbf e_1, \mathbf e_2)$ and $(\mathbf n_1, \mathbf n_2)$.
 </WRAP>
@@ Line 306: / Line 310: @@
 <wrap #quest_forces-2> Problem 2.20: ** Geometric and algebraic form of the scalar product ** </wrap>
-<WRAP 120pt left>
+<WRAP 200pt left>
 {{02_scalarProduct.png}}
 </WRAP>