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--- equations:euler_lagrange_equations [2018/03/27 09:12]
jakobadmin [Concrete]
+++ equations:euler_lagrange_equations [2018/04/08 16:13]
jakobadmin ↷ Links adapted because of a move operation
@@ Line 1: / Line 1: @@
-====== Euler-Lagrange Equations: $\quad \frac{\partial \mathscr{L}}{\partial \Phi^i} - \partial_\mu \left(\frac{\partial \mathscr{L}}{\partial(\partial_\mu\Phi^i)}\right) = 0 $ ======
+<WRAP lag>$ \frac{\partial \mathscr{L}}{\partial \Phi^i} - \partial_\mu \left(\frac{\partial \mathscr{L}}{\partial(\partial_\mu\Phi^i)}\right) = 0 $</WRAP>
+====== Euler-Lagrange Equations ======
-//see also [[frameworks:lagrangian_formalism|]]//
+//see also [[formalisms:lagrangian_formalism]]//
@@ Line 12: / Line 14: @@
 <tabbox Concrete>
-The Euler-Lagrange equation tells us which path is the path with minimal action $S =  \int_{t_i}^{t_f} dt L(q,\dot{q})$, where $L(q,\dot{q})$ denotes the [[frameworks:lagrangian_formalism|Lagrangian]].
+The Euler-Lagrange equation tells us which path is the path with minimal action $S =  \int_{t_i}^{t_f} dt L(q,\dot{q})$, where $L(q,\dot{q})$ denotes the [[formalisms:lagrangian_formalism|Lagrangian]].
@@ Line 117: / Line 119: @@
 <tabbox Why is it interesting?>
-The Euler-Lagrange equations are used in the [[frameworks:lagrangian_formalism|Lagrange formalism]] to derive from a given Lagrangian the corresponding equations of motion.
+The Euler-Lagrange equations are used in the [[formalisms:lagrangian_formalism|Lagrange formalism]] to derive from a given Lagrangian the corresponding equations of motion.
 </tabbox>

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