Flux coordinates: Difference between revisions

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=== Coordinates and basis vectors ===  
=== Coordinates and basis vectors ===  
Let <math>{\mathbf x}</math> be a set of euclidean coordinates on <math>{\mathbb R}^3</math>. Given the spatial dependence of a coordinate set <math>(\psi(\mathbf{x}),\theta(\mathbf{x}),\phi(\mathbf{x}))</math>
Let <math>{\mathbf x}</math> be a set of euclidean coordinates on <math>{\mathbb R}^3</math> and let <math>(\psi(\mathbf{x}),\theta(\mathbf{x}),\phi(\mathbf{x}))</math> define a change of coordinates, arbitrary for the time being.
we can calculate the contravariant basis vectors  
We can calculate the contravariant basis vectors as
:<math>
:<math>
\mathbf{e}^i = \{\nabla\psi, \nabla\theta, \nabla\phi\}  
\mathbf{e}^i = \{\nabla\psi, \nabla\theta, \nabla\phi\}  
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