Difference between revisions of "Category:Elliptic"

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This category contains all control problems which are governed by an elliptic partial differential equation.
 
This category contains all control problems which are governed by an elliptic partial differential equation.
  
A second order linear partial differential equation can be written as
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<p>
  <math>\sum^n_{i,j=1} a_{i,j} \frac{\partial^2}{\partial x_i \partial x_j} +\quad \textrm{ lower-order terms} = 0</math>.
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A second order linear partial differential equation can be written as
   
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  <math>\sum^n_{i,j=1} a_{ij} \frac{\partial^2u}{\partial x_i \partial x_j} +\, \text{lower-order terms} = 0</math>.  
  If <math>A=(a_{i,j})_{i,j}</math> is positive or negative definite, the partial differential equation is called elliptic.
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</p>
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  An example is the Poisson's equation: <math>-\Delta u = f</math>,
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  <p>
  where <math>\Delta</math> denotes the Laplace operator, <math>u</math> is the unknown, and the function <math>f</math> given.
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  If the matrix <math>A=(a_{ij})_{ij}</math> is positive or negative definite, the partial differential equation is called elliptic.
   
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</p>
 +
  <p>
 +
  An example is the Poisson's equation: <math>-\Delta u = f</math>,
 +
  where <math>\Delta</math> denotes the Laplace operator, <math>u</math> is the unknown, and the function <math>f</math> is given.
 +
  </p>
  
  

Latest revision as of 16:22, 24 February 2016

This category contains all control problems which are governed by an elliptic partial differential equation.

A second order linear partial differential equation can be written as \sum^n_{i,j=1} a_{ij} \frac{\partial^2u}{\partial x_i \partial x_j} +\, \text{lower-order terms} = 0.

If the matrix A=(a_{ij})_{ij} is positive or negative definite, the partial differential equation is called elliptic.

An example is the Poisson's equation: -\Delta u = f, where \Delta denotes the Laplace operator, u is the unknown, and the function f is given.

Pages in category "Elliptic"

The following 2 pages are in this category, out of 2 total.