Difference between revisions of "Parabolic partial differential equation"
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| − | + | An equation (cf. [[Differential equation, partial|Differential equation, partial]]) of the form | |
| − | |||
| − | |||
| − | + | $$ | |
| + | u _ {t} - \sum _ { i,j=1}^n a _ {ij} ( x, t) u _ {x _ {i} x _ {j} } - \sum | ||
| + | _ { i=1}^ { n } a _ {i} ( x, t) u _ { x _ i } - a( x, t) u = | ||
| + | f( x, t), | ||
| + | $$ | ||
| + | where $ \sum a _ {ij} \xi _ {i} \xi _ {j} $ | ||
| + | is a positive-definite quadratic form. The variable $ t $ | ||
| + | is singled out and plays the role of time. A typical example of a parabolic partial differential equation is the [[Heat equation|heat equation]] | ||
| + | $$ | ||
| + | u _ {t} - \sum _ { i=1}^{ n } u _ {x _ {i} x _ {i} } = 0. | ||
| + | $$ | ||
====Comments==== | ====Comments==== | ||
| − | The above defines second-order linear parabolic differential equations. There also exist notions of non-linear parabolic equations. For instance, in [[#References|[a2]]] equations are studied of the form | + | The above defines second-order linear parabolic differential equations. There also exist notions of non-linear parabolic equations. For instance, in [[#References|[a2]]] equations are studied of the form $ \phi _ {t} = F( \phi _ {x _ {i} x _ {j} } , \phi _ {x _ {i} } , \phi , x _ {i} , t ) $, |
| + | where $ F $ | ||
| + | is a function of variables $ ( u _ {ij} , u _ {i} , u , x _ {i} , t ) $ | ||
| + | such that for a certain $ \epsilon > 0 $ | ||
| + | one has $ \epsilon \| \lambda \| ^ {2} \leq \sum _ {i,j} F _ {u _ {ij} } \lambda _ {i} \lambda _ {j} $ | ||
| + | on the domain under consideration. | ||
| − | A semi-linear partial differential equation of the second order, i.e. one of the form | + | A semi-linear partial differential equation of the second order, i.e. one of the form $ \sum _ {i,j = 1 } ^ {n} a _ {ij} ( \partial ^ {2} \phi ) / ( \partial x _ {i} \partial x _ {j} )= f ( x , \phi , \phi _ {x _ {i} } ) $, |
| + | is said to be of parabolic type if $ \mathop{\rm det} ( a _ {ij} ) = 0 $ | ||
| + | at each point of the domain under consideration. | ||
====References==== | ====References==== | ||
<table><TR><TD valign="top">[a1]</TD> <TD valign="top"> A. Friedman, "Partial differential equations of parabolic type" , Prentice-Hall (1964) {{MR|0181836}} {{ZBL|0144.34903}} </TD></TR><TR><TD valign="top">[a2]</TD> <TD valign="top"> N.V. Krylov, "Nonlinear elliptic and parabolic equations of the second order" , Reidel (1987) (Translated from Russian) {{MR|0901759}} {{ZBL|0619.35004}} </TD></TR></table> | <table><TR><TD valign="top">[a1]</TD> <TD valign="top"> A. Friedman, "Partial differential equations of parabolic type" , Prentice-Hall (1964) {{MR|0181836}} {{ZBL|0144.34903}} </TD></TR><TR><TD valign="top">[a2]</TD> <TD valign="top"> N.V. Krylov, "Nonlinear elliptic and parabolic equations of the second order" , Reidel (1987) (Translated from Russian) {{MR|0901759}} {{ZBL|0619.35004}} </TD></TR></table> | ||
Latest revision as of 01:00, 24 December 2020
An equation (cf. Differential equation, partial) of the form
$$ u _ {t} - \sum _ { i,j=1}^n a _ {ij} ( x, t) u _ {x _ {i} x _ {j} } - \sum _ { i=1}^ { n } a _ {i} ( x, t) u _ { x _ i } - a( x, t) u = f( x, t), $$
where $ \sum a _ {ij} \xi _ {i} \xi _ {j} $ is a positive-definite quadratic form. The variable $ t $ is singled out and plays the role of time. A typical example of a parabolic partial differential equation is the heat equation
$$ u _ {t} - \sum _ { i=1}^{ n } u _ {x _ {i} x _ {i} } = 0. $$
Comments
The above defines second-order linear parabolic differential equations. There also exist notions of non-linear parabolic equations. For instance, in [a2] equations are studied of the form $ \phi _ {t} = F( \phi _ {x _ {i} x _ {j} } , \phi _ {x _ {i} } , \phi , x _ {i} , t ) $, where $ F $ is a function of variables $ ( u _ {ij} , u _ {i} , u , x _ {i} , t ) $ such that for a certain $ \epsilon > 0 $ one has $ \epsilon \| \lambda \| ^ {2} \leq \sum _ {i,j} F _ {u _ {ij} } \lambda _ {i} \lambda _ {j} $ on the domain under consideration.
A semi-linear partial differential equation of the second order, i.e. one of the form $ \sum _ {i,j = 1 } ^ {n} a _ {ij} ( \partial ^ {2} \phi ) / ( \partial x _ {i} \partial x _ {j} )= f ( x , \phi , \phi _ {x _ {i} } ) $, is said to be of parabolic type if $ \mathop{\rm det} ( a _ {ij} ) = 0 $ at each point of the domain under consideration.
References
| [a1] | A. Friedman, "Partial differential equations of parabolic type" , Prentice-Hall (1964) MR0181836 Zbl 0144.34903 |
| [a2] | N.V. Krylov, "Nonlinear elliptic and parabolic equations of the second order" , Reidel (1987) (Translated from Russian) MR0901759 Zbl 0619.35004 |
How to Cite This Entry:
Parabolic partial differential equation. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Parabolic_partial_differential_equation&oldid=28257
Parabolic partial differential equation. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Parabolic_partial_differential_equation&oldid=28257
This article was adapted from an original article by A.P. Soldatov (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article