Mo logo [home] [lexicon] [problems] [tests] [courses] [auxiliaries] [notes] [staff] german flag

Mathematics-Online lexicon:

Fubinis Theorem


A B C D E F G H I J K L M N O P Q R S T U V W X Y Z overview

The integral of a continuous function over an elementary region

$\displaystyle V:\ a_j(x_1,\ldots,x_{j-1})\le x_j \le
b_j(x_1,\ldots,x_{j-1})
$

can be computed by the iterated integral

$\displaystyle \int\limits_V f\,dV = \int_{a_1}^{b_1}
\int_{a_2(x_1)}^{b_2(x_1)}...
..._{n-1})}^{b_n(x_1,\ldots,x_{n-1})}
f(x_1,\ldots,x_n)\,dx_n\cdots dx_2 dx_1
\,.
$

If the integration limits are constants then the iterated integral is independent of the ordering of the variables provided the integration limits are ordered correspondingly, e.g. for double integrals

$\displaystyle \int_{a}^b \int_{c}^d f(x,y) \ dy dx = \int_{c}^d \int_{a}^b f(x,y) \ dx dy \ .$

If the integration limits are not constant it may be possible that the elementary region cannot be written as an elementary region for a different ordering of the variables. Then one has to split the region. In each case one has to adapt the integration limits to the different ordering of the variables.

Examples:


[Links]

  automatically generated 5/30/2011