Difference between revisions of "Minkowski Inequality"
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<math>(\sum_{j=1}^{m}(\sum_{i=1}^{n}a_{ij}^r)^{s/r})^{1/s}\geq (\sum_{i=1}^{n}(\sum_{j=1}^{m}a_{ij}^s)^{r/s})^{1/r}</math> | <math>(\sum_{j=1}^{m}(\sum_{i=1}^{n}a_{ij}^r)^{s/r})^{1/s}\geq (\sum_{i=1}^{n}(\sum_{j=1}^{m}a_{ij}^s)^{r/s})^{1/r}</math> | ||
| − | Notics that if one of <math>r,s</math> is zero, the inequality is equivelant to Holder's Inequality. | + | Notics that if one of <math>r,s</math> is zero, the inequality is equivelant to [[Holder's Inequality]]. |
Revision as of 15:28, 30 November 2006
Minkowski Inequality states:
Let 
be a nonzero real number, then for any positive numbers 
, the following inequality holds:
Notics that if one of 
is zero, the inequality is equivelant to Holder's Inequality.
