Difference between revisions of "Bunyakovskii inequality"
From Encyclopedia of Mathematics
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| − | An | + | An inequality in mathematical analysis, established by V.Ya. Bunyakovskii <ref name="Bounjakowsky" /> for square-integrable functions $ f $ and $ g $ : |
| − | + | \[ | |
| + | \left[ \int_{a}^{b}f(x)g(x)\,dx\right]^2 \le \int_{a}^{b}f^2(x)\,dx \int_{a}^{b}g^2(x)\,dx. | ||
| + | \] | ||
This inequality is analogous to Cauchy's algebraic inequality | This inequality is analogous to Cauchy's algebraic inequality | ||
| − | + | \[ | |
| + | (a_1 b_1 + \dots + a_n b_n)^2 \le (a_1^2 + \dots + a_n^2)(b_1^2 + \dots + b_n^2). | ||
| + | \] | ||
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| + | The Bunyakovskii inequality is also known as the Schwarz inequality; however, Bunyakovskii published his study as early as 1859, whereas in H.A. Schwarz' work this inequality appeared as late as 1884 (without any reference to the work of Bunyakovskii). | ||
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====References==== | ====References==== | ||
| − | < | + | |
| + | <references> | ||
| + | <ref name="Bounjakowsky">W. [V.Ya. Bunyakovskii] Bounjakowsky, "Sur quelques inegalités concernant les intégrales aux différences finis" ''Mem. Acad. Sci. St. Petersbourg (7)'' , '''1''' (1859) pp. 9</ref> | ||
| + | </references> | ||
| + | 2. W. Rudin, "Principles of mathematical analysis" , McGraw-Hill (1953) | ||
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====Comments==== | ====Comments==== | ||
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| − | Cauchy | + | In Western literature this inequality is often called the Cauchy inequality, or the [[Cauchy Schwarz inequality]]. Its generalization to a function $ f $ in $ L_p $ and a function $ g $ in $ L_q $, $ 1/p + 1/q = 1 $, is called the [[Hölder inequality]]. |
| − | + | Cauchy's algebraic inequality stated above holds for real numbers $ a_i, b_i, \quad i = 1, \dots, n $. For complex numbers $ a_i, b_i, \quad i = 1, \dots, n$, it reads | |
| − | + | \[ | |
| + | \left| a_1 \overline{b_1} + \dots + a_n \overline{b_n}\right|^2 \le (|a_1^2| + \dots + |a_n^2|) \cdot (|b_1^2| + \dots + |b_n^2|). | ||
| + | \] | ||
It has a generalization analogous to the Hölder inequality. | It has a generalization analogous to the Hölder inequality. | ||
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Latest revision as of 09:09, 31 May 2016
An inequality in mathematical analysis, established by V.Ya. Bunyakovskii [1] for square-integrable functions $ f $ and $ g $ :
\[ \left[ \int_{a}^{b}f(x)g(x)\,dx\right]^2 \le \int_{a}^{b}f^2(x)\,dx \int_{a}^{b}g^2(x)\,dx. \]
This inequality is analogous to Cauchy's algebraic inequality
\[ (a_1 b_1 + \dots + a_n b_n)^2 \le (a_1^2 + \dots + a_n^2)(b_1^2 + \dots + b_n^2). \]
The Bunyakovskii inequality is also known as the Schwarz inequality; however, Bunyakovskii published his study as early as 1859, whereas in H.A. Schwarz' work this inequality appeared as late as 1884 (without any reference to the work of Bunyakovskii).
References
- ↑ W. [V.Ya. Bunyakovskii] Bounjakowsky, "Sur quelques inegalités concernant les intégrales aux différences finis" Mem. Acad. Sci. St. Petersbourg (7) , 1 (1859) pp. 9
2. W. Rudin, "Principles of mathematical analysis" , McGraw-Hill (1953)
Comments
In Western literature this inequality is often called the Cauchy inequality, or the Cauchy Schwarz inequality. Its generalization to a function $ f $ in $ L_p $ and a function $ g $ in $ L_q $, $ 1/p + 1/q = 1 $, is called the Hölder inequality.
Cauchy's algebraic inequality stated above holds for real numbers $ a_i, b_i, \quad i = 1, \dots, n $. For complex numbers $ a_i, b_i, \quad i = 1, \dots, n$, it reads
\[ \left| a_1 \overline{b_1} + \dots + a_n \overline{b_n}\right|^2 \le (|a_1^2| + \dots + |a_n^2|) \cdot (|b_1^2| + \dots + |b_n^2|). \]
It has a generalization analogous to the Hölder inequality.
How to Cite This Entry:
Bunyakovskii inequality. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Bunyakovskii_inequality&oldid=29421
Bunyakovskii inequality. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Bunyakovskii_inequality&oldid=29421
This article was adapted from an original article by V.I. Bityutskov (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article