Difference between revisions of "Schwarz symmetric derivative"
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− | It is sometimes called the [[ | + | It is sometimes called the [[Riemann derivative]] or the second symmetric derivative. For the first time introduced by B. Riemann in 1854 (see [[#References|[2]]]); it was studied by H.A. Schwarz [[#References|[1]]]. More generally, the symmetric derivative of order $ n $ |
is also called a Schwarz symmetric derivative: | is also called a Schwarz symmetric derivative: | ||
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= \ | = \ | ||
\lim\limits _ {h \rightarrow 0 } | \lim\limits _ {h \rightarrow 0 } | ||
− | \frac{\ | + | \frac{\sum_{k=0}^ { n } \left |
( \begin{array}{c} | ( \begin{array}{c} | ||
n \\ | n \\ | ||
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− | and then $ D ^ {n} = D( D ^ {n-} | + | and then $ D ^ {n} = D( D ^ {n-1} ) $, |
$ n \geq 1 $, | $ n \geq 1 $, | ||
$ D ^ {0} f = f $. | $ D ^ {0} f = f $. |
Latest revision as of 20:00, 15 January 2024
of a function $ f $
at a point $ x _ {0} $
The value
$$ D ^ {2} f( x _ {0} ) = \lim\limits _ {h \rightarrow 0 } \frac{f( x _ {0} + h)- 2f( x _ {0} )+ f( x _ {0} - h) }{h ^ {2} } . $$
It is sometimes called the Riemann derivative or the second symmetric derivative. For the first time introduced by B. Riemann in 1854 (see [2]); it was studied by H.A. Schwarz [1]. More generally, the symmetric derivative of order $ n $ is also called a Schwarz symmetric derivative:
$$ D ^ {n} f( x) = \lim\limits _ {h \rightarrow 0 } \frac{\Delta _ {h} ^ {n} f( x) }{h ^ {n} } = $$
$$ = \ \lim\limits _ {h \rightarrow 0 } \frac{\sum_{k=0}^ { n } \left ( \begin{array}{c} n \\ k \end{array} \right ) (- 1) ^ {k} f ( x + ( n- 2k ) h / 2 ) }{h ^ {n} } . $$
References
[1] | H.A. Schwarz, "Beweis eines für die Theorie der trigonometrischen Reihen in Betracht kommenden Hülfssatzes" , Gesammelte Math. Abhandlungen , Chelsea, reprint (1972) pp. 341–343 |
[2] | B. Riemann, "Ueber die Darstellbarkeit einer Function durch eine trigonometrische Reihe" H. Weber (ed.) , B. Riemann's Gesammelte Mathematische Werke , Dover, reprint (1953) pp. 227–271 ((Original: Göttinger Akad. Abh. (1868))) |
[3] | I.P. Natanson, "Theory of functions of a real variable" , 1–2 , F. Ungar (1955–1961) (Translated from Russian) |
[4] | N.K. [N.K. Bari] Bary, "A treatise on trigonometric series" , Pergamon (1964) (Translated from Russian) |
[5] | A. Zygmund, "Trigonometric series" , 1–2 , Cambridge Univ. Press (1988) |
Comments
The name general derivative is also used for this notion. A natural approach is to start with the central difference $ f( x _ {0} + h/2 ) - f( x _ {0} - h/2) $, and to define the first symmetric derivative as
$$ Df( x _ {0} ) = \lim\limits _ {h \rightarrow 0 } \ \frac{f( x _ {0} + h/2)- f( x _ {0} - h/2) }{h} = \ \lim\limits _ {h \rightarrow 0 } \ \frac{\Delta _ {h} f ( x _ {0} ) }{h} , $$
and then $ D ^ {n} = D( D ^ {n-1} ) $, $ n \geq 1 $, $ D ^ {0} f = f $.
References
[a1] | W. Rudin, "Real and complex analysis" , McGraw-Hill (1974) pp. 24 |
Schwarz symmetric derivative. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Schwarz_symmetric_derivative&oldid=48635