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Questions tagged [fractional-calculus]

Questions on the differentiation/integration of functions to fractional order. Fractional calculus is a branch of mathematical analysis that studies the possibility of taking real number powers or complex number powers of the differentiation and integration operators.

Fractional calculus is a branch of mathematical analysis that studies the several different possibilities of defining real number powers or complex number powers of the differentiation operator $D$ and integration operator $J$.

For example,

$$ \sqrt{D}=D^{\frac{1}{2}} $$

is an analog of the functional square root for the differentiation operator, i.e., an expression for some linear operator that when applied twice to any function will have the same effect as differentiation. More generally, one can look at the question of defining a linear functional $$ D^{a} $$ for every real-number $a$ in such a way that, when a takes an integer value $n ∈ ℤ$, it coincides with the usual $n$-fold differentiation $D$ if $n > 0,$ and with the $-n$–th power of J when $n < 0$.

It can be used in conjunction with the tag , , , .

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Fractional Calculus: Motivation and Foundations.

If this is too broad, I apologise; let's keep it focused on the basics if necessary. What's the motivation and the rigorous foundations behind fractional calculus? It seems very weird & beautiful to me. Did it arise from some set of applications?…
Shaun
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Is there any meaning to this "Super Derivative" operation I invented?

Does anyone know anything about the following "super-derivative" operation? I just made this up so I don't know where to look, but it appears to have very meaningful properties. An answer to this question could be a reference and explanation, or…
Benedict W. J. Irwin
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An actual attempt to solve $f^{(n)}(x)=f(x)^n$

Earlier today I saw this cool differential equation question which was closed because the asker didn't show any effort in solving it: $$f^{(n)}(x)=f(x)^n$$ But I still wanted to know the answer, you know? It looks like a super cool equation. But I…
Debalanced
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What does a "half derivative" mean?

I was looking at fractional calculus on Wikipedia, specifically this section and came across the half derivative of the function $y=x$ which is $\frac{d^{1/2}y}{dx^{1/2}}=\frac{2\sqrt{x}}{\sqrt{\pi}}$ . The derivative tells the slope at any point on…
zerosofthezeta
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Why does this work? Applying residue theorem to some functions with non integer powers in the denominator. Surprisingly it yielded the correct result.

I have been practicing my residue calculus recently (a fairly new topic for me), I started with calculating integrals of simple functions in the form of $$\int_{-\infty}^{\infty} \frac{1}{(x^2 + 1)^n} \, dx$$ where $n$ is an integer $>0$. I used a…
Egor Zaytsev
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Fractional Derivative Implications/Meaning?

I've recently been studying the concept of taking fractional derivatives and antiderivatives, and this question has come to mind: If a first derivative, in Cartesian coordinates, is representative of the function's slope, and the second derivative…
Mr. Vubio
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Functions that are their Own nth Derivatives for Real $n$

Consider (non-trivial) functions that are their own nth derivatives. For instance $\frac{\mathrm{d}}{\mathrm{d}x} e^x = e^x$ $\frac{\mathrm{d}^2}{\mathrm{d}x^2} e^{-x} = e^{-x}$ $\frac{\mathrm{d}^3}{\mathrm{d}x^3}…
mellamokb
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Applications of Fractional Calculus

I've seen recently for the first time in Special Functions (by G. Andrews, R. Askey and R. Roy) the definitions of fractional integral $$(I_{\alpha }f)(x)=\frac{1}{\Gamma (\alpha )}\int_{a}^{x}(x-t)^{\alpha -1}f(t)dt\qquad \text{Re}\alpha >0$$ and…
Américo Tavares
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I can Euler-sum $\sqrt{\ln(1)}-\sqrt{\ln(2)}+\sqrt{\ln(3)}-\cdots$. But how can I do $\sqrt{\ln(1)}+\sqrt{\ln(2)}+\sqrt{\ln(3)}+\cdots$?

This is also related to an older thread in MSE ("what is the half derivative of zeta at zero?") . One of the possible steps in the problem of that thread was to evaluate the series $$s_a=\eta^{(0.5)}(0) = î…
Gottfried Helms
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Is this similarity just a coincidence?

Here is a graph of the function $y=-1/x$: If we add infinitely many similar functions with a shift of $\pi/2$ each in both directions, we get $\tan x$. But if we do the same only in one direction, we get "incomplete tangent": The yellow one is…
Anixx
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Could you explain me the use of fractional derivatives?

For first time in my (loooong !) life, I heard, thanks to a question posted on SE, about fractional derivatives. In Wikipedia, I found very interesting material. But, being a physicist and not a real mathematician, could one explain me what they are…
Claude Leibovici
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Solutions to this fractional differential equation

So we all know that $\frac d{dx}e^x=e^x$ and that the $n$th derivative of $e^x$ is still $e^x$, but upon entering fractional calculus, this is ruined. Let $D^\alpha$ be the $\alpha$th derivative with respect to $x$. Then, as we can see, when…
Simply Beautiful Art
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Is it meaningful to take the derivative of a function a non-integer number of times?

If I want to take the derivative of $ax^n$, I will get $anx^{n-1}$. If I were to take the derivative again, I get $an(n-1)x^{n-2}$. We can generalize this for integer k easily to get the kth derivative $a\frac{n!}{(n-k)!} x ^{n-k}$. But what about…
anaconomist
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How to solve this ODE: $y^{(y(x))}(x)=f(x)$?

$$\large{\text{Introduction:}}$$ This question will be partly inspired from: Evaluation of $$y’=x^y,y’=y^x$$ but what if we made the order of an differential equation equal to the function? Imagine that we had the following linear ordinary…
Тyma Gaidash
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Half order derivative of $ {1 \over 1-x }$

I'm new to this "fractional derivative" concept and try, using wikipedia, to solve a problem with the half-derivative of the zeta at zero, in this instance with the help of the zeta's Laurent-expansion. Part of this fiddling is now to find the…
Gottfried Helms
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