Clairaut's equation

In mathematics, more specifically in mathematical analysis, Clairaut's equation (or Clairaut equation) is a differential equation of the form

y(x)=x{\frac {dy}{dx}}+f\left({\frac {dy}{dx}}\right)

where f is continuously differentiable. It is a particular case of the Lagrange differential equation.

This equation is named after the French mathematician Alexis Clairaut, who introduced it in 1734.^[1]

Definition

To solve Clairaut's equation, we differentiate with respect to x, yielding

{\frac {dy}{dx}}={\frac {dy}{dx}}+x{\frac {d^{2}y}{dx^{2}}}+f'\left({\frac {dy}{dx}}\right){\frac {d^{2}y}{dx^{2}}},

\left[x+f'\left({\frac {dy}{dx}}\right)\right]{\frac {d^{2}y}{dx^{2}}}=0.

Hence, either

{\frac {d^{2}y}{dx^{2}}}=0

x+f'\left({\frac {dy}{dx}}\right)=0.

In the former case, C = dy/dx for some constant C. Substituting this into the Clairaut's equation, we have the family of straight line functions given by

y(x)=Cx+f(C),\,

the so-called general solution of Clairaut's equation.

The latter case,

x+f'\left({\frac {dy}{dx}}\right)=0,

defines only one solution y(x), the so-called singular solution, whose graph is the envelope of the graphs of the general solutions. The singular solution is usually represented using parametric notation, as (x(p), y(p)), where p = dy/dx.

Examples

The following curves represent the solutions to two Clairaut's equations:

$f(p)=p^{2}$
$f(p)=p^{3}$

In each case, the general solutions are depicted in black while the singular solution is in violet.

Extension

By extension, a first-order partial differential equation of the form

\displaystyle u=xu_{x}+yu_{y}+f(u_{x},u_{y})

is also known as Clairaut's equation.^[2]

Notes

References

Clairaut, Alexis Claude (1734), "Solution de plusieurs problèmes où il s'agit de trouver des Courbes dont la propriété consiste dans une certaine relation entre leurs branches, exprimée par une Équation donnée.", Histoire de l'Académie royale des sciences: 196–215 .

Kamke, E. (1944), Differentialgleichungen: Lösungen und Lösungsmethoden (in German), 2. Partielle Differentialgleichungen 1er Ordnung für eine gesuchte Funktion, Akad. Verlagsgesell .

Rozov, N. Kh. (2001), "Clairaut equation", in Hazewinkel, Michiel, Encyclopedia of Mathematics, Springer, ISBN 978-1-55608-010-4 .

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