Lipschitz condition
A restriction on the behaviour of increase of a function. If for any points 
and 
belonging to an interval 
the increase of a function 
satisfies the inequality
 | (*) |
where 
and 
is a constant, then one says that 
satisfies a Lipschitz condition of order 
on 
and writes 
, 
or 
. Every function that satisfies a Lipschitz condition with some 
on 
is uniformly continuous on 
, and functions that satisfy a Lipschitz condition of order 
are absolutely continuous (cf. Absolute continuity; Uniform continuity). A function that has a bounded derivative on 
satisfies a Lipschitz condition on 
with any 
.
The Lipschitz condition (*) is equivalent to the condition
 |
where 
is the modulus of continuity (cf. Continuity, modulus of) of 
on 
. Lipschitz conditions were first considered by R. Lipschitz [1] as a sufficient condition for the convergence of the Fourier series of 
. In the case 
the condition (*) is also called a Hölder condition of order 
.
References
| [1] | R. Lipschitz, "De explicatione per series trigonometricas insttuenda functionum unius variablis arbitrariarum, et praecipue earum, quae per variablis spatium finitum valorum maximorum et minimorum numerum habent infintum disquisitio" J. Reine Angew. Math. , 63 (1864) pp. 296–308 |
| [2] | A. Zygmund, "Trigonometric series" , 1–2 , Cambridge Univ. Press (1988) MR0933759 Zbl 0628.42001 |
| [3] | I.P. Natanson, "Constructive function theory" , 1–3 , F. Ungar (1964–1965) (Translated from Russian) MR1868029 MR0196342 MR0196341 MR0196340 Zbl 1034.01022 Zbl 0178.39701 Zbl 0136.36302 Zbl 0133.31101 |
Lipschitz condition. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Lipschitz_condition&oldid=14093