Monotonic function: Difference between revisions

From Citizendium
Jump to navigation Jump to search
imported>Richard Pinch
mNo edit summary
 
(One intermediate revision by one other user not shown)
Line 1: Line 1:
{{subpages}}
In [[mathematics]], a [[function (mathematics)]] is '''monotonic''' or '''monotone increasing''' if it preserves [[order (relation)|order]]: that is, if inputs ''x'' and ''y'' satisfy <math>x \le y</math> then the outputs from ''f'' satisfy <math>f(x) \le f(y)</math>.  A '''monotonic decreasing''' function similarly reverses the order.  A function is '''strictly monotonic''' if inputs ''x'' and ''y'' satisfying <math>x < y</math> have outputs from ''f'' satisfying <math>f(x) < f(y)</math>: that is, it is [[injective function|injective]] in addition to being montonic.
In [[mathematics]], a [[function (mathematics)]] is '''monotonic''' or '''monotone increasing''' if it preserves [[order (relation)|order]]: that is, if inputs ''x'' and ''y'' satisfy <math>x \le y</math> then the outputs from ''f'' satisfy <math>f(x) \le f(y)</math>.  A '''monotonic decreasing''' function similarly reverses the order.  A function is '''strictly monotonic''' if inputs ''x'' and ''y'' satisfying <math>x < y</math> have outputs from ''f'' satisfying <math>f(x) < f(y)</math>: that is, it is [[injective function|injective]] in addition to being montonic.


Line 8: Line 9:


==References==
==References==
* {{cite book | author=A.G. Howson | title=A handbook of terms used in algebra and analysis | publisher=[[Cambridge University Press]] | year=1972 | isbn=0-521-09695-2 | pages=115,119 }}
* {{cite book | author=A.G. Howson | title=A handbook of terms used in algebra and analysis | publisher=[[Cambridge University Press]] | year=1972 | isbn=0-521-09695-2 | pages=115,119 }}[[Category:Suggestion Bot Tag]]

Latest revision as of 06:00, 21 September 2024

This article is developing and not approved.
Main Article
Discussion
Related Articles  [?]
Bibliography  [?]
External Links  [?]
Citable Version  [?]
 
This editable Main Article is under development and subject to a disclaimer.

In mathematics, a function (mathematics) is monotonic or monotone increasing if it preserves order: that is, if inputs x and y satisfy then the outputs from f satisfy . A monotonic decreasing function similarly reverses the order. A function is strictly monotonic if inputs x and y satisfying have outputs from f satisfying : that is, it is injective in addition to being montonic.

A differentiable function on the real numbers is monotonic when its derivative is non-zero: this is a consequence of the Mean Value Theorem.

Monotonic sequence

A special case of a monotonic function is a sequence regarded as a function defined on the natural numbers. So a sequence is monotonic increasing if implies . In the case of real sequences, a monotonic sequence converges if it is bounded. Every real sequence has a monotonic subsequence.

References