Difference between revisions of "Decreasing function"
From Encyclopedia of Mathematics
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| − | + | A function $ f $ | |
| + | defined on a set $ E $ | ||
| + | of real numbers such that the condition | ||
| − | < | + | $$ |
| + | x ^ \prime < x ^ {\prime\prime} ,\ \ | ||
| + | x ^ \prime , x ^ {\prime\prime} \in E, | ||
| + | $$ | ||
| − | + | implies | |
| + | $$ | ||
| + | f ( x ^ \prime ) > f ( x ^ {\prime\prime} ). | ||
| + | $$ | ||
| + | Sometimes such a function is called strictly decreasing and the term "decreasing function" is applied to functions satisfying for the indicated values $ x ^ \prime , x ^ {\prime\prime} $ | ||
| + | only the condition $ f ( x ^ \prime ) \geq f ( x ^ {\prime\prime} ) $( | ||
| + | a non-increasing function). Every strictly decreasing function has an inverse function, which is again strictly decreasing. If $ x _ {0} $ | ||
| + | is a left-hand (respectively, right-hand) limit point of $ E $, | ||
| + | $ f $ | ||
| + | is non-increasing and if the set $ \{ {y } : {y = f ( x), x > x _ {0} , x \in E } \} $ | ||
| + | is bounded from above (respectively, $ \{ {y } : {y = f ( x), x < x _ {0} , x \in E } \} $ | ||
| + | is bounded from below), then for $ x \rightarrow x _ {0} + 0 $( | ||
| + | respectively, $ x \rightarrow x _ {0} - 0 $), | ||
| + | $ x \in E $, | ||
| + | $ f ( x) $ | ||
| + | has a finite limit; if the given set is not bounded from above (respectively, from below), then $ f ( x) $ | ||
| + | has an infinite limit, equal to $ + \infty $( | ||
| + | respectively, $ - \infty $). | ||
====Comments==== | ====Comments==== | ||
| − | A function | + | A function $ f $ |
| + | such that $ - f $ | ||
| + | is decreasing is called increasing (cf. [[Increasing function|Increasing function]]). | ||
Latest revision as of 17:32, 5 June 2020
A function $ f $
defined on a set $ E $
of real numbers such that the condition
$$ x ^ \prime < x ^ {\prime\prime} ,\ \ x ^ \prime , x ^ {\prime\prime} \in E, $$
implies
$$ f ( x ^ \prime ) > f ( x ^ {\prime\prime} ). $$
Sometimes such a function is called strictly decreasing and the term "decreasing function" is applied to functions satisfying for the indicated values $ x ^ \prime , x ^ {\prime\prime} $ only the condition $ f ( x ^ \prime ) \geq f ( x ^ {\prime\prime} ) $( a non-increasing function). Every strictly decreasing function has an inverse function, which is again strictly decreasing. If $ x _ {0} $ is a left-hand (respectively, right-hand) limit point of $ E $, $ f $ is non-increasing and if the set $ \{ {y } : {y = f ( x), x > x _ {0} , x \in E } \} $ is bounded from above (respectively, $ \{ {y } : {y = f ( x), x < x _ {0} , x \in E } \} $ is bounded from below), then for $ x \rightarrow x _ {0} + 0 $( respectively, $ x \rightarrow x _ {0} - 0 $), $ x \in E $, $ f ( x) $ has a finite limit; if the given set is not bounded from above (respectively, from below), then $ f ( x) $ has an infinite limit, equal to $ + \infty $( respectively, $ - \infty $).
Comments
A function $ f $ such that $ - f $ is decreasing is called increasing (cf. Increasing function).
How to Cite This Entry:
Decreasing function. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Decreasing_function&oldid=14392
Decreasing function. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Decreasing_function&oldid=14392
This article was adapted from an original article by L.D. Kudryavtsev (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article