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Line 1: {{more footnotes\|date=October 2010}} ~~In mathematics, a '''radially unbounded function''' is a function <math>f: \mathbb{R}^n \rightarrow \mathbb{R}</math> for which~~ In mathematics, a '''radially unbounded function''' is a function <math>f: \mathbb{R}^n \rightarrow \mathbb{R}</math> for which <ref name="Terrell2009">{{Citation \| last1=Terrell \| first1=William J. \| title=Stability and stabilization \| publisher=[[Princeton University Press]] \| isbn=978-0-691-13444-4 \| idmr=~~{{MathSciNet \| id =~~ 2482799}} \| year=2009}}</ref>▼ :<math display="block">\\|x\\| \to \infty \Rightarrow f(x) \to \infty. \, </math> Or equivalently, ~~Such functions are applied in [[control theory]].~~ <math display="block">\forall c > 0:\exists r > 0 : \forall x \in \mathbb{R}^n: [\Vert x \Vert > r \Rightarrow f(x) > c]</math> Such functions are applied in [[control theory]] and required in [[Mathematical optimization\|optimization]] for determination of [[compact space]]s. Notice that the norm used in the definition can be any norm defined on <math> \mathbb{R}^n </math>, and that the behavior of the function along the axes does not necessarily reveal that it is radially unbounded or not; i.e. to be radially unbounded the condition must be verified along any path that results in: <math display="block">\\|x\\| \to \infty </math> For example, the functions <math display="block">\begin{align} f_1(x) &= (x_1-x_2)^2 \\ f_2(x) &= (x_1^2+x_2^2)/(1+x_1^2+x_2^2)+(x_1-x_2)^2 \end{align} </math> are not radially unbounded since along the line <math> x_1 = x_2 </math>, the condition is not verified even though the second function is globally positive definite. ==References== {{Reflist}} ▲{{Citation \| last1=Terrell \| first1=William J. \| title=Stability and stabilization \| publisher=[[Princeton University Press]] \| isbn=978-0-691-13444-4 \| id={{MathSciNet \| id = 2482799}} \| year=2009}} [[Category:Real analysis]] [[Category:Types of functions]] {{Mathanalysis-stub}}