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Line 13: == Distinction from set-valued relations == [[File:Multivalued_functions_illustration.svg\|thumb\|right\|600px\|Illustration distinguishing multivalued functions from set-valued relations according to the criterion in page 29 of "''New Developments in Contact Problems"'' by Wriggers and Panatiotopoulos (2014).]] Although other authors may distinguish them differently (or not at all), Wriggers and Panatiotopoulos (2014) distinguish multivalued functions from set-valued relations (also called [[Set-valued function\|set-valued functions]]) by the fact that multivalued functions only take multiple values at denumerably many points, and otherwise behave like a [[Function (mathematics)\|function]].<ref name=":0">{{Cite book \|last=Wriggers \|first=Peter \|url=https://www.google.com.br/books/edition/New_Developments_in_Contact_Problems/R4lqCQAAQBAJ \|title=New Developments in Contact Problems \|last2=Panatiotopoulos \|first2=Panagiotis \|date=2014-05-04 \|publisher=Springer \|isbn=978-3-7091-2496-3 \|pages=29 \|language=en}}</ref> Geometrically, this means that the graph of a multivalued function is necessarily a line of zero area that doesn't loop, while the graph of a set-valued relations may contain solid filled areas or loops.<ref name=":0" /> == Motivation ==

Multivalued function: Difference between revisions