Continuous or discrete variable: Difference between revisions

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Revision as of 10:26, 22 May 2025 edit 172.91.107.147 (talk) →Discrete variable: Not all discrete variables are count variables. For example, a discrete rating scale from 1 to 5. Or shoe size that only comes in wholes and halves. ← Previous edit		Latest revision as of 03:10, 17 July 2025 edit undo Citation bot (talk \| contribs) Bots 5,867,176 edits Removed URL that duplicated identifier. \| Use this bot. Report bugs. \| #UCB_CommandLine
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Line 9: A '''continuous variable''' is a variable such that there are possible values between any two values. For example, a variable over a non-empty range of the [[real number]]s is continuous, if it can take on any value in that range.<ref>{{cite journal \|last1=Brzychczy \|first1=Stanisaw \|last2=Gorniewicz \|first2=Lech \|title=Continuous and discrete models of neural systems in infinite-dimensional abstract spaces \|journal=Neurocomputing \|date=2011 \|volume=74 \|issue=17 \|pages=2711–2715 \|doi=10.1016/j.neucom.2010.11.005}}</ref> Methods of [[calculus]] are often used in problems in which the variables are continuous, for example in continuous [[optimization]] problems.<ref>{{Cite book \|last1=Griva \|first1=Igor ~~\|url=https://www.worldcat.org/oclc/236082842~~ \|title=Linear and nonlinear optimization \|last2=Nash \|first2=Stephen \|last3=Sofer \|first3=Ariela\|author3-link= Ariela Sofer \|publisher=Society for Industrial and Applied Mathematics \|year=2009 \|isbn=978-0-89871-661-0 \|edition=2nd \|___location=Philadelphia \|pages=7 \|language=en \|oclc=236082842}}</ref> In [[statistics\|statistical theory]], the [[probability distribution]]s of continuous variables can be expressed in terms of [[probability density function]]s.<ref name="Springer Texts in Statistics">{{cite journal \|last1=Dekking \|first1=Frederik Michel \|last2=Kraaikamp \|first2=Cornelis \|last3=Lopuhaä \|first3=Hendrik Paul \|last4=Meester \|first4=Ludolf Erwin \|date=2005 \|title=A Modern Introduction to Probability and Statistics \|url=https://doi.org/10.1007/1-84628-168-7 \|journal=Springer Texts in Statistics \|language=en \|doi=10.1007/1-84628-168-7 \|isbn=978-1-85233-896-1 \|issn=1431-875X\|url-access=subscription }}</ref> In [[continuous time\|continuous-time]] [[dynamical system\|dynamics]], the variable ''time'' is treated as continuous, and the equation describing the evolution of some variable over time is a [[differential equation]].<ref>{{cite journal \|last1=Poyton \|first1=A. A. \|last2=Varziri \|first2=Mohammad Saeed \|last3=McAuley \|first3=Kimberley B. \|last4=MclellanPat James \|first4=Pat James \|last5=Ramsay \|first5=James O. \|title=Parameter estimation in continuous-time dynamic models using principal differential analysis \|journal=Computers & Chemical Engineering \|date=February 15, 2006 \|volume=30 \|issue=4 \|pages=698–708 \|doi=10.1016/j.compchemeng.2005.11.008}}</ref> The [[instantaneous rate of change]] is a well-defined concept that takes the ratio of the change in the dependent variable to the independent variable at a specific instant.