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Suppose $f: [1,2] \to [5,7]$ is continuous. Show that $f(c)=2c+3$ for some $c \in [1,2]$.

First note $f(1)=5$ and $f(2)=7$. By the IVT, all values $c \in [1,2]$ are hit. I'm just wondering how to put all of these facts together to arrive at $f(c)=2c+3$ for all $c \in [1,2]$.

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    You can't prove that $f(c) = 2c+3$ for _all_ $c \in [1,2]$, merely that there _exists_ such $c$. E.g. [$f(x) = 2x+3+\sin(2\pi x)$](http://www.wolframalpha.com/input/?i=Plot%5B2x%2B3%2Bsin%5B2Pi+x%5D%2C%7Bx%2C1%2C2%7D%5D) also fulfills the premises.2012-12-03

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