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I need a function that does the following:

  • x can not be greater than 1
  • y can not be greater then 2
  • As x approaches the value 0, then y approaches, but does not reach the value 2.
  • As y approaches the 0, then x appproaches, but does not reach the value 1.

The graph of the function should look something like the following image, except for the part where the x value exceeds the value of 1. I need x to only approach the value of 1.

This is kinda what I'm looking for

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    "As$x$approaches the value 0, then$y$approaches, but does not reach the value 2." This is ambiguous. What about $y=2*(x-1)^2$? When $x$ "approaches" (but does not reach) 0, $y$ approaches (but does not reach) 1. Or perhaps you meant "when $x$ tends to 0, $y$ tends to some y_0<12011-09-14

1 Answers 1

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Why do you tag this conic sections? Does $y=2(1-x^p)$ , where $0 \lt p \lt 1$ and the smaller $p$ gets, the closer the bend is to the origin meet your needs? As Arturo Magidin suggests, you should state $x \in (0,1)$

Added: if you really want a conic section, you could use $y=\frac{2}{1-x}$ restricted to $(0,1).$ If that doesn't go deep enough into the corner, $y=\frac{2}{(1-x)^p}$, again with $0 \lt p \lt 1,$ is available, but is no longer a conic section.

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    @J.M.: No, I meant it to cancel; putting the factor in and using the usual rules about natural domain of functions excludes every point not on $(0,1)$, while leaving the value of $2(1-x^p)$ the same inside. Just like $\frac{x}{x}$ is not equal to the function $1$, because the former is not defined at $0$ while the latter is.2011-09-14