- #1
darkar
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How do u expand f(x,y) = y^2/x^2 about the point (1,-1) ? up to and including quadratic term?
Expanding the Function f(x,y) around (1,-1): What's the Easy Way?
- Thread starter darkar
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In summary, the conversation discusses expanding a multi-variable function about a given point up to the quadratic term using the Taylor series. The general term for the Taylor series is provided, and it is noted that the function can be written as a product of two known Taylor series. One person has used the Taylor series before, while the other has only used it for single variable functions. There is a brief discussion about a potential error in the general term.
- #2
Zurtex
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Have you ever used the taylor series on multi-variable functions before?darkar said:
- #3
darkar
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Not really, how? Have only done one variable so far.
- #4
HallsofIvy
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The general term in a Taylor's series for f(x,y) about the point (a,b) is
[tex]\frac{1}{(m+n)!}\frac{\partial^m f}{\partial x^m}\frac{\partial^n f}{\partial y^n}(x- a)^m(y- b)^n[/tex]
(edited. Thanks, daveb)
[tex]\frac{1}{(m+n)!}\frac{\partial^m f}{\partial x^m}\frac{\partial^n f}{\partial y^n}(x- a)^m(y- b)^n[/tex]
(edited. Thanks, daveb)
Last edited by a moderator:
- #5
daveb
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Shouldn't that (x - b)^n be (y - b)^n?
- #6
Hurkyl
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Bah, everybody likes to do it the hard way. 
f(x, y) is just a product of two things whose Taylor series you already know!
f(x, y) is just a product of two things whose Taylor series you already know!1. What is the domain of the function?
The domain of the function is all real numbers except for x = 0, as dividing by 0 is undefined.
2. What is the range of the function?
The range of the function is all non-negative real numbers, as y^2 and x^2 are always positive or zero.
3. Is this function symmetric about any axis?
Yes, this function is symmetric about the y-axis. This means that if we reflect the graph of the function across the y-axis, it will still be the same.
4. Are there any critical points for this function?
Yes, there is one critical point at (0,0). This is because the derivative of the function is undefined at this point.
5. How does the graph of this function change as x or y approaches infinity?
As x approaches infinity, the graph of the function approaches the x-axis. As y approaches infinity, the graph of the function approaches the line x=0.
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