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Polynomial Inverse


sysD

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Ey ppl.

Here's the question:

 

Given the the points on the graph y=f(x), find the equation of y=f(x) and y=1/f(x). Label asymptotes.

Given Points: (-4,0), (-2, 2), (0,0), (2,4), (4,8), (6,0)

Therefore: [math]f(x) = k(x)(x-6)(x+4)[/math]

Using the local maxima (4,8), I began by solving the value of k.

 

[math]f(4) = 8 = k(x)(x-6)(x+4)[/math]

 

[math]8 = k(4)(-2)(8)[/math]

[math]8 = -64k[/math]

[math]k = 8/-64[/math]

[math]k = -1/8[/math]

 

Therefore: [math] k=(-1/8) [/math]

 

The revised equation for f(x) is:

[math] f(x) = -1/8(x+4)x(x-6) [/math]

 

This is where I get stuck. This equation does not yield the ordered points that were given at the beginning of the question.

I can't think of a vertical shift value © that would fix the equation.

 

Any tips?

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Okay i'm not shure. Are you shure it's polynomial? Remember those x-axis points may be qwadratic so that the graph only touches them.In other words (0;0) might be a turning point wich means it should be f(x)=x2(...) or any one of the other points. if you can confirm that it's a polynomial we know that it can only have 2 turning points. One somewhere where -2<x<2 and 2<x<6, and if you're shure that (4,8), is the local maximum(how do you know that?) we only need the one between -2<x<2. I've tried it with (0;0) as a turningpoint, you can too just too check me but it didn't work out. f(x) still didnt give all the points so therefore there must be another x-axis intercept between -2 and 2. Sorry if this is confusing but i'm just thinking outloud and hoping to give you some ideas but so far it looks to me like you're information isn't sufficient. Did they say something more about those co-ordinates(turning points or like you said local maximum etc.)

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Ey ppl.

Here's the question:

 

Given the the points on the graph y=f(x), find the equation of y=f(x) and y=1/f(x). Label asymptotes.

Given Points: (-4,0), (-2, 2), (0,0), (2,4), (4,8), (6,0)

Therefore: [math]f(x) = k(x)(x-6)(x+4)[/math]

Using the local maxima (4,8), I began by solving the value of k.

 

[math]f(4) = 8 = k(x)(x-6)(x+4)[/math]

 

[math]8 = k(4)(-2)(8)[/math]

[math]8 = -64k[/math]

[math]k = 8/-64[/math]

[math]k = -1/8[/math]

 

Therefore: [math] k=(-1/8) [/math]

 

The revised equation for f(x) is:

[math] f(x) = -1/8(x+4)x(x-6) [/math]

 

This is where I get stuck. This equation does not yield the ordered points that were given at the beginning of the question.

I can't think of a vertical shift value © that would fix the equation.

 

Any tips?

 

In general a polynomial is not determined solely by its real zeros, even up to a multiple. So while

[math] (x+4)x(x-6) [/math] is a factor of the specified polynomial, it is not the whole thing.

 

 

In general given n points there will be a polynomial of degree n-1 passing through those points. There will also be polynomials of higher degree, so the points that you have listed do not define a unique function.

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I should have mentioned that the question gave me a rough graph. The points I copied down are correct.

 

Here's a rough description of the graph:

 

End Behaviour

x --> (-) infinity, y --> (+) infinity

y --> (+) infinity, y --> (-) infinity

 

Turning Points

local minima: (-2,-2)

local maxima: (4,8)

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Quote:

 

Turning Points

local minima: (-2,-2)

local maxima: (4,8)

 

Here's the question:

 

Given the the points on the graph y=f(x), find the equation of y=f(x) and y=1/f(x). Label asymptotes.

Given Points: (-4,0), (-2, 2), (0,0), (2,4), (4,8), (6,0)

 

 

How can

(-2,-2) and (-2, 2) both be points on the graph, then you don't have a fuction

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Craxshot is correct - but I assume it is a typo. The y value at x=-2 is (I guess) -2 . This potentially allows only 2 turning points at the coordinates given - if the point is (-2,2) then three turning points are a minimum and equation cannot be a cubic - and whilst Dr R is correct, I am willing to bet that it is otherwise question is endless.

 

bearing in mind that there is at least one typo - could the OP check all the points? hey, if possible put up a scan of the question

 

Further more - and I stand to be corrected for faulty memory/intuition - are not cubics point symmetrical around the point of inflection (which must be x=1); and these points clearly are not symmetrical around point at x=1. So either Dr R is correct and it is just a portion of a higher order polynomial (of which you have found a lower order polynomial factor) - or you have more than one typo in the OP

Edited by imatfaal
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I'll try and be more specific on what exactly I'm having trouble with:

 

The graph itself is shaped like a backwards "N" with points at (-4,0), (-2,-2), (0,0), (2,4), (4,8), (6,0)

Turning points on the graph are at (-2,-2) and (4,8).

 

Using the x-intercepts (y=0) for the unknown function, i formulated a basic equation.

 

[math] f(x) = k(x+4)(x)(x-6) [/math]

 

Solving for "k" using the point (4,8) yielded:

 

[math] k = -1/8 [/math]

 

The revised equation is:

 

[math] f(x) = (-1/8)(x+4)(x)(x-6) [/math]

 

Wolfram shows me this (which looks very similar to the graph given in the question:

 

http://www.wolframalpha.com/input/?i=f%28x%29%3D%28-1%2F8%29%28x%2B4%29%28x%29%28x-6%29

 

However, its off in some key places. The places it is correct seem to be the points used to intuit the equation (4,8) and the intercepts.

I'm going to try to incorporate some other points into this...

Edited by sysD
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sysD - I think you have more points wrong (either typos or in the question as given). Either as DocRock explained you have a question asking for high order equations, or if you are meant to be looking for a cubic (ie x to power three) then there is something wrong.

 

On your graph - of course the x axis intercepts are correct, they are the roots that you based your equation on - they could not be wrong. The turning points are wrong!

 

 

[math] f(x) = (-1/8)(x+4)(x)(x-6) [/math]

 

[math] y=\frac{-x^3}{8}+\frac{x^2}{4}+3x[/math]

 

[math] \frac{dy}{dx} = \frac{-3x^3}{8}+\frac{x}{2}+3[/math]

 

local minima and maxima will be when derivative equals zero - using quadratic solution when x equals

 

[math] \frac{-b \pm \sqrt{b^2-4ac}}{2a}[/math]

 

[math] \frac{-1/2 \pm \sqrt{(1/2)^2-4(-3/8)(3)}}{2(-3/8)}[/math]

 

simplify to (by multiplying through by -8/2)

 

[math] \frac{2 \pm -4(\sqrt{(2/8)+(36/8)})}{3}[/math]

 

sort out sqrt

 

[math] \frac{2 \pm -4\sqrt{19/4}}{3}[/math]

 

take a factor of two into sqrt

 

[math] \frac{2 \pm 2\sqrt{19}}{3}[/math]

 

and separate for ease of reading

 

[math] \frac{2}{3} \pm \frac{2\sqrt{19}}{3}[/math]

 

Now those turning points do not meet up with yours - ie (4,8) is no longer a turning point and neither is (-2,-2)

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imatfall: thanks for the pointers

 

 

 

 

 

 

So it seems things have gotten a bit off track. The corrected points are correct. The question never asked for the details of f(x), merely a sketch of its reciprocal.

 

 

 

 

 

 

 

 

I found the reciprocal of "y" values to find the graph y=1/f(x)

 

------------------------------------------

Okay, here's what I have:

 

The graph of f(x)=1/y

Domain: xER, x cannot = -4, 0, 6

Range: yER, y cannot = 0

Therefore:

Asymptotes @ (x=-4, x=0, x=6) & (y=0)

 

The first quadrant of the graph (upper right) contains a line with points at (2, 1/2) and (4, 1/8).

As "x" approaches 0 from the right, "y" approaches infinity.

As "x" approaches infinity, "y" approaches 0.

 

The second and fourth quadrants are empty.

 

The third quadrant contains a downward facing parabola with the vertex at (-2, -1/2).

As "x" approaches 0 from the left, "y" approaches negative infinity.

As "x" approaches -4, "y" approaches negative infinity.

 

__________________________________________________

Edited by sysD
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  • 2 weeks later...

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