How Do You Solve the Limit of (x^3-2x)/(x-2) as x Approaches 2?

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SUMMARY

The limit of the function (x^3-2x)/(x-2) as x approaches 2 does not exist, as the polynomial evaluates to 10 while the denominator approaches zero, resulting in the function approaching infinity. Attempts to apply L'Hôpital's rule are invalid in this case since the rational function does not meet the criteria for indeterminate forms. Long division of polynomials can be used to simplify the expression, yielding x^2 + 2x + 2 + 4/(x-2), but ultimately confirms that the limit diverges.

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Homework Statement


lim x->2 (x^3-2x)/(x-2)

i have done this one thousand ways... factor out the x, multiply top and bottom by (x-2) and (x+2)... i have tried lots of things but i can't get it to work, any tips how to start this off?
 
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Try long division and then express the remainder term as a rational function, and then apply L'hopital's rule to it.
 
yeah, we definitely haven't gone that far...
 
Long division of polynomials is just like normal long division and many tutorials are on the internet. Using it we get the following result: \frac{x^3-2x}{x-2} = x^2 + 2x+ 2 + \frac{4}{x-2}.

You should check it by expanding the right hand side.

The first part, the polynomial, evaluates to 10. The fraction's denominator goes to zero, so that part goes to infinity. Hence the limit does not exist (the function approaches infinity as x approaches 2).

bel, you can't apply L'hopital's rule to the ration function because it does not fit any of the indeterminate forms. Using it leads to an incorrect result.
 
skateza said:

Homework Statement


lim x->2 (x^3-2x)/(x-2)

i have done this one thousand ways... factor out the x, multiply top and bottom by (x-2) and (x+2)... i have tried lots of things but i can't get it to work, any tips how to start this off?

The first thing you should do with a limit is to put the number in, completely ignoring the fact that it's a limit. If you get something like x/0 where x isn't 0, then no fooling about with anything will make that limit finite. So in this case, the limit is simply infinite.
 

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