Question regarding Power Series

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Homework Help Overview

The discussion revolves around the classification of a series, specifically the sum ## \sum_{0}^{\infty} 8^{-n}(x^2-1)^n ##, and whether it qualifies as a power series. Participants are examining the implications of substituting ##y=x^2-1## to transform the series into a power series of the form ##\sum_{0}^{\infty} 8^{-n}y^n##.

Discussion Character

  • Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants are questioning the definition of a power series and discussing the implications of having a polynomial expression like ##x^2-1## versus a monomial in ##x##. There are attempts to clarify why the original series does not fit the criteria of a power series.

Discussion Status

The discussion is active with multiple viewpoints being expressed regarding the nature of power series. Some participants are providing insights into the definitions involved, while others are seeking further clarification on the reasoning behind the classification of the series.

Contextual Notes

There is a focus on the definitions and properties of power series, with some participants emphasizing the need for a monomial structure in the variable. The discussion reflects a mix of interpretations regarding the original series and its transformation.

Potatochip911
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Homework Statement


It is stated in my textbook that the sum ## \sum_{0}^{\infty} 8^{-n}(x^2-1)^n ## is not a power series but can be turned into one using he substitution ##y=x^2-1## which then becomes the power series ##\sum_{0}^{\infty} 8^{-n}y^n ## They aren't offering any explanation as to why and I have evaluated the interval on which the series converges and it gives the same result regardless of whether or not the substitution is used. I guess what I'm wondering is why isn't the first sum a power series?

Homework Equations

The Attempt at a Solution

 
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The x2 inside the parenthesis makes it not a power series. A power series must have x1 inside the parenthesis.
 
Jazzman said:
The x2 inside the parenthesis makes it not a power series. A power series must have x1 inside the parenthesis.
Okay thanks for the information.
 
Well, technically it is a power series in ##x^2-1##.
 
Jazzman said:
The x2 inside the parenthesis makes it not a power series. A power series must have x1 inside the parenthesis.

No. A series of the form ##\sum c_n x^{2n}## IS a power series. The reason the series ##\sum_n 8^{-n}(x^2-1)^n## is not a power series (in ##x##) is that it takes powers of a multi-term polynomial of ##x##, rather than of a monomial in ##x##. That is, the function ##x^2-1## is not a monomial.
 

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