Find all values of x for which the series converges. (Enter your answer using interval notation.) 00 Σε | 8. n = 0 For these values of x, write the sum of the series as a function of x. f(x) %D

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Author:Erwin Kreyszig
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Chapter2: Second-order Linear Odes
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### Problem Statement

**Find all values of \(x\) for which the series converges. (Enter your answer using interval notation.)**

\[ 
\sum_{n=0}^{\infty} 8 \left( \frac{x - 5}{8} \right)^n 
\]

\[ \text{Interval notation answer:} \quad [ \, \quad ] \]

**For these values of \(x\), write the sum of the series as a function of \(x\).**

\[ 
f(x) = \quad [ \, \quad ] 
\]

### Explanation:

To determine where the series converges and to find its sum as a function of \(x\) for those values, the following steps should be followed:

1. **Identify the type of series:** The given series appears to be a geometric series of the form:

   \[
   \sum_{n=0}^{\infty} ar^n
   \]

   where \(a = 8\) and \(r = \frac{x - 5}{8}\).

2. **Convergence of a geometric series:** A geometric series converges if the absolute value of the common ratio \(r\) is less than 1:

   \[
   |r| < 1
   \]

3. **Apply the convergence condition:** Substitute \(r\) with \(\frac{x - 5}{8}\):

   \[
   \left|\frac{x - 5}{8}\right| < 1
   \]

   This inequality can be solved to find the interval of \(x\) values for which the series converges.

4. **Summing the series:** If the series converges, its sum can be found using the formula for the sum of an infinite geometric series:

   \[
   S = \frac{a}{1 - r}
   \]

Substitute \(a = 8\) and \(r = \frac{x - 5}{8}\) into this formula to find the sum as a function of \(x\).

### Details and Interval Notation

We'll solve:

\[
\left|\frac{x - 5}{8}\right| < 1
\]

This implies:

\[
-1 < \frac{x - 5}{8} < 1
\]

Multiplying through by 8:

\[
-8 < x - 5
Transcribed Image Text:### Problem Statement **Find all values of \(x\) for which the series converges. (Enter your answer using interval notation.)** \[ \sum_{n=0}^{\infty} 8 \left( \frac{x - 5}{8} \right)^n \] \[ \text{Interval notation answer:} \quad [ \, \quad ] \] **For these values of \(x\), write the sum of the series as a function of \(x\).** \[ f(x) = \quad [ \, \quad ] \] ### Explanation: To determine where the series converges and to find its sum as a function of \(x\) for those values, the following steps should be followed: 1. **Identify the type of series:** The given series appears to be a geometric series of the form: \[ \sum_{n=0}^{\infty} ar^n \] where \(a = 8\) and \(r = \frac{x - 5}{8}\). 2. **Convergence of a geometric series:** A geometric series converges if the absolute value of the common ratio \(r\) is less than 1: \[ |r| < 1 \] 3. **Apply the convergence condition:** Substitute \(r\) with \(\frac{x - 5}{8}\): \[ \left|\frac{x - 5}{8}\right| < 1 \] This inequality can be solved to find the interval of \(x\) values for which the series converges. 4. **Summing the series:** If the series converges, its sum can be found using the formula for the sum of an infinite geometric series: \[ S = \frac{a}{1 - r} \] Substitute \(a = 8\) and \(r = \frac{x - 5}{8}\) into this formula to find the sum as a function of \(x\). ### Details and Interval Notation We'll solve: \[ \left|\frac{x - 5}{8}\right| < 1 \] This implies: \[ -1 < \frac{x - 5}{8} < 1 \] Multiplying through by 8: \[ -8 < x - 5
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