General Binomial Theorem/Examples/(1+2x)^(-3/2)
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Example of Use of General Binomial Theorem
- $\paren {1 + 2 x}^{-\frac 3 2} = 1 - 3 x + \dfrac {15} 2 x^2 - \dfrac {35} 2 x^3 + \cdots$
Proof
\(\ds \paren {1 + 2 x}^{-\frac 3 2}\) | \(=\) | \(\ds \sum_{n \mathop = 0}^\infty \frac {\paren {-\frac 3 2}^{\underline n} } {n!} \paren {2 x}^n\) | General Binomial Theorem | |||||||||||
\(\ds \) | \(=\) | \(\ds 1 + \paren {-\frac 3 2} \paren {2 x} + \dfrac {\paren {-\frac 3 2} \paren {-\frac 5 2} } {2!} \paren {2 x}^2 + \dfrac {\paren {-\frac 3 2} \paren {-\frac 5 2} \paren {-\frac 7 2} } {3!} \paren {2 x}^3 + \cdots\) | expanding term by term | |||||||||||
\(\ds \) | \(=\) | \(\ds 1 - 3 x + \dfrac {\paren {-3} \paren {-5} } {2^2 \times 2!} \paren {2 x}^2 + \dfrac {\paren {-3} \paren {-5} \paren {-7} } {2^3 \times 3!} \paren {2 x}^3 + \cdots\) | simplifying | |||||||||||
\(\ds \) | \(=\) | \(\ds 1 - 3 x + \dfrac {15} 2 x^2 - \dfrac {35} 2 x^3 + \cdots\) | simplifying |
$\blacksquare$
Sources
- 1953: L. Harwood Clarke: A Note Book in Pure Mathematics ... (previous) ... (next): $\text I$. Algebra: The Binomial Theorem: Exercises $\text {III}$: $1 \ \text {(b)}$