Difference between revisions of "009C Sample Midterm 1, Problem 2"

Consider the infinite series ${\displaystyle \sum _{n=2}^{\infty }2{\bigg (}{\frac {1}{2^{n}}}-{\frac {1}{2^{n+1}}}{\bigg )}.}$

a) Find an expression for the ${\displaystyle n}$th partial sum ${\displaystyle s_{n}}$ of the series.

b) Compute ${\displaystyle \lim _{n\rightarrow \infty }s_{n}.}$

Foundations:
The ${\displaystyle n}$th partial sum, ${\displaystyle s_{n}}$ for a series ${\displaystyle \sum _{n=1}^{\infty }a_{n}}$
is defined as
${\displaystyle s_{n}=\sum _{i=1}^{n}a_{i}.}$

Solution:

(a)

Step 1:
We need to find a pattern for the partial sums in order to find a formula.
We start by calculating ${\displaystyle s_{2}}$. We have
${\displaystyle s_{2}=2{\bigg (}{\frac {1}{2^{2}}}-{\frac {1}{2^{3}}}{\bigg )}.}$

Step 2:
Next, we calculate ${\displaystyle s_{3}}$ and ${\displaystyle s_{4}.}$ We have
${\displaystyle {\begin{array}{rcl}\displaystyle {s_{3}}&=&\displaystyle {2{\bigg (}{\frac {1}{2^{2}}}-{\frac {1}{2^{3}}}{\bigg )}+2{\bigg (}{\frac {1}{2^{3}}}-{\frac {1}{2^{4}}}{\bigg )}}\\&&\\&=&\displaystyle {2{\bigg (}{\frac {1}{2^{2}}}-{\frac {1}{2^{4}}}{\bigg )}}\end{array}}}$
and
${\displaystyle {\begin{array}{rcl}\displaystyle {s_{4}}&=&\displaystyle {2{\bigg (}{\frac {1}{2^{2}}}-{\frac {1}{2^{3}}}{\bigg )}+2{\bigg (}{\frac {1}{2^{3}}}-{\frac {1}{2^{4}}}{\bigg )}+2{\bigg (}{\frac {1}{2^{4}}}-{\frac {1}{2^{5}}}{\bigg )}}\\&&\\&=&\displaystyle {2{\bigg (}{\frac {1}{2^{2}}}-{\frac {1}{2^{5}}}{\bigg )}.}\end{array}}}$

Step 3:
If we look at ${\displaystyle s_{2},s_{3},s_{4},}$ we notice a pattern.
From this pattern, we get the formula
${\displaystyle s_{n}=2{\bigg (}{\frac {1}{2^{2}}}-{\frac {1}{2^{n+1}}}{\bigg )}.}$

(b)

Final Answer:
(a)     ${\displaystyle s_{n}=2{\bigg (}{\frac {1}{2^{2}}}-{\frac {1}{2^{n+1}}}{\bigg )}}$
(b)

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