Difference between revisions of "009C Sample Final 1, Problem 1"

Compute

a) ${\displaystyle \lim _{n\rightarrow \infty }{\frac {3-2n^{2}}{5n^{2}+n+1}}}$

b) ${\displaystyle \lim _{n\rightarrow \infty }{\frac {\ln n}{\ln 3n}}}$

Solution:

(a)

Step 1:
First, we switch to the limit to ${\displaystyle x}$ so that we can use L'Hopital's rule.
So, we have
${\displaystyle {\begin{array}{rcl}\displaystyle {\lim _{x\rightarrow \infty }{\frac {3-2x^{2}}{5x^{2}+x+1}}}&{\overset {l'H}{=}}&\displaystyle {\lim _{x\rightarrow \infty }{\frac {-4x}{10x+1}}}\\&&\\&{\overset {l'H}{=}}&\displaystyle {\frac {-4}{10}}\\&&\\&=&\displaystyle {\frac {-2}{5}}\end{array}}}$

Step 2:
Hence, we have
${\displaystyle \lim _{n\rightarrow \infty }{\frac {3-2n^{2}}{5n^{2}+n+1}}={\frac {-2}{5}}}$.

(b)

Step 1:
Again, we switch to the limit to ${\displaystyle x}$ so that we can use L'Hopital's rule.
So, we have
${\displaystyle {\begin{array}{rcl}\displaystyle {\lim _{x\rightarrow \infty }{\frac {\ln x}{\ln(3x)}}}&{\overset {l'H}{=}}&\displaystyle {\lim _{x\rightarrow \infty }{\frac {\frac {1}{x}}{\frac {3}{3x}}}}\\&&\\&=&\displaystyle {\lim _{x\rightarrow \infty }1}\\&&\\&=&1\end{array}}}$

Step 2:
Hence, we have
${\displaystyle \lim _{n\rightarrow \infty }{\frac {\ln n}{\ln 3n}}=1}$.

Final Answer:
(a) ${\displaystyle {\frac {-2}{5}}}$
(b) ${\displaystyle 1}$

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