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Can you please check if i solved this limit correctly?

$\lim_{x \to 1} \frac{\sin{(1-x)}}{\sqrt{x}-1} $

To skip writing of code , I'll just explain what i did .. First, I multiplied the expression by $\frac{\sqrt{x}+1}{\sqrt{x}+1}$. Then i got $\frac{\sin{(1-x)} * (\sqrt{x}+1)}{x-1}$. Next i pulled out the minus in from of the brackets in denumerator so i got: $\frac{\sin{(1-x)} * (\sqrt{x}+1)}{-(1-x)}$. Since $\frac{\sin{(1-x)}}{1-x}$ is equal to 1, I am left with $ -(\sqrt{x}+1)$. After exchanging x with 1 i get -2 as a result. Did i do this correctly?

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    Yea, sorry, I'm new to limits so i forget to write it xD. Thanks2012-10-28

2 Answers 2

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Applying L'Hospital (L'H), we get:

$\lim_{x\to 1}\frac{\sin(1-x)}{\sqrt x-1}\stackrel{L'H}=\lim_{x\to 1}\frac{-\cos(1-x)}{\frac{1}{2\sqrt x}}=\frac{-1}{\frac{1}{2}}=-2$

The above makes it sure you got the correct result in your development and that this last was very probably correct.

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    I would have applied the rule but i didn't do derivatives yet and Wikipedia says that it has something to do with derivatives :D2012-10-28
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$\lim_{x \to 1} \frac{\sin{(1-x)}}{\sqrt{x}-1}$

$=\lim_{x \to 1} \frac{\sin (1-x)(\sqrt x+1)}{x-1}$

Putting $h=1-x,$ so $h\to 0$ as $x\to 1,$ $=-\lim_{h \to 0} \frac{\sin h(\sqrt {1-h}+1)}h$

$=-\lim_{h \to 0} \frac{\sin h}h \cdot \lim_{h \to 0}(\sqrt {1-h}+1)$

$=-1\cdot 2=-2$