I am kind of confused when it comes to finding this limit:
$\displaystyle\lim_{x\rightarrow\infty}\frac{\sqrt{1+x^2}}{x^2}$
I did
$\dfrac{\dfrac{1}{2}\dfrac{1}{\sqrt{\arctan(x)}}}{2x}$
then I am kind of stuck I know I can multiply the complex fraction and get
$\dfrac{1}{4x \arctan(x)}$
but it does not make sense.
Alternatively, note that $$\sqrt{1+x^2}=\sqrt{x^2\left(1+\frac1{x^2}\right)}=\sqrt{x^2}\cdot\sqrt{1+\frac1{x^2}}=|x|\cdot\sqrt{1+\frac1{x^2}},$$ so that $$\frac{\sqrt{1+x^2}}{x^2}=\frac{x\cdot\sqrt{1+\frac1{x^2}}}{x^2}=\frac{\sqrt{1+\frac1{x^2}}}x$$ for $x>0$.
Added: Yet another, simpler way, pointed out by egreg in the comments, is to note that $x^2=\sqrt{x^4},$ so that $$\frac{\sqrt{1+x^2}}{x^2}=\sqrt{\frac{1+x^2}{x^4}}=\sqrt{\frac1{x^4}+\frac1{x^2}}$$ for $x\ne 0$.
Let $x>1$ so $2x^2 > 1 + x^2$ $$\frac{\sqrt{1+x^2}}{x^2} < \frac{\sqrt{2x^2}}{x^2} = \sqrt 2 \frac{|x|}{|x|^2} = \frac{\sqrt 2}{|x|}$$ From here the limit should be clear, since $$\frac{\sqrt{1+x^2}}{x^2} \geq 0 \qquad \forall\ x\in \mathbb R$$
For x is large $\Longrightarrow$ $\sqrt{1+x^2} \sim \sqrt{x^2} =|x|$.
Hence, $\frac{\sqrt{1+x^2}}{x^2} \sim \frac{|x|}{x^2}=\frac{|x|}{|x|^2}=\frac{1}{|x|}$.
Therefore: $$\lim_{x \to \infty} \frac{\sqrt{1+x^2}}{x^2} = \lim_{x\to\infty}\frac{1}{|x|}=0$$
For $x>0$ we have: $\lim_{x\to\infty}\frac{\sqrt{1+x^2}}{x^2}=\lim_{x\to\infty}\frac{\sqrt{x^2\left(1+\frac{1}{x^2}\right)}}{x^2}=\lim_{x\to\infty}\frac{\sqrt{x^2}\cdot\sqrt{1+\frac{1}{x^2}}}{x^2}=\lim_{x\to\infty}\frac{x}{x^2}=\lim_{x\to\infty}\frac{1}{x}=0$
x=tant then the limit becomes sect*cot²t where t now approaches pi/2 from the left. Simplifying gives a cost in the num and a sin²t in the denom. Plugging in the t gives 0
HINT:$$\frac{\sqrt{1+x^2}}{x^2}=\frac{\sqrt{1+x^2}:x}{x^2:x}=\frac{\sqrt{1/x^2+1}}{x}$$
Here is another approach (especially for you too Alex). Draw right triangle with 1 as the opposite of angle t and x^2 as the adjacent. Now the hypotenuse can be found with Pythaogras and is ofcourse the radical term in the limit. As x goes to infinity, sint goes to zero, and as a result, t goes to zero. Now you got limits, geometry and trig all in one!