$\"\"$

The function is $\"\"$ .

Domain :

The function $\"\"$ .

The function is continuous for all the points except at $\"\"$ .

Thus the domain of the function is $\"\"$ .

Intercepts :

Find the $\"\"$ -intercept by substituting $\"\"$ :

$\"\"$

Thus, $\"\"$ -intercept is $\"\"$ .

Find the $\"\"$ -intercept by substituting $\"\"$ .

$\"\"$

Thus, $\"\"$ -intercept is $\"\"$ .

$\"\"$

Symmetry :

If $\"\"$ , then the function $\"\"$ is even and it is symmetric about $\"\"$ -axis.

If $\"\"$ , then the function $\"\"$ is odd and it is symmetric about origin.

$\"\"$

Here $\"\"$

Thus, the function $\"\"$ is neither even nor odd.

$\"\"$

Asymptotes :

Vertical asymptote exist when denominator is zero.

Equate denominator to zero.

$\"\"$

Vertical asymptote is $\"\"$

Horizontal asymptote:

The line $\"\"$ is called a horizontal asymptote of the curve $\"\"$ if either $\"\"$ or $\"\"$

$\"\"$

Thus, the horizontal asymptote is $\"\"$

$\"\"$

Intervals of increase or decrease :

Differentiate $\"\"$ with respect to $\"\"$ :

$\"\"$

$\"\"$ is never zero on its domain.

$\"\"$ is increasing on its domain because $\"\"$

$\"\"$

Determination of extrema :

$\"\"$ is an increasing function, hence there is no chance of local minimum or maximum.

$\"\"$

Determination of inflection point:

Differentiate $\"\"$ with respect to $\"\"$ :

$\"\"$

$\"\"$ is never zero.

Hence, there is no inflection points.

But at $\"\"$ the function is undefined.

Consider the test intervals as $\"\"$ and $\"\"$

\ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \ \

\ Interval \	Test Value	Sign of $\"\"$	Concavity
$\"\"$	$\"\"$	\ $\"\"$ \	Up
$\"\"$	$\"\"$	\ $\"\"$ \	\ Down \

Thus, the graph is concave up on the interval $\"\"$ .

The graph is concave down on the interval $\"\"$ .

$\"\"$

Graph of the function $\"\"$ :

$\"\"$

Graph of the function $\"\"$ :

$\"\"$ .