 # Find the intervals in which the following functions are increasing or decreasing. Question:

Find the intervals in which the following functions are increasing or decreasing.

$f(x)=2 x^{3}-15 x^{2}+36 x+1$

Solution:

Given:- Function $f(x)=2 x^{3}-15 x^{2}+36 x+1$

Theorem:- Let $f$ be a differentiable real function defined on an open interval $(a, b)$.

(i) If $f^{\prime}(x)>0$ for all $x \in(a, b)$, then $f(x)$ is increasing on $(a, b)$

(ii) If $f^{\prime}(x)<0$ for all $x \in(a, b)$, then $f(x)$ is decreasing on $(a, b)$

Algorithm:-

(i) Obtain the function and put it equal to $f(x)$

(ii) Find $f^{\prime}(x)$

(iii) Put $f^{\prime}(x)>0$ and solve this inequation.

For the value of $x$ obtained in (ii) $f(x)$ is increasing and for remaining points in its domain it is decreasing.

Here we have,

$f(x)=2 x^{3}-15 x^{2}+36 x+1$

$\Rightarrow f^{\prime}(x)=\frac{d}{d x}\left(2 x^{3}-15 x^{2}+36 x+1\right)$

$\Rightarrow f^{\prime}(x)=6 x^{2}-30 x+36$

For $f(x)$ lets find critical point, we must have

$\Rightarrow f^{\prime}(x)=0$

$\Rightarrow 6 x^{2}-30 x+36=0$

$\Rightarrow 6\left(x^{2}-5 x+6\right)=0$

$\Rightarrow 3\left(x^{2}-3 x-2 x+6\right)=0$

$\Rightarrow x^{2}-3 x-2 x+6=0$

$\Rightarrow(x-3)(x-2)=0$

$\Rightarrow x=3,2$

clearly, $f^{\prime}(x)>0$ if $x<2$ and $x>3$

and $f^{\prime}(x)<0$ if $2 Thus,$f(x)$increases on$(-\infty, 2) \cup(3, \infty)$and$f(x)$is decreasing on interval$x \in(2,3)\$