Let I be any interval disjoint from ( - 1,1 ) . Prove that the function f given by f(x) = x + x is strictly increasing on I .

We have, f(x) = x + x ,x I …(i) Differentiating (i) w.r.t. x , we get f'(x) = 1 - x 2 = - 1 x 2 As x 2 > 0 and in I, x 2 - 1 > 0 > 1 x 1 x ( - , ; - 1) or x (1, ; ) x ( - , ; - 1) (1, ; ) x R - ( - 1,1)f(x) is strictly increasing on I [ I is an interval which is a subset of R - ( - 1,1) ]

Application of Derivatives — Class 12 Maths Solution

ncert exercise SA NCERT Ex. 6.2, Q.15,Page 206

Question

Let $I$ be any interval disjoint from $\left( { - 1,1} \right)$. Prove that the function $f$ given by $f(x) = x + \cfrac{1}{x}$ is strictly increasing on $I$.

Step-by-step Solution

We have, $f(x) = x + \cfrac{1}{x},x \in I$ …(i)

Differentiating (i) w.r.t. $x$, we get $f'(x) = 1 - \cfrac{1}{{{x^2}}} = \cfrac{{{x^2} - 1}}{{{x^2}}}$

As ${x^2} > 0$ and in $I,{x^2} - 1 > 0 \Rightarrow {x^2} > 1 \Rightarrow x < - 1$ or $x > 1$

$\Rightarrow x \in ( - \infty ,\; - 1)$ or $x \in (1,\;\infty ) \Rightarrow x \in ( - \infty ,\; - 1) \cup (1,\;\infty )$

$\Rightarrow x \in R - ( - 1,1)f(x)$ is strictly increasing on $I$
[$I$ is an interval which is a subset of $R - ( - 1,1)$]

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