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Change of Variables

Let f: [0, 2]...

Question

Let $f : [0, 2] \to R$ be a function which is continuous on $[0, 2]$ and is differentiable on $(0, 2)$ with $f (0) = 1.$ Let $F (x) = x^{2} \int 0 f (\sqrt{t}) d t,$ for $x \in [0, 2]$ . If $F^{'} (x) = f^{'} (x), \forall x \in (0, 2),$ then $F (2)$ equals

A

e^{2} - 1

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B

e^{4} - 1

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C

e - 1

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D

e^{4}

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Solution

The correct option is B $e^{4} - 1$
We know that,
$F (x) = x^{2} \int 0 f (\sqrt{t}) d t$
$F (0) = 0$
$F^{'} (x) = 2 x f (x) = f^{'} (x) \Rightarrow \int \frac{f^{'} (x)}{f (x)} d x = \int 2 x d x \Rightarrow ln f (x) = x^{2} + c$

Given, $f (0) = 1 \Rightarrow c = 0$
$\Rightarrow f (x) = e^{x^{2}}$
So,
$F (x) = x^{2} \int 0 e^{t} d t \Rightarrow F (x) = [e^{t}]_{0}^{x^{2}} = e^{x^{2}} - 1 \Rightarrow F (2) = e^{4} - 1$

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Similar questions

f : [0, 2] \to

R be a function which is continuous on [0, 2] and is differentiable on (0, 2) with

f (0) = 1

F (x) = \int_{0}^{x^{2}} f (\sqrt{t}) d t

x \in [0, 2]

F^{'} (x) = f^{'} (x)

\in (0, 2)

, then F(2) equals:

f : [0, 2] \to R

be a function which is continuous on

[0, 2]

and is differentiable on

(0, 2)

f (0) = 1

F (x) = x^{2} \int 0 f (\sqrt{t}) d t

x \in [0, 2]

F^{'} (x) = f^{'} (x)

x \in (0, 2),

F (2)

f (x)

be a differentiable function defined on

[0, 2]

f^{'} (x) = f^{'} (2 - x)

x \in (0, 2),

f (0) = 1

f (2) = e^{2} .

Then the value of

2 \int 0 f (x) d x

f

be a twice differentiable function defined on

R

f (0) = 1,

f^{'} (0) = 2

f^{'} (x) \neq 0

x \in R .

∣ ∣ ∣ \begin{matrix} f (x) & f^{'} (x) f^{'} (x) & f^{''} (x) \end{matrix} ∣ ∣ ∣ = 0,

x \in R,

then the value of

f (1)

lies in the interval

f

be a non-negative function in

[0, 1]

and twice differentiable in

(0, 1) .

x \int 0 \sqrt{1 - (f^{'} (t))^{2}} d t = x \int 0 f (t) d t, 0 \leq x \leq 1

f (0) = 0,

lim x \to 0 \frac{1}{x^{2}} x \int 0 f (t) d t

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