Question:
The value of the definite integral $\int _0^1 (1+e^{-x^2}) dx \, is$
The value of the definite integral $\int _0^1 (1+e^{-x^2}) dx \, is$
Updated On: Jun 14, 2022
- 1
- 2
- $1+e^{-1}$
- None of these
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The Correct Option is D
Solution and Explanation
If f(x) is a continuous function defined on [a, b], then
$ \ \ \ \ \ \ \ \ \ \ \ \ \ m(b-a) \le \ \int_a^bf(x) dx \le \ M(b-a)$
where, M and m are maximum and minimum values
respectively of f(x) in [a, b].
Here, f(x) = 1 + e$^{-x^2}$ is continuous in [0,1],
Now, $0 < x < 1 \ \Rightarrow \ \ x^2 < x \ \Rightarrow \ \ e^{x^2} < e^x \ \ e^{-x^2} > e^{-x}$
Again, 0 < x < 1$\Rightarrow \ \,x^2 >0 \ \Rightarrow \\ e^{x^2} > e^0 \ \Rightarrow \ e^{-x^3} <1$
$\therefore \ \ \ \ \ \ \ \ \ \ \ e^{-x}< e^{-x^2} < 1, \forall \ x \in \ [0,1]$
$\Rightarrow \ \ \ \ \ \ 1+e^{-x} < 1+e^{-x^2} < 2, \forall x \in [0,1] $
$\Rightarrow \ \ \ \ \int_0^1(1+e^{-x}) dx < \int_0^1(1+e^{-x^2}) dx
$ \ \ \ \ \ \ \ \ \ \ \ \ \ m(b-a) \le \ \int_a^bf(x) dx \le \ M(b-a)$
where, M and m are maximum and minimum values
respectively of f(x) in [a, b].
Here, f(x) = 1 + e$^{-x^2}$ is continuous in [0,1],
Now, $0 < x < 1 \ \Rightarrow \ \ x^2 < x \ \Rightarrow \ \ e^{x^2} < e^x \ \ e^{-x^2} > e^{-x}$
Again, 0 < x < 1$\Rightarrow \ \,x^2 >0 \ \Rightarrow \\ e^{x^2} > e^0 \ \Rightarrow \ e^{-x^3} <1$
$\therefore \ \ \ \ \ \ \ \ \ \ \ e^{-x}< e^{-x^2} < 1, \forall \ x \in \ [0,1]$
$\Rightarrow \ \ \ \ \ \ 1+e^{-x} < 1+e^{-x^2} < 2, \forall x \in [0,1] $
$\Rightarrow \ \ \ \ \int_0^1(1+e^{-x}) dx < \int_0^1(1+e^{-x^2}) dx
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Concepts Used:
Definite Integral
Definite integral is an operation on functions which approximates the sum of the values (of the function) weighted by the length (or measure) of the intervals for which the function takes that value.
Definite integrals - Important Formulae Handbook
A real valued function being evaluated (integrated) over the closed interval [a, b] is written as :
\(\int_{a}^{b}f(x)dx\)
Definite integrals have a lot of applications. Its main application is that it is used to find out the area under the curve of a function, as shown below:
