मराठी
सी. बी. एस. ई.वाणिज्य (इंग्रजी माध्यम) इयत्ता १२
प्रश्नपत्रिका२४८९
पाठ्यपुस्तक उत्तरे२०२१६
MCQ ऑनलाइन सराव परीक्षा४२
महत्वाचे प्रश्न आणि उत्तरे१८८७३
संकल्पना स्पष्टीकरण आणि व्हिडिओ२४२
टाइम टेबल२३
अभ्यासक्रम

If F is an Integrable Function Such that F(2a − X) = F(X), Then Prove that 2 a ∫ 0 F ( X ) D X = 2 a ∫ 0 F ( X ) D X - Mathematics

Advertisements
Advertisements

प्रश्न

If `f` is an integrable function such that f(2a − x) = f(x), then prove that

\[\int\limits_0^{2a} f\left( x \right) dx = 2 \int\limits_0^a f\left( x \right) dx\]

 

बेरीज

उत्तर

\[Let\ I = \int_0^{2a} f\left( x \right) d x\]
\[\text{By Additive property}\]
\[I = \int_0^a f\left( x \right) d x + \int_a^{2a} f\left( x \right) d x\]
\[\text{Consider the integra}l \int_a^{2a} f\left( x \right) d x\]
\[Let\ x = 2a - t, \text{then }dx = - dt\]
\[When\ x = a, t = a, x = 2x, t = 0\]
\[\text{Hence } \int_a^{2a} f\left( x \right) d x = - \int_a^0 f\left( 2a - t \right) d t\]
\[ = \int_0^a f\left( 2a - t \right) d t\]
\[ = \int_0^a f\left( 2a - x \right) dx ...............\left( \text{Changing the variable} \right)\]
Therefore,
\[I = \int_0^a f\left( x \right) d x + \int_0^a f\left( 2a - x \right) d x\]
\[ = \int_0^a f\left( x \right) d x + \int_0^a f\left( x \right) d x .................\left[\text{Given }\int_0^a f\left( x \right) d x = \int_0^a f\left( 2a - x \right) d x \right]\]
\[ = 2 \int_0^a f\left( x \right) d x\]

Hence Proved.

shaalaa.com
Definite Integrals
  या प्रश्नात किंवा उत्तरात काही त्रुटी आहे का?
Q 43
पाठ 20: Definite Integrals - Exercise 20.5 [पृष्ठ ९६]

APPEARS IN

आरडी शर्मा Mathematics [English] Class 12
पाठ 20 Definite Integrals
Exercise 20.5 | Q 43 | पृष्ठ ९६

संबंधित प्रश्‍न

\[\int\limits_4^9 \frac{1}{\sqrt{x}} dx\]

\[\int\limits_0^{\pi/2} \sqrt{1 + \sin x}\ dx\]

\[\int\limits_0^{\pi/2} x^2 \cos\ x\ dx\]

\[\int\limits_0^{\pi/2} x^2 \cos\ 2x\ dx\]

\[\int_0^1 x\log\left( 1 + 2x \right)dx\]

\[\int_0^1 \frac{1}{1 + 2x + 2 x^2 + 2 x^3 + x^4}dx\]

\[\int\limits_2^4 \frac{x}{x^2 + 1} dx\]

\[\int\limits_0^{\pi/2} \frac{dx}{a \cos x + b \sin x}a, b > 0\]

\[\int\limits_0^\pi \frac{1}{3 + 2 \sin x + \cos x} dx\]

\[\int\limits_0^\pi 5 \left( 5 - 4 \cos \theta \right)^{1/4} \sin \theta\ d \theta\]

\[\int\limits_0^{\pi/6} \cos^{- 3} 2 \theta \sin 2\ \theta\ d\ \theta\]

\[\int\limits_0^{\pi/2} 2 \sin x \cos x \tan^{- 1} \left( \sin x \right) dx\]

\[\int\limits_{- a}^a \sqrt{\frac{a - x}{a + x}} dx\]

\[\int_0^\frac{\pi}{4} \frac{\sin^2 x \cos^2 x}{\left( \sin^3 x + \cos^3 x \right)^2}dx\]

\[\int_0^\frac{\pi}{2} \frac{\cos x}{\left( \cos\frac{x}{2} + \sin\frac{x}{2} \right)^n}dx\]

\[\int\limits_1^4 f\left( x \right) dx, where f\left( x \right) = \begin{cases}7x + 3 & , & \text{if }1 \leq x \leq 3 \\ 8x & , & \text{if }3 \leq x \leq 4\end{cases}\]


\[\int_0^2 2x\left[ x \right]dx\]

If f(x) is a continuous function defined on [−aa], then prove that 

\[\int\limits_{- a}^a f\left( x \right) dx = \int\limits_0^a \left\{ f\left( x \right) + f\left( - x \right) \right\} dx\]

\[\int\limits_0^5 \left( x + 1 \right) dx\]

\[\int\limits_0^2 \left( x^2 + 2 \right) dx\]

\[\int\limits_0^2 \left( x^2 + 2x + 1 \right) dx\]

\[\int\limits_1^4 \left( x^2 - x \right) dx\]

\[\int\limits_{- \pi/2}^{\pi/2} \sin^2 x\ dx .\]

If \[\int_0^a \frac{1}{4 + x^2}dx = \frac{\pi}{8}\] , find the value of a.


Evaluate : 

\[\int\limits_2^3 3^x dx .\]

\[\int\limits_0^1 \left\{ x \right\} dx,\] where {x} denotes the fractional part of x.  

 

\[\int\limits_0^1 e^\left\{ x \right\} dx .\]

\[\int\limits_0^2 x\left[ x \right] dx .\]

\[\int\limits_0^\sqrt{2} \left[ x^2 \right] dx .\]

\[\int\limits_0^1 \sqrt{x \left( 1 - x \right)} dx\] equals

If \[\int\limits_0^1 f\left( x \right) dx = 1, \int\limits_0^1 xf\left( x \right) dx = a, \int\limits_0^1 x^2 f\left( x \right) dx = a^2 , then \int\limits_0^1 \left( a - x \right)^2 f\left( x \right) dx\] equals


`int_0^(2a)f(x)dx`


\[\int\limits_0^1 \tan^{- 1} x dx\]


\[\int\limits_0^{\pi/2} \frac{\cos x}{1 + \sin^2 x} dx\]


\[\int\limits_0^\pi \sin^3 x\left( 1 + 2 \cos x \right) \left( 1 + \cos x \right)^2 dx\]


\[\int\limits_0^\pi \frac{x}{1 + \cos \alpha \sin x} dx\]


\[\int\limits_{- \pi}^\pi x^{10} \sin^7 x dx\]


\[\int\limits_0^3 \left( x^2 + 1 \right) dx\]


Evaluate the following integrals as the limit of the sum:

`int_1^3 (2x + 3)  "d"x`


Evaluate `int sqrt((1 + x)/(1 - x)) "d"x`, x ≠1


Share
Notifications

Englishहिंदीमराठी
Login
Create free account


      Forgot password?
Course
Use app×