हिंदी
सी. बी. एस. ई.वाणिज्य (अंग्रेजी माध्यम) कक्षा १२
प्रश्न पत्र२५९३
पाठ्यपुस्तक उत्तर२०३४५
MCQ ऑनलाइन अभ्यास परीक्षा४२
महत्वपूर्ण प्रश्न एवं उत्तर२३१४१
अवधारणा स्पष्टीकरण और वीडियो६१४
समय सारणी२५
पाठ्यक्रम

∫ 1 X √ X 4 − 1 D X - Mathematics

Advertisements
Advertisements

प्रश्न

\[\int\frac{1}{x\sqrt{x^4 - 1}} dx\]
योग
Advertisements

उत्तर

\[\int\frac{dx}{x\sqrt{x^4 - 1}}\]
 ` =  ∫  {x dx}/{x^2 \sqrt{( x^2 )^2 - 1} `

`  Let   x^2 = t `
\[ \Rightarrow 2x = \frac{dt}{dx}\]
\[ \Rightarrow \text{x  dx} = \frac{dt}{2}\]
Now,  ` =  ∫  {x    dx}/{x^2 \sqrt{( x^2 )^2 - 1} `
\[ = \frac{1}{2}\int\frac{dt}{t\sqrt{t^2 - 1}}\]
\[ = \frac{1}{2} \sec^{- 1} \left( t \right) + C\]
\[ = \frac{1}{2} \sec^{- 1} \left( x^2 \right) + C\]

shaalaa.com
Definite Integral as the Limit of a Sum
  क्या इस प्रश्न या उत्तर में कोई त्रुटि है?
Q 65
अध्याय 19: Indefinite Integrals - Exercise 19.09 [पृष्ठ ५९]

APPEARS IN

आरडी शर्मा Mathematics [English] Class 12
अध्याय 19 Indefinite Integrals
Exercise 19.09 | Q 65 | पृष्ठ ५९

वीडियो ट्यूटोरियलVIEW ALL [3]

संबंधित प्रश्न

Evaluate the following definite integrals as limit of sums.

`int_a^b x dx`


Evaluate the following definite integrals as limit of sums.

`int_1^4 (x^2 - x) dx`


Evaluate the following definite integrals as limit of sums `int_(-1)^1 e^x dx`


Evaluate the definite integral:

`int_0^(pi/2) (cos^2 x dx)/(cos^2 x + 4 sin^2 x)`


Evaluate the definite integral:

`int_0^1 dx/(sqrt(1+x) - sqrtx)`


Evaluate the definite integral:

`int_0^(pi/4) (sin x +  cos x)/(9+16sin 2x) dx`


Evaluate the definite integral:

`int_1^4 [|x - 1|+ |x - 2| + |x -3|]dx`


Prove the following:

`int_1^3 dx/(x^2(x +1)) = 2/3 + log  2/3`


Prove the following:

`int_(-1)^1 x^17 cos^4 xdx = 0`


Prove the following:

`int_0^(pi/2) sin^3 xdx = 2/3`


Prove the following:

`int_0^1sin^(-1) xdx = pi/2 - 1`


Evaluate  `int_0^1 e^(2-3x) dx` as a limit of a sum.


If f (a + b - x) = f (x), then `int_a^b x f(x )dx` is equal to ______.


Choose the correct answers The value of `int_0^1 tan^(-1)  (2x -1)/(1+x - x^2)` dx is 

(A) 1

(B) 0

(C) –1

(D) `pi/4`


Evaluate : `int_1^3 (x^2 + 3x + e^x) dx` as the limit of the sum.


\[\int\frac{\sin^3 x}{\sqrt{\cos x}} dx\]

\[\int\frac{1}{\sqrt{\tan^{- 1} x} . \left( 1 + x^2 \right)} dx\]

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

\[\int\frac{1 + \cos x}{\left( x + \sin x \right)^3} dx\]

\[\int\frac{\sin x}{\left( 1 + \cos x \right)^2} dx\]

 


\[\int\cot x \cdot \log \text{sin x dx}\]

\[\text{ ∫  cosec x  log}      \left( \text{cosec x} - \cot x \right) dx\]

\[\int\log x\frac{\text{sin} \left\{ 1 + \left( \log x \right)^2 \right\}}{x} dx\]

\[\int\frac{1}{x^2} \cos^2 \left( \frac{1}{x} \right) dx\]

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

Evaluate the following integral:

\[\int\limits_{- 1}^1 \left| 2x + 1 \right| dx\]

\[\int\limits_{- \pi/2}^{\pi/2} \sin^4 x\ dx\]

Evaluate the following integrals as limit of sums:

\[\int_1^3 \left( 3 x^2 + 1 \right)dx\]

Solve: (x2 – yx2) dy + (y2 + xy2) dx = 0 


Evaluate:

`int (sin"x"+cos"x")/(sqrt(9+16sin2"x")) "dx"`


Evaluate `int_(-1)^2 (7x - 5)"d"x` as a limit of sums


Evaluate the following as limit of sum:

`int _0^2 (x^2 + 3) "d"x`


The value of `lim_(x -> 0) [(d/(dx) int_0^(x^2) sec^2 xdx),(d/(dx) (x sin x))]` is equal to


Let f: (0,2)→R be defined as f(x) = `log_2(1 + tan((πx)/4))`. Then, `lim_(n→∞) 2/n(f(1/n) + f(2/n) + ... + f(1))` is equal to ______.


Share
Notifications

Englishहिंदीमराठी
Login
Create free account


      Forgot password?
Course
Use app×