Evaluate of the Following Integral: (I) ∫ X 4 D X - Mathematics

प्रश्न

Evaluate of the following integral:

(i) \[\int x^4 dx\]

योग

उत्तर

\[\int x^4 dx\]
\[ = \frac{x^{4 + 1}}{4 + 1} + C\]
\[ = \frac{x^5}{5} + C\]

shaalaa.com

Evaluation of Definite Integrals by Substitution

क्या इस प्रश्न या उत्तर में कोई त्रुटि है?

Q 1.1 Prev Q 1.2

अध्याय 19: Indefinite Integrals - Exercise 19.01 [पृष्ठ ४]

APPEARS IN

आरडी शर्मा Mathematics [English] Class 12

अध्याय 19 Indefinite Integrals
Exercise 19.01 | Q 1.1 | पृष्ठ ४

वीडियो ट्यूटोरियलVIEW ALL [1]

view
वीडियो ट्यूटोरियल For All Subjects
Evaluation of Definite Integrals by Substitution

video tutorial00:18:12

संबंधित प्रश्न

Evaluate : `int_0^4(|x|+|x-2|+|x-4|)dx`

Evaluate `int_(-1)^2|x^3-x|dx`

Evaluate :

`∫_(-pi)^pi (cos ax−sin bx)^2 dx`

find `∫_2^4 x/(x^2 + 1)dx`

Evaluate the integral by using substitution.

`int_0^1 x/(x^2 +1)`dx

The value of the integral `int_(1/3)^4 ((x- x^3)^(1/3))/x^4` dx is ______.

If `f(x) = int_0^pi t sin t dt`, then f' (x) is ______.

Evaluate `int_0^(pi/4) (sinx + cosx)/(16 + 9sin2x) dx`

Evaluate:

\[\int\sqrt{\frac{1 - \cos 2x}{2}}dx\]

Evaluate the following integral:

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

Evaluate the following integral:

\[\int\limits_0^4 \left| x - 1 \right| dx\]

Evaluate the following integral:

\[\int\limits_{- 5}^0 f\left( x \right) dx, where\ f\left( x \right) = \left| x \right| + \left| x + 2 \right| + \left| x + 5 \right|\]

Evaluate each of the following integral:

\[\int_0^{2\pi} \frac{e^\ sin x}{e^\ sin x + e^{- \ sin x}}dx\]

Evaluate each of the following integral:

\[\int_\frac{\pi}{6}^\frac{\pi}{3} \frac{\sqrt{\tan x}}{\sqrt{\tan x} + \sqrt{\cot x}}dx\]

Evaluate each of the following integral:

\[\int_\frac{\pi}{6}^\frac{\pi}{3} \frac{\sqrt{\sin x}}{\sqrt{\sin x} + \sqrt{\cos x}}dx\]

Evaluate each of the following integral:

\[\int_{- \frac{\pi}{4}}^\frac{\pi}{4} \frac{\tan^2 x}{1 + e^x}dx\]

Evaluate each of the following integral:

\[\int_{- a}^a \frac{1}{1 + a^x}dx\]`, a > 0`

\[\int\limits_0^a \frac{\sqrt{x}}{\sqrt{x} + \sqrt{a - x}} dx\]

Evaluate the following integral:

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

Evaluate the following integral:

\[\int_{- 2}^2 \frac{3 x^3 + 2\left| x \right| + 1}{x^2 + \left| x \right| + 1}dx\]

Evaluate the following integral:

\[\int_{- \frac{3\pi}{2}}^{- \frac{\pi}{2}} \left\{ \sin^2 \left( 3\pi + x \right) + \left( \pi + x \right)^3 \right\}dx\]

Evaluate the following integral:

\[\int_0^\pi \left( \frac{x}{1 + \sin^2 x} + \cos^7 x \right)dx\]

Evaluate the following integral:

\[\int_0^{2\pi} \sin^{100} x \cos^{101} xdx\]

Find : \[\int e^{2x} \sin \left( 3x + 1 \right) dx\] .

Find : \[\int\frac{x \sin^{- 1} x}{\sqrt{1 - x^2}}dx\] .

Evaluate: \[\int\limits_0^{\pi/2} \frac{x \sin x \cos x}{\sin^4 x + \cos^4 x}dx\] .

Evaluate: `int_ e^x ((2+sin2x))/cos^2 x dx`

Find: `int_ (3"x"+ 5)sqrt(5 + 4"x"-2"x"^2)d"x"`.

`int_0^3 1/sqrt(3x - x^2)"d"x` = ______.

`int_0^1 sin^-1 ((2x)/(1 + x^2))"d"x` = ______.

Evaluate the following:

`int ("e"^(6logx) - "e"^(5logx))/("e"^(4logx) - "e"^(3logx)) "d"x`

Evaluate the following:

`int "dt"/sqrt(3"t" - 2"t"^2)`

Find: `int (dx)/sqrt(3 - 2x - x^2)`

The value of `int_0^1 (x^4(1 - x)^4)/(1 + x^2) dx` is

Evaluate of the Following Integral: (I) ∫ X 4 D X - Mathematics

Advertisements

Advertisements

प्रश्न

उत्तर

APPEARS IN

वीडियो ट्यूटोरियलVIEW ALL [1]

संबंधित प्रश्न

Select a course

Evaluate of the Following Integral: (I) ∫ X 4 D X - Mathematics

Advertisements

Advertisements

प्रश्न

उत्तरShow Solution

APPEARS IN

वीडियो ट्यूटोरियलVIEW ALL [1]

संबंधित प्रश्न

Select a course

उत्तर