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सी. बी. एस. ई.वाणिज्य (अंग्रेजी माध्यम) कक्षा १२

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Evaluate the Following Integrals: ∫ Sec X Sec 2 X D X - Mathematics

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प्रश्न

Evaluate the following integrals:

`int "sec x"/"sec 2x" "dx"`

योग

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उत्तर

\[I = \int\frac{\sec x}{\sec 2x}dx\]

`"sec x"/("sec"(2"x")) = ("cos"(2"x"))/"cos x"`

`= (2 "cos"^2"x" - 1)/"cos x"`

`= ("2 cos"^"x")/"cos x" - 1/"cos x"`

= 2 cos x - sec x

`int ("sec"("x"))/("sec"(2"x")) "dx" = int[2 "cos x" - "sec x"] "dx"`

`= 2 int "cos x" "dx" - int "sec"("x") "dx"`

= 2 sin(x) - ln |sec (x) + tan (x)| + C

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Evaluation of Simple Integrals of the Following Types and Problems

क्या इस प्रश्न या उत्तर में कोई त्रुटि है?

अध्याय 19: Indefinite Integrals - Exercise 19.08 [पृष्ठ ४७]

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आरडी शर्मा Mathematics [English] Class 12

अध्याय 19 Indefinite Integrals
Exercise 19.08 | Q 5 | पृष्ठ ४७

संबंधित प्रश्न

Integrate the following w.r.t. x `(x^3-3x+1)/sqrt(1-x^2)`

\[\int\frac{x}{\sqrt{x + 4}} dx\]

\[\int\frac{1}{x \log x} dx\]

\[\int\frac{1}{e^x + 1} dx\]

` ∫ {cot x}/ { log sin x} dx `

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

\[\int\frac{1}{\cos\left( x + a \right) \cos\left( x + b \right)}dx\]

\[\int\frac{{cosec}^2 x}{1 + \cot x} dx\]

\[\int\frac{10 x^9 + {10}^x \log_e 10}{{10}^x + x^{10}} dx\]

` ∫ {1+tan}/{ x + log sec x dx} `

\[\int\frac{1}{\sqrt{x}\left( \sqrt{x} + 1 \right)} dx\]

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

` ∫ cot^3 x "cosec"^2 x dx `

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

\[\int\frac{\cot x}{\sqrt{\sin x}} dx\]

Evaluate the following integrals:

\[\int\frac{1}{\left( x^2 + 2x + 10 \right)^2}dx\]

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

Evaluate the following integrals:

\[\int e^{2x} \left( \frac{1 - \sin2x}{1 - \cos2x} \right)dx\]

\[\int e^{2x} \text{ sin x cos x dx }\]

Evaluate the following integrals:

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

\[\int\left( x - 3 \right)\sqrt{x^2 + 3x - 18} \text{ dx }\]

\[\int(3x + 1) \sqrt{4 - 3x - 2 x^2} \text{ dx }\]

\[\int\frac{a x^2 + bx + c}{\left( x - a \right) \left( x - b \right) \left( x - c \right)} dx,\text{ where a, b, c are distinct}\]

Evaluate the following integral:

\[\int\frac{x^2 + 1}{\left( x^2 + 4 \right)\left( x^2 + 25 \right)}dx\]

Evaluate the following integral:

\[\int\frac{3x - 2}{\left( x + 1 \right)^2 \left( x + 3 \right)}dx\]

Evaluate the following integral:

\[\int\frac{2 x^2 + 1}{x^2 \left( x^2 + 4 \right)}dx\]

Evaluate the following integrals:

\[\int\frac{x^2}{(x - 1) ( x^2 + 1)}dx\]

Evaluate the following integral:

\[\int\frac{x^2}{x^4 - x^2 - 12}dx\]

Evaluate the following integral:

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

Write a value of

\[\int\frac{\log x^n}{x} \text{ dx}\]

Evaluate:\[\int\frac{\cos \sqrt{x}}{\sqrt{x}} \text{ dx }\]

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

Evaluate: \[\int\frac{x^3 - x^2 + x - 1}{x - 1} \text{ dx }\]

Write the value of\[\int\sec x \left( \sec x + \tan x \right)\text{ dx }\]

Evaluate:

`∫ (1)/(sin^2 x cos^2 x) dx`

Evaluate : \[\int\frac{1}{x(1 + \log x)} \text{ dx}\]

Evaluate the following:

`int ("d"x)/sqrt(16 - 9x^2)`

Evaluate the following:

`int sqrt(2"a"x - x^2) "d"x`

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वाणिज्य (अंग्रेजी माध्यम) कक्षा १२ सी. बी. एस. ई.

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