Evaluate: ∫01log(x+1)x2+1 dx - Mathematics and Statistics

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Evaluate: `int_0^1 (log(x + 1))/(x^2 + 1) "d"x`

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उत्तर

Let I = `int_0^1 (log(x + 1))/(x^2 + 1) "d"x`

Put x = tan θ

∴ dx = sec²θ dθ

When x = 0, θ = 0 and when x = 1, θ = `pi/4`

∴ I = `int_0^(pi/4)(log(tantheta + 1))/(tan^2theta + 1) xx sec^2theta "d"theta`

= `int_0^(pi/4) (log(1 + tantheta))/(sec^2theta) xx sec^2theta "d"theta`

∴ I = `int_0^(pi/4) log(1 + tan theta) "d"theta` ......(i)

= `int_0^(pi/4) log[1 + tan(pi/4 - theta)] "d"theta` ......`[∵ int_0^"a" "f"(x) "d"x = int_0^"a" "f"("a" - x) "d"x]`

= `int_0^(pi/4) log[1 + (tan pi/4 - tantheta)/(1 + tan pi/4 tan theta)] "d"theta`

= `int_0^(pi/4) log[1 + (1 - tan theta)/(1 + tan theta)] "d"theta`

= `int_0^(pi/4) log[(1 + tan theta + 1 - tan theta)/(1 + tan theta)] "d"theta`

= `int_0^(pi/4) log[2/(1 + tan theta)] "d"theta`

= `int_0^(pi/4) [log2 - log(1 + tan theta)] "d"theta`

= `log 2 int_0^(pi/4) "d"theta - int_0^(pi/4) log(1 + tan theta) "d"theta`

∴ I = `log 2[theta]_0^(pi/4) - "I"` .....[From (i)]

∴ 2I = `log 2(pi/4 - 0)`

∴ I = `pi/8 log 2`

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Methods of Evaluation and Properties of Definite Integral

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पाठ 2.4: Definite Integration - Long Answers III

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एससीईआरटी महाराष्ट्र Mathematics and Statistics (Arts and Science) [English] 12 Standard HSC

पाठ 2.4 Definite Integration
Long Answers III | Q 6

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Evaluate: ∫01log(x+1)x2+1 dx - Mathematics and Statistics

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Evaluate: ∫01log(x+1)x2+1 dx - Mathematics and Statistics

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