Advertisements
Advertisements
प्रश्न
Integrate the following w.r.t.x : `(1)/(2cosx + 3sinx)`
उत्तर
Let I = `int (1)/(2cosx + 3sinx)*dx`
= `int (1)/(3sinx + 2cosx)*dx`
Dividing numerator and denominator by
`sqrt(3^2 + 2^2) = sqrt(13)`, we get
I = `int ((1/sqrt(3)))/(3/sqrt(13) sinx + 2/sqrt(13) cosx)*dx`
Since, `(3/sqrt(13))^2 + (2/sqrt(13))^2 = (9)/(13) + (4)/(13)` = 1,
we take `(3)/sqrt(13) =cos oo, (2)/sqrt(13) = sin oo`
so that `oo = (2)/(3) and oo = tan^-1(2/3)`
∴ I = `(1)/sqrt(13) int (1)/(sin x + cosoo + cosx sin oo)*dx`
= `(1)/sqrt(13) int (1)/(sin(x + oo))*dx`
= `(1)/sqrt(13) int cosec (x + oo)*dx`
= `(1)/sqrt(13)log|tan|tan((x + oo)/2)| + c`
= `(1)/sqrt(13)log |tan ((x + tan^-1 2/3)/(2))| + c`.
Alternative Method
Let I = `int (1)/(2cosx + 3sinx)*dx`
Put `tan(x/2)` = t
∴ `x/(2) = tan^-1 t`
∴ x = 2tan–1 t
∴ dx = `(2)/(1 + t^2)*dt`
and
sin x = `(2t)/(1 + t^2)`
and
cos x = `(1 - t^2)/(1 + t^2)`
∴ I = `int (1)/(2((1 - t^2)/(1 + t^2)) + 3((2t)/(1 + t^2)))*(2dt)/(1 + t^2)`
= `int (1 + t^2)/(2 - 2t^2 + 6t)*(2dt)/(1 + t^2)`
= `int (1)/(1 - t^2 + 3t)*dt`
= `int (1)/(1 - (t^2 - 3t + 9/4) + 9/4)*dt`
= `int (1)/((sqrt(13)/2)^2 - (t - 3/2)^2)*dt`
= `(1)/(2 xx sqrt(13)/(2))log |(sqrt(13)/(2) + t - 3/2)/(sqrt(13)/(2) - t + 3/2)| + c`
= `(1)/sqrt(13)log|(sqrt(13) + 2t - 3)/(sqrt(13) - 2t + 3)| + c`
= `(1)/sqrt(13)log|(sqrt(13) + 2tan(x/2) - 3)/(sqrt(13) - 2tan(x/2) - 3)| + c`.
APPEARS IN
संबंधित प्रश्न
Evaluate:
`int x^2/(x^4+x^2-2)dx`
Integrate the rational function:
`1/(x^2 - 9)`
Integrate the rational function:
`(3x - 1)/((x - 1)(x - 2)(x - 3))`
Integrate the rational function:
`(1 - x^2)/(x(1-2x))`
Integrate the rational function:
`(3x + 5)/(x^3 - x^2 - x + 1)`
Integrate the rational function:
`2/((1-x)(1+x^2))`
Integrate the rational function:
`((x^2 +1)(x^2 + 2))/((x^2 + 3)(x^2+ 4))`
Integrate the rational function:
`(2x)/((x^2 + 1)(x^2 + 3))`
Find `int (2cos x)/((1-sinx)(1+sin^2 x)) dx`
Find :
`∫ sin(x-a)/sin(x+a)dx`
Integrate the following w.r.t. x : `x^2/((x^2 + 1)(x^2 - 2)(x^2 + 3))`
Integrate the following w.r.t. x : `(2x)/(4 - 3x - x^2)`
Integrate the following w.r.t. x : `(x^2 + x - 1)/(x^2 + x - 6)`
Integrate the following w.r.t. x:
`(6x^3 + 5x^2 - 7)/(3x^2 - 2x - 1)`
Integrate the following w.r.t. x : `(12x^2 - 2x - 9)/((4x^2 - 1)(x + 3)`
Integrate the following w.r.t. x : `(3x - 2)/((x + 1)^2(x + 3)`
Integrate the following w.r.t. x : `(1)/(sinx*(3 + 2cosx)`
Integrate the following with respect to the respective variable : `(cos 7x - cos8x)/(1 + 2 cos 5x)`
Integrate the following w.r.t.x : `(1)/((1 - cos4x)(3 - cot2x)`
Integrate the following w.r.t.x:
`x^2/((x - 1)(3x - 1)(3x - 2)`
Integrate the following w.r.t.x : `(x + 5)/(x^3 + 3x^2 - x - 3)`
Integrate the following w.r.t.x : `sqrt(tanx)/(sinx*cosx)`
Evaluate: `int (2"x" + 1)/("x"("x - 1")("x - 4"))` dx
Evaluate: `int ("x"^2 + "x" - 1)/("x"^2 + "x" - 6)` dx
Evaluate: `int 1/("x"("x"^"n" + 1))` dx
State whether the following statement is True or False.
If `int (("x - 1") "dx")/(("x + 1")("x - 2"))` = A log |x + 1| + B log |x - 2| + c, then A + B = 1.
For `int ("x - 1")/("x + 1")^3 "e"^"x" "dx" = "e"^"x"` f(x) + c, f(x) = (x + 1)2.
`int (2x - 7)/sqrt(4x- 1) dx`
`int x^2sqrt("a"^2 - x^6) "d"x`
`int ((x^2 + 2))/(x^2 + 1) "a"^(x + tan^(-1_x)) "d"x`
`int (7 + 4x + 5x^2)/(2x + 3)^(3/2) dx`
`int 1/(4x^2 - 20x + 17) "d"x`
`int 1/(2 + cosx - sinx) "d"x`
`int sec^3x "d"x`
`int sin(logx) "d"x`
`int "e"^(sin^(-1_x))[(x + sqrt(1 - x^2))/sqrt(1 - x^2)] "d"x`
`int (x^2 + x -1)/(x^2 + x - 6) "d"x`
`int (6x^3 + 5x^2 - 7)/(3x^2 - 2x - 1) "d"x`
`int ("d"x)/(2 + 3tanx)`
`int (3x + 4)/sqrt(2x^2 + 2x + 1) "d"x`
`int x sin2x cos5x "d"x`
`int xcos^3x "d"x`
Choose the correct alternative:
`int sqrt(1 + x) "d"x` =
`int (5(x^6 + 1))/(x^2 + 1) "d"x` = x5 – ______ x3 + 5x + c
Evaluate `int (2"e"^x + 5)/(2"e"^x + 1) "d"x`
Evaluate `int x log x "d"x`
If `intsqrt((x - 7)/(x - 9)) dx = Asqrt(x^2 - 16x + 63) + log|x - 8 + sqrt(x^2 - 16x + 63)| + c`, then A = ______
Evaluate the following:
`int x^2/(1 - x^4) "d"x` put x2 = t
Evaluate the following:
`int (2x - 1)/((x - 1)(x + 2)(x - 3)) "d"x`
Evaluate the following:
`int sqrt(tanx) "d"x` (Hint: Put tanx = t2)
If `int "dx"/((x + 2)(x^2 + 1)) = "a"log|1 + x^2| + "b" tan^-1x + 1/5 log|x + 2| + "C"`, then ______.
Evaluate: `int (dx)/(2 + cos x - sin x)`
Find: `int x^2/((x^2 + 1)(3x^2 + 4))dx`
`int 1/(x^2 + 1)^2 dx` = ______.
If `int dx/sqrt(16 - 9x^2)` = A sin–1 (Bx) + C then A + B = ______.
If `int 1/((x^2 + 4)(x^2 + 9))dx = A tan^-1 x/2 + B tan^-1(x/3) + C`, then A – B = ______.
Evaluate: `int (2x^2 - 3)/((x^2 - 5)(x^2 + 4))dx`
Find: `int x^4/((x - 1)(x^2 + 1))dx`.
Evaluate:
`int 2/((1 - x)(1 + x^2))dx`
Evaluate.
`int (5x^2 - 6x + 3)/(2x - 3)dx`
Evaluate:
`int(2x^3 - 1)/(x^4 + x)dx`
