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If int_fracpi6^fracpi3sqrt1 - sin 2x\, dx = alpha +beta sqrt2 +gamma sqrt3 where alpha ,beta and gamma are rational numbers, then 3alpha + 4beta - gamma is equal to

Numerical Answer Type:
Enter a numerical value Answer: 6 to 6 +4 marks

Solution & Explanation

### Related Formula sqrt1 - sin 2x = sqrt(cos x - sin x)^2 = |cos x - sin x| ### Core Logic The absolute function |cos x - sin x| flips sign at x = fracpi4 within the boundary range: * For x in left[fracpi6, fracpi4right]: cos x geq sin x implies |cos x - sin x| = cos x - sin x * For x in left[fracpi4, fracpi3right]: sin x geq cos x implies |cos x - sin x| = sin x - cos x ### Step 1: Boundary Splitting Integration I = int_fracpi6^fracpi4 (cos x - sin x) \, dx + int_fracpi4^fracpi3 (sin x - cos x) \, dx I = Big[ sin x + cos x Big]_fracpi6^fracpi4 + Big[ -cos x - sin x Big]_fracpi4^fracpi3 I = left( frac1sqrt2 + frac1sqrt2 - left(frac12 + fracsqrt32right) right) + left( -frac12 - fracsqrt32 - left(-frac1sqrt2 - frac1sqrt2right) right) I = left( sqrt2 - frac1 + sqrt32 right) + left( sqrt2 - frac1 + sqrt32 right) = 2sqrt2 - 1 - sqrt3 = -1 + 2sqrt2 - sqrt3 ### Step 2: Coefficient Matrix Matching Comparing with the given baseline layout: alpha = -1, quad beta = 2, quad gamma = -1 Evaluating the required target metrics: 3alpha + 4beta - gamma = 3(-1) + 4(2) - (-1) = -3 + 8 + 1 = 6 ### Pattern Recognition Never forget that sqrtf(x)^2 = |f(x)|. Skipping modulus checks inside definite root boundaries leads to incorrect answers. ### Evaluation Rubric / Model Answer null ### Chapter Mix Class 12 Mathematics: Integrals

Reference Study Guides

More Integrals Previous-Year Questions — Page 6

Q21 jee_main_2024_31_jan_evening Properties of Definite Integrals
left|frac120pi^3int_0^pi fracx^2sin xcos xsin^4x + cos^4x dxright| is equal to
Numerical Answer. Answer: 15 to 15

Solution

### Related Formula int_0^a x f(x) dx = fraca2 int_0^a f(x) dx quad textif f(a-x) = f(x) ### Core Logic Let I = int_0^pi fracx^2sin xcos xsin^4x + cos^4x dx. Split the integral into int_0^pi/2 + int_pi/2^pi. For the second integral, substitute x = pi - t: I = int_0^pi/2 fracsin xcos xsin^4x + cos^4x (x^2 - (pi - x)^2) dx I = int_0^pi/2 fracsin xcos xsin^4x + cos^4x (2pi x - pi^2) dx = 2pi int_0^pi/2 x f(x) dx - pi^2 int_0^pi/2 f(x) dx where f(x) = fracsin x cos xsin^4 x + cos^4 x. Since f(pi/2 - x) = f(x), we have int_0^pi/2 x f(x) dx = fracpi4 int_0^pi/2 f(x) dx. I = 2pi left(fracpi4right) int_0^pi/2 f(x) dx - pi^2 int_0^pi/2 f(x) dx = -fracpi^22 int_0^pi/2 fracsin xcos xsin^4x + cos^4x dx To evaluate this simpler integral: I = -fracpi^22 int_0^pi/2 fracsin xcos x1 - 2sin^2 xcos^2 x dx = -fracpi^22 int_0^pi/2 fracsin 2x2 - sin^2 2x dx I = -fracpi^22 int_0^pi/2 fracsin 2x1 + cos^2 2x dx Let cos 2x = t implies -2sin 2x dx = dt. Limits: 1 to -1. I = -fracpi^22 int_1^-1 frac-dt/21+t^2 = -fracpi^24 int_-1^1 fracdt1+t^2 I = -fracpi^24 [arctan t]_-1^1 = -fracpi^24 left(fracpi4 - left(-fracpi4right)right) = -fracpi^38 Finally: left| frac120pi^3 left(-fracpi^38right) right| = 15 ### Evaluation Rubric / Model Answer null ### Chapter Mix Class 12 Maths: Integrals
Q21 jee_main_2024_31_jan_morning Definite Integration by Substitution
If the integral 525 int_0^fracpi2 sin 2x cos^frac112x (1 + cos^frac52x)^frac12 dx is equal to (nsqrt2 - 64), then n is equal to
Numerical Answer. Answer: 176 to 176

Solution

### Core Logic I = int_0^fracpi2 sin 2x cdot (cos x)^frac112 (1 + (cos x)^frac52)^frac12 dx Substitute cos x = t^2 implies sin x dx = -2t dt. Since sin 2x = 2sin x cos x, we have 2(t^2)(-2t dt) = -4t^3 dt. Limits: x=0 to t=1, x=fracpi2 to t=0. I = 4 int_0^1 t^2 cdot (t^2)^frac112 sqrt1 + t^5 t dt = 4 int_0^1 t^14 sqrt1 + t^5 dt ### Step 1: Second Substitution Put 1 + t^5 = k^2 implies 5t^4 dt = 2k dk. t^5 = k^2 - 1. I = 4 int_1^sqrt2 (k^2 - 1)^2 cdot k cdot frac2k5 dk I = frac85 int_1^sqrt2 (k^6 - 2k^4 + k^2) dk ### Step 2: Evaluate the Integral I = frac85 left[ frack^77 - frac2k^55 + frack^33 right]_1^sqrt2 I = frac85 left[ frac8sqrt27 - frac8sqrt25 + frac2sqrt23 - frac17 + frac25 - frac13 right] I = frac85 left[ frac120sqrt2 - 168sqrt2 + 70sqrt2105 - frac15 - 42 + 35105 right] I = frac85 left[ frac22sqrt2105 - frac8105 right] ### Step 3: Equate with Given Form Given 525 I = nsqrt2 - 64. 525 times frac85 left( frac22sqrt2 - 8105 right) = 8 times (22sqrt2 - 8) = 176sqrt2 - 64 Comparing with (nsqrt2 - 64), we get n = 176. ### Evaluation Rubric / Model Answer null ### Chapter Mix Class 12 Maths: Integrals
Q30 jee_main_2024_31_jan_morning Properties of Definite Integrals
Let f : mathbbR to mathbbR be a function defined by f(x) = frac4^x4^x + 2 and M = int_f(a)^f(1 - a) x sin^4(x(1 - x)) dx, N = int_f(a)^f(1 - a) sin^4(x(1 - x)) dx; a neq frac12. If alpha M = beta N, alpha, beta in mathbbN, then the least value of alpha^2 + beta^2 is equal to
Numerical Answer. Answer: 5 to 5

Solution

### Related Formula f(x) + f(1-x) = frac4^x4^x + 2 + frac4^1-x4^1-x + 2 = 1 ### Core Logic Using the property f(x) + f(1-x) = 1, we have f(a) + f(1-a) = 1. Let limits be A = f(a) and B = f(1-a). Then A + B = 1. M = int_A^B x sin^4(x(1 - x)) dx ### Step 1: Apply King's Property Apply the property int_A^B g(x) dx = int_A^B g(A + B - x) dx. M = int_A^B (1 - x) sin^4((1 - x)(1 - (1 - x))) dx M = int_A^B (1 - x) sin^4(x(1 - x)) dx M = int_A^B sin^4(x(1 - x)) dx - int_A^B x sin^4(x(1 - x)) dx M = N - M ### Step 2: Conclusion 2M = N Given alpha M = beta N, we get alpha = 2 and beta = 1 (for least integral values). Thus, alpha^2 + beta^2 = 2^2 + 1^2 = 5. ### Evaluation Rubric / Model Answer null ### Chapter Mix Class 12 Maths: Integrals Class 12 Maths: Relations and Functions

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