Class 12 Maths NCERT Solutions for Chapter 7 Integrals Exercise 7.9

Class 12 Maths NCERT Solutions for Chapter 7 Integrals Exercise 7.9

Integrals Exercise 7.9 Solutions

1. Evaluate the definite integrals ∫_-1¹ (x + 1) dx

Solution

Let I = ∫_-1¹ (x + 1) dx
∫(x + 1)dx = x²/2 + x = F(x)
By second fundamental theorem of calculus, we obtain
I = F(1) - F(-1)
= (1/2 + 1) - (1/2 - 1)
= (1/2 + 1 - 1/2 + 1)
= 2

2. Evaluate the definite integrals ∫₂³ (1/x) dx

Solution

∫(1/x) dx = log |x| = F(x)
By second fundamental theorem of calculus, we obtain

I = F(3) - F(2)
= log|3| - log|2| = log (3/2)

3. Evaluate the integrals in using substitution ∫₀¹ sin^-1 [2x/(1 + x² ) dx

Solution

By second fundamental theorem of calculus, we obtain

I = F(2) - F(1)

= 33 - (35/3)
= (99 - 35)/3
= 64/3

4. Evaluate the definite integrals ∫₀^x/4 sin2x dx

Solution

Let I = ∫₀^x/4 sin2x dx
∫sin 2x dx = (- cos 2x/2) = F(x)
By second fundamental theorem of calculus, we obtain

5. Evaluate the definite integrals ∫₀^x/2 cos 2x dx

Solution

Let I = ∫₀^x/2 cos 2x dx
∫cos 2x dx = (sin 2x/2) = F(x)
By second fundamental theorem of calculus, we obtain

6. Evaluate the definite integrals ∫₄⁵ e^x dx

Solution

Let I = ∫₄⁵ e^x dx

∫e^x dx = e^x = f(x)
By second fundamental theorem of calculus, we obtain

I = F(5) - F(4)
= e⁵ - e⁴

= e⁴ (e - 1)

7. Evaluate the definite integrals ∫₀^x/4 tan x dx

Solution

Let I = ∫₀^π/4 tan x dx

∫tan x dx = -log |cos x| = F(x)
By second fundamental theorem of calculus, we obtain

8. Evaluate the definite integrals ∫_π_/6 ^π^/4 cosec x dx

Solution

∫(cosec x) dx = log | cosec x - cot x| = F(x)
By second fundamental theorem of calculus, we obtain

9. Evaluate the definite integrals ∫₀⁴ dx/(√ 1 - x² )

Solution

By second fundamental theorem of calculus, we obtain

I = F(I) - F(0)
= sin^-1 (1) - sin^-1 (0)
= (π/2) - 0
= π/2

10. Evaluate the definite integrals ∫₀⁴ dx/(1 + x² )

Solution

By second fundamental theorem of calculus, we obtain

I = F(1) - F(0)
= tan^-1 (1) - tan^-1 (0)
= π/4

11. Evaluate the definite integrals ∫₂³ dx/(x² - 1)

Solution

12. Evaluate the definite integrals ∫₀^π/4 cos²x dx

Solution

13. Evaluate the definite integrals ∫₂³ xdx/(x² + 1)

Solution

14. Evaluate the definite integrals ∫₀¹ (2x + 3)/(5x² + 1) dx

Solution

15. Evaluate the definite integrals ∫₀¹ xe^x² dx

Solution

Let I = ∫₀¹ xe^x² dx
Put x² = t

⇒ 2x dx = dt
As x → 0, t → 0 and as x → 1, t →1,

By second fundamental theorem of calculus, we obtain

I = F(1) - F(0)
= (1/2)e - (1/2)e⁰= (1/2) (e - 1)

16. Evaluate the definite integrals ∫₁² 5x² /(x² + 4x + 3)

Solution

Equating the coefficients of x and constant term, we obtain
A = 10 and B = -25

Substituting the value of I₁ in (1) , we obtain

17. Evaluate the definite integrals ∫₀^π/4 (2 sec² x + x³ + 2)dx

Solution

18. Evaluate the definite integrals ∫₀^π (sin² x/2 - cos² x/2) dx

Solution

∫(cos x) dx = sin x = F(x)
By second fundamental theorem of calculus, we obtain

I = F(π) - F(0)
= sinπ - sin 0
= 0

19. Evaluate the definite integrals ∫₀² [(6x + 3)/(x² + 4)] dx

Solution

By second fundamental theorem of calculus, we obtain

I = F(2) - F(0)

20. Evaluate the definite integrals ∫₀¹ [xe^x + sin(πx/4)]

Solution

21. Choose the correct answer ∫₁^√3 dx/(1 + x² ) equals

(A) π/3
(B) 2π/3
(C) π/6
(D) π/12

Solution

∫dx/(1 + x² ) = tan^-1 x = F(x)
By second fundamental theorem of calculus, we obtain

= tan^-1 √3 - tan^-1 1

= π/3 - π/4
= π/12

Hence, the correct answer is D.

22. Choose the correct answer ∫₀^2/3 dx/(4 + 9x² ) equals is

Solution

By second fundamental theorem of calculus, we obtain

Hence, the correct answer is C.