Nhìn đề dữ dội y hệt cr của tui z :( Để làm từ từ 

Lập bảng xét dấu cho \(\left|x^2-1\right|\) trên đoạn \(\left[-2;2\right]\)

\(\left(-2;-1\right):+\)

\(\left(-1;1\right):-\)

\(\left(1;2\right):+\)

\(\Rightarrow I=\int\limits^{-1}_{-2}\left|x^2-1\right|dx+\int\limits^1_{-1}\left|x^2-1\right|dx+\int\limits^2_1\left|x^2-1\right|dx\)

\(=\int\limits^{-1}_{-2}\left(x^2-1\right)dx-\int\limits^1_{-1}\left(x^2-1\right)dx+\int\limits^2_1\left(x^2-1\right)dx\)

\(=\left(\dfrac{x^3}{3}-x\right)|^{-1}_{-2}-\left(\dfrac{x^3}{3}-x\right)|^1_{-1}+\left(\dfrac{x^3}{3}-x\right)|^2_1\)

Bạn tự thay cận vô tính nhé :), hiện mình ko cầm theo máy tính 

2/ \(I=\int\limits^e_1x^{\dfrac{1}{2}}.lnx.dx\)

\(\left\{{}\begin{matrix}u=lnx\\dv=x^{\dfrac{1}{2}}\end{matrix}\right.\Rightarrow\left\{{}\begin{matrix}du=\dfrac{dx}{x}\\v=\dfrac{2}{3}.x^{\dfrac{3}{2}}\end{matrix}\right.\)

\(\Rightarrow I=\dfrac{2}{3}.x^{\dfrac{3}{2}}.lnx|^e_1-\dfrac{2}{3}\int\limits^e_1x^{\dfrac{1}{2}}.dx\)

\(=\dfrac{2}{3}.x^{\dfrac{3}{2}}.lnx|^e_1-\dfrac{2}{3}.\dfrac{2}{3}.x^{\dfrac{3}{2}}|^e_1=...\)

3/ \(I=\int\limits^{\dfrac{\pi}{2}}_0e^{\sin x}.\cos x.dx+\int\limits^{\dfrac{\pi}{2}}_0\cos^2x.dx\)

Xét \(A=\int\limits^{\dfrac{\pi}{2}}_0e^{\sin x}.\cos x.dx\)

\(t=\sin x\Rightarrow dt=\cos x.dx\Rightarrow A=\int\limits^{\dfrac{\pi}{2}}_0e^t.dt=e^{\sin x}|^{\dfrac{\pi}{2}}_0\)

Xét \(B=\int\limits^{\dfrac{\pi}{2}}_0\cos^2x.dx\)

\(=\int\limits^{\dfrac{\pi}{2}}_0\dfrac{1+\cos2x}{2}.dx=\dfrac{1}{2}.\int\limits^{\dfrac{\pi}{2}}_0dx+\dfrac{1}{2}\int\limits^{\dfrac{\pi}{2}}_0\cos2x.dx\)

\(=\dfrac{1}{2}x|^{\dfrac{\pi}{2}}_0+\dfrac{1}{2}.\dfrac{1}{2}\sin2x|^{\dfrac{\pi}{2}}_0\)

I=A+B=...

a: 3/2pi<x<2pi

=>sin x<0

=>\(sinx=-\sqrt{1-\left(\dfrac{1}{6}\right)^2}=-\dfrac{\sqrt{35}}{6}\)

\(sin2x=2\cdot sinx\cdot cosx=2\cdot\dfrac{1}{6}\cdot\dfrac{-\sqrt{35}}{6}=\dfrac{-\sqrt{35}}{18}\)

\(cos2x=2\cdot cos^2x-1=2\cdot\dfrac{1}{36}-1=\dfrac{1}{18}-1=\dfrac{-17}{18}\)

\(tan2x=\dfrac{-\sqrt{35}}{18}:\dfrac{-17}{18}=\dfrac{\sqrt{35}}{17}\)

\(cot2x=1:\dfrac{\sqrt{35}}{17}=\dfrac{17}{\sqrt{35}}\)

b: \(sin\left(\dfrac{pi}{3}-x\right)\)

\(=sin\left(\dfrac{pi}{3}\right)\cdot cosx-cos\left(\dfrac{pi}{3}\right)\cdot sinx\)

\(=\dfrac{1}{2}\cdot\dfrac{-\sqrt{35}}{6}-\dfrac{1}{2}\cdot\dfrac{1}{6}=\dfrac{-\sqrt{35}-1}{12}\)

c: \(cos\left(x-\dfrac{3}{4}pi\right)\)

\(=cosx\cdot cos\left(\dfrac{3}{4}pi\right)+sinx\cdot sin\left(\dfrac{3}{4}pi\right)\)

\(=\dfrac{1}{6}\cdot\dfrac{-\sqrt{2}}{2}+\dfrac{-\sqrt{35}}{6}\cdot\dfrac{\sqrt{2}}{2}=\dfrac{-\sqrt{2}-\sqrt{70}}{12}\)

d: tan(pi/6-x)

\(=\dfrac{tan\left(\dfrac{pi}{6}\right)-tanx}{1+tan\left(\dfrac{pi}{6}\right)\cdot tanx}\)

\(=\dfrac{\dfrac{\sqrt{3}}{3}-\sqrt{35}}{1+\dfrac{\sqrt{3}}{3}\cdot\left(-\sqrt{35}\right)}\)

\(\int\limits^{\dfrac{\pi}{4}}_{\dfrac{\pi}{8}}\dfrac{dx}{sin^2x.cos^2x}=\int\limits^{\dfrac{\pi}{4}}_{\dfrac{\pi}{8}}\dfrac{2d\left(2x\right)}{sin^22x}=-2cot2x|^{\dfrac{\pi}{4}}_{\dfrac{\pi}{8}}=...\) 

\(\int\limits^{\dfrac{\pi}{3}}_{\dfrac{\pi}{6}}\dfrac{cos2xdx}{sin^2x.cos^2x}=\int\limits^{\dfrac{\pi}{3}}_{\dfrac{\pi}{6}}\dfrac{cos^2x-sin^2x}{sin^2x.cos^2x}dx=\int\limits^{\dfrac{\pi}{3}}_{\dfrac{\pi}{6}}\left(\dfrac{1}{sin^2x}-\dfrac{1}{cos^2x}\right)dx=\left(-cotx-tanx\right)|^{\dfrac{\pi}{3}}_{\dfrac{\pi}{6}}\)

\(\int\limits^{\dfrac{\pi}{3}}_0\dfrac{cos3x}{cosx}dx=\int\limits^{\dfrac{\pi}{3}}_0\dfrac{4cos^3x-3cosx}{cosx}dx=\int\limits^{\dfrac{\pi}{3}}_0\left(4cos^2x-3\right)dx\)

\(=\int\limits^{\dfrac{\pi}{3}}_0\left(2cos2x-1\right)dx=\left(sin2x-x\right)|^{\dfrac{\pi}{3}}_0=...\)

a) Để tính sin2x, cos2x, tan2x và cot2x, chúng ta cần biết giá trị của cosx trước đã. Theo như bạn đã cho, cosx = -1/4. Vậy sinx sẽ bằng căn bậc hai của 1 - cos^2(x) = căn bậc hai của 1 - (-1/4)^2 = căn bậc hai của 1 - 1/16 = căn bậc hai của 15/16 = sqrt(15)/4. Sau đó, chúng ta có thể tính các giá trị khác như sau: sin2x = (2sinx*cosx) = 2 * (sqrt(15)/4) * (-1/4) = -sqrt(15)/8 cos2x = (2cos^2(x) - 1) = 2 * (-1/4)^2 - 1 = 2/16 - 1 = -14/16 = -7/8 tan2x = sin2x/cos2x = (-sqrt(15)/8) / (-7/8) = sqrt(15) / 7 cot2x = 1/tan2x = 7/sqrt(15) b) Để tính sin(x + 5π/6), chúng ta có thể sử dụng công thức sin(a + b) = sin(a)cos(b) + cos(a)sin(b). Với a = x và b = 5π/6, ta có: sin(x + 5π/6) = sin(x)cos(5π/6) + cos(x)sin(5π/6) = sin(x)(-sqrt(3)/2) + cos(x)(1/2) = (-sqrt(3)/2)sin(x) + (1/2)cos(x) c) Để tính cos(π/6 - x), chúng ta sử dụng công thức cos(a - b) = cos(a)cos(b) + sin(a)sin(b). Với a = π/6 và b = x, ta có: cos(π/6 - x) = cos(π/6)cos(x) + sin(π/6)sin(x) = (√3/2)cos(x) + 1/2sin(x) d) Để tính tan(x + π/3), chúng ta có thể sử dụng công thức tan(a + b) = (tan(a) + tan(b))/(1 - tan(a)tan(b)). Với a = x và b = π/3, ta có: tan(x + π/3) = (tan(x) + tan(π/3))/(1 - tan(x)tan(π/3))

a: pi/2<x<pi

=>sin x>0

=>\(sinx=\sqrt{1-\left(-\dfrac{1}{4}\right)^2}=\dfrac{\sqrt{15}}{4}\)

\(sin2x=2\cdot sinx\cdot cosx=2\cdot\dfrac{\sqrt{15}}{4}\cdot\dfrac{-1}{4}=\dfrac{-\sqrt{15}}{8}\)

\(cos2x=2\cdot cos^2x-1=2\cdot\dfrac{1}{16}-1=-\dfrac{7}{8}\)

\(tan2x=-\dfrac{\sqrt{15}}{8}:\dfrac{-7}{8}=\dfrac{\sqrt{15}}{7}\)

\(cot2x=1:\dfrac{\sqrt{15}}{7}=\dfrac{7}{\sqrt{15}}\)

b: sin(x+5/6pi)

=sinx*cos(5/6pi)+cosx*sin(5/6pi)

\(=\dfrac{\sqrt{15}}{4}\cdot\dfrac{-\sqrt{3}}{2}+\dfrac{1}{2}\cdot\dfrac{-1}{4}=\dfrac{-\sqrt{45}-1}{8}\)

c: cos(pi/6-x)

=cos(pi/6)*cosx+sin(pi/6)*sinx

\(=\dfrac{\sqrt{3}}{2}\cdot\dfrac{-1}{4}+\dfrac{1}{2}\cdot\dfrac{\sqrt{15}}{4}=\dfrac{-\sqrt{3}+\sqrt{15}}{8}\)

d: tan(x+pi/3)

\(=\dfrac{tanx+tan\left(\dfrac{pi}{3}\right)}{1-tanx\cdot tan\left(\dfrac{pi}{3}\right)}\)

\(=\dfrac{-\sqrt{15}+\sqrt{3}}{1+\sqrt{15}\cdot\sqrt{3}}=\dfrac{-\sqrt{15}+\sqrt{3}}{1+3\sqrt{5}}\)

1,\(VT=\dfrac{sin\left(\dfrac{\pi}{4}+\dfrac{x}{2}\right)}{cos\left(\dfrac{\pi}{4}+\dfrac{x}{2}\right)}+\dfrac{cos\left(\dfrac{\pi}{4}+\dfrac{x}{2}\right)}{sin\left(\dfrac{\pi}{4}+\dfrac{x}{2}\right)}\)\(=\dfrac{sin\left(\dfrac{\pi}{4}+\dfrac{x}{2}\right)^2+cos^2\left(\dfrac{\pi}{4}+\dfrac{x}{2}\right)}{cos\left(\dfrac{\pi}{4}+\dfrac{x}{2}\right).sin\left(\dfrac{\pi}{4}+\dfrac{x}{2}\right)}\)

\(=\dfrac{1}{\dfrac{1}{2}.sin\left(\dfrac{\pi}{2}+x\right)}=\dfrac{2}{cosx}=VP\)

2,\(VT=\left(sin^4x-cos^4x\right)\left(sin^4x+cos^4x\right)=\left(sin^2x+cos^2x\right)\left(sin^2x-cos^2x\right)\left[\left(sin^2x+cos^2x\right)^2-2sin^2x.cos^2x\right]\)

\(=\left(sin^2-cos^2x\right)\left(1-2sin^2x.cos^2x\right)\)\(=-cos2x\left(1-\dfrac{1}{2}sin^22x\right)\)\(=-\dfrac{cos2x\left(2-sin^22x\right)}{2}=-\dfrac{cos2x\left(1+cos^22x\right)}{2}\)

\(VP=-\left(\dfrac{7}{8}cos2x+\dfrac{1}{8}cos6x\right)=-\dfrac{7}{8}cos2x-\dfrac{1}{8}\left[4cos^32x-3cos2x\right]=-\dfrac{7}{8}.cos2x-\dfrac{1}{2}cos^32x+\dfrac{3}{8}cos2x\)

\(=-\dfrac{1}{2}cos2x-\dfrac{1}{2}cos^32x=\dfrac{-cos2x\left(1+cos^22x\right)}{2}\)

\(\Rightarrow VT=VP\)(đpcm)

3, \(VT=3-4\left(1-2sin^2x\right)+1-2sin^22x=8sin^2x-2sin^22x=8sin^2x-8.sin^2x.cos^2x=8sin^2x\left(1-cos^2x\right)=8sin^4x=VP\)

4,\(VP=\dfrac{1}{2}\left[sin\left(x+\dfrac{\pi}{2}\right)+sin\left(3x+\dfrac{\pi}{6}\right)\right]-\dfrac{1}{2}\left[cos\left(3x-\dfrac{\pi}{3}\right)+cos\left(x+\pi\right)\right]\)

\(=\dfrac{1}{2}\left(cosx+sin3x.\dfrac{\sqrt{3}}{2}+\dfrac{cos3x}{2}\right)-\dfrac{1}{2}\left(\dfrac{cos3x}{2}+sin3x.\dfrac{\sqrt{3}}{2}-cosx\right)\)

\(=\dfrac{1}{2}.2cosx=cosx=VP\)

5, \(VP=4cos\left(2x-\dfrac{\pi}{6}\right).\left(sinx.\dfrac{\sqrt{3}}{2}+\dfrac{cosx}{2}\right)^2\)\(=cos\left(2x-\dfrac{\pi}{6}\right).\left(sinx.\sqrt{3}+cosx\right)^2\)

\(VT=2.cos\left(2x-\dfrac{\pi}{6}\right)+2.sin\left(2x-\dfrac{\pi}{6}\right).cos\left(2x-\dfrac{\pi}{6}\right)=2cos\left(2x-\dfrac{\pi}{6}\right)\left[1+sin\left(2x-\dfrac{\pi}{6}\right)\right]\)

\(=2cos\left(2x-\dfrac{\pi}{6}\right)\left(1+\dfrac{sin2x.\sqrt{3}}{2}-\dfrac{cos2x}{2}\right)\)\(=2cos\left(2x-\dfrac{\pi}{6}\right)\left(sin^2x+cos^2x+sinx.cosx.\sqrt{3}-\dfrac{cos^2x-sin^2x}{2}\right)\)

\(=2cos\left(2x-\dfrac{\pi}{6}\right)\left(sin^2x.\dfrac{3}{2}+sinx.cosx.\sqrt{3}+\dfrac{cos^2x}{2}\right)\)\(=cos\left(2x-\dfrac{\pi}{6}\right)\left(sin^2x.3+2sinx.cosx.\sqrt{3}+cos^2x\right)\)

\(=cos\left(2x-\dfrac{\pi}{6}\right)\left(sinx.\sqrt{3}+cosx\right)^2\)

\(\Rightarrow VT=VP\) (dpcm)

Lời giải:

Ta có:

\(\int ^{\frac{\pi}{2}}_{0}\frac{\sin x}{(\sin x+\cos x)^3}dx=\int ^{\frac{\pi}{2}}_{\frac{\pi}{4}}\frac{\sin x}{(\sin x+\cos x)^3}dx+\int ^{\frac{\pi}{4}}_{0}\frac{\sin x}{(\sin x+\cos x)^3}dx\)

\(=A+B\)

Xét riêng rẽ:

\(A=\int ^{\frac{\pi}{2}}_{\frac{\pi}{4}}\frac{\sin^3 x}{(\sin x+\cos x)^3}.\frac{dx}{\sin ^2x}=\int ^{\frac{\pi}{2}}_{\frac{\pi}{4}}\frac{1}{\left(\frac{\sin x+\cos x}{\sin x}\right)^3}d(-\cot x)\)

\(=\int ^{\frac{\pi}{2}}_{\frac{\pi}{4}}\frac{1}{(\cot x+1)^3}d(-\cot x)=-\int ^{\frac{\pi}{2}}_{\frac{\pi}{4}}\frac{d(\cot x+1)}{(\cot x+1)^3}\)

\(=\left.\begin{matrix} \frac{\pi}{2}\\ \frac{\pi}{4}\end{matrix}\right|\frac{1}{2(\cot x+1)^2}=\frac{3}{8}\)

\(B=\int ^{\frac{\pi}{4}}_{0}\frac{\sin x+\cos x-\cos x}{(\sin x+\cos x)^3}dx\)\(=\int ^{\frac{\pi}{4}}_{0}\frac{ 1}{(\sin x+\cos x)^2}dx-\int ^{\frac{\pi}{4}}_{0}\frac{\cos x}{(\sin x+\cos x)^3}dx\)

\(=\int ^{\frac{\pi}{4}}_{0}\frac{1}{\left(\frac{\sin x+\cos x}{\cos x}\right)^2}.\frac{dx}{\cos ^2x}-\int ^{\frac{\pi}{4}}_{0}\frac{1}{\left(\frac{\sin x+\cos x}{\cos^3 x}\right)^3}.\frac{dx}{\cos ^2x}\)

\(=\int ^{\frac{\pi}{4}}_{0}\frac{d(\tan x)}{(\tan x+1)^2}-\int ^{\frac{\pi}{4}}_{0}\frac{d(\tan x)}{(\tan x+1)^3}\)

\(=\int ^{\frac{\pi}{4}}_{0}\frac{d(\tan x+1)}{(\tan x+1)^2}-\int ^{\frac{\pi}{4}}_{0}\frac{d(\tan x+1)}{(\tan x+1)^3}\)

\(=\left.\begin{matrix} \frac{\pi}{4}\\ 0\end{matrix}\right|\frac{-1}{\tan x+1}+\left.\begin{matrix} \frac{\pi}{4}\\ 0\end{matrix}\right|\frac{1}{2(\tan x+1)^2}=\frac{1}{8}\)

Do đó: \(\int ^{\frac{\pi}{2}}_{0}\frac{\sin x}{(\sin x+\cos x)^3}dx=\frac{3}{8}+\frac{1}{8}=\frac{1}{2}\)

Sở dĩ phải chia tích phân thành tổng nhỏ như vậy là do khi ta thực hiện chia sin x xuống dưới mẫu thì hàm số không liên tục trong đoạn \([\frac{\pi}{2}; 0]\)