Cho \(\int_0^4f\left(x\right)dx=2018\)Giá trị \(\int_0^2f\left(2x\right)dx+\int_{-2}^2\text{}f\left(2-x\right)dx\)bằng
A. 4036
B. 3027
C. 0
D. -1009
Câu 1. Cho hàm số chẵn y=f (x) liên tục trên R và \(\int\limits^1_{-1}\dfrac{f\left(2x\right)}{1+2^x}dx=8\).Tính \(\int_0^2f\left(x\right)dx\)
Câu 2:Cho hàm số y=f (x) có đạo hàm và liên tục trên [0;1]và thỏa f(0)=1.\(\int_0^1\left[f'\left(x\right)\left[f^2\left(x\right)\right]+1\right]dx=2\int_0^1\sqrt{f'\left(x\right)}f\left(x\right)dx\).Tính\(\int_0^1\left[f^3\left(x\right)\right]dx\).
Biết \(\int_{-1}^3f\left(x\right)dx=15\) . Tính giá trị của P = \(\int_0^2\left[f\left(3-2x\right)+2019\right]dx\)
Đặt \(3-2x=t\Rightarrow dx=-\frac{1}{2}dt\) ; \(\left\{{}\begin{matrix}x=0\Rightarrow t=3\\x=2\Rightarrow t=-1\end{matrix}\right.\)
\(\Rightarrow P=\int\limits^{-1}_3\left[f\left(t\right)+2019\right].\left(-\frac{1}{2}\right)dt=\frac{1}{2}\int\limits^3_{-1}f\left(t\right)dt+\int\limits^3_{-1}\frac{2019}{2}dt\)
\(=\frac{15}{2}+\frac{2019}{2}.4=\frac{8091}{2}\)
Cho \(\int_0^2f\left(x\right)=3\). Khi đó kết quả của \(\int_0^2\left[4f\left(x\right)-3\right]dx\)là?
A. 2
B. 4
C. 6
D. 8
\(\int_0^2\left[4f_{\left(x\right)}-3\right]dx\)
= \(4\int_0f_{\left(x\right)}^2dx-3x|^2_0\)
= 12 - 6
= 6
1/ I=\(\int_{-2}^2\left|x^2-1\right|dx\)
2/ I= \(\int_1^e\sqrt{x}.lnxdx\)
3/ I= \(\int_0^{\dfrac{\pi}{2}}\left(e^{sinx}+cosx\right)cosxdx\)
4/ I= \(\int_0^{\dfrac{pi}{2}}\dfrac{sin2x}{\sqrt{cos^2x+4sin^2x}}dx\)
5/ I= \(\int_0^{\dfrac{\pi}{4}}\sqrt{2}cos\sqrt{x}dx\)
6/ I= \(\int_1^{\sqrt{e}}\dfrac{1}{x\sqrt{1-ln^2x}}dx\)
7/ I= \(\int_{-\dfrac{\pi}{4}}^{\dfrac{\pi}{4}}\dfrac{sin^6x+cos^6x}{6^x+1}dx\)
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 \(\left[-2;2\right]\)
x | -2 | -1 | 1 | 2 |
\(x^2-1\) | 0 | 0 |
\(\left(-2;-1\right):+\)
\(\left(-1;1\right):-\)
\(\left(1;2\right):+\)
\(\Rightarrow I=\int\limits^{-1}_{-2}\left|x^2-1\right|dx+\int\limits^1_{-1}\left|x^2-1\right|dx+\int\limits^2_1\left|x^2-1\right|dx\)
\(=\int\limits^{-1}_{-2}\left(x^2-1\right)dx-\int\limits^1_{-1}\left(x^2-1\right)dx+\int\limits^2_1\left(x^2-1\right)dx\)
\(=\left(\dfrac{x^3}{3}-x\right)|^{-1}_{-2}-\left(\dfrac{x^3}{3}-x\right)|^1_{-1}+\left(\dfrac{x^3}{3}-x\right)|^2_1\)
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=...
cho f(x) dương liên tục trên [0;1] f(0)=1. Biết \(3\int_0^1\left[f'\left(x\right)\left[f\left(x\right)\right]^2+\frac{1}{9}\right]dx\le2\int_0^1\sqrt{f'\left(x\right)}f\left(x\right)dx\) . Tính \(\int_0^1\left[f\left(x\right)\right]^3dx\)
\(3\int\limits^1_0\left[f'\left(x\right).f^2\left(x\right)+\frac{1}{9}\right]dx\le2\int\limits^1_0\sqrt{f'\left(x\right)}f\left(x\right)dx\) (1)
Ta lại có:
\(3f'\left(x\right).f^2\left(x\right)+\frac{1}{3}\ge2\sqrt{f'\left(x\right)}.f\left(x\right)\)
\(\Rightarrow3\int\limits^1_0\left[f'\left(x\right).f^2\left(x\right)+\frac{1}{9}\right]\ge2\int\limits^1_0\sqrt{f'\left(x\right)}.f\left(x\right)dx\) (2)
Từ (1); (2) \(\Rightarrow3\int\limits^1_0\left[f'\left(x\right).f^2\left(x\right)+\frac{1}{9}\right]dx=2\int\limits^1_0\sqrt{f'\left(x\right)}.f\left(x\right)dx\)
Dấu "=" xảy ra khi và chỉ khi:
\(3f'\left(x\right).f^2\left(x\right)=\frac{1}{3}\Rightarrow3\int f'\left(x\right).f^2\left(x\right)dx=\int\frac{1}{3}dx\)
\(\Rightarrow f^3\left(x\right)=\frac{x}{3}+C\)
Thay \(x=0\Rightarrow f^3\left(0\right)=C\Rightarrow C=1\)
\(\Rightarrow f^3\left(x\right)=\frac{x}{3}+1\Rightarrow\int\limits^1_0f^3\left(x\right)dx=\int\limits^1_0\left(\frac{x}{3}+1\right)dx=\frac{7}{6}\)
\(\int_0^{\frac{\Pi}{2}}c\text{os}^2x\left(1-sin^3x\right)dx\)
2) \(\int_0^{\frac{\Pi}{4}}\frac{sin\left(x-\frac{\Pi}{4}\right)}{sin2x+2\left(1+s\text{inx}+c\text{ox}\right)}dx\)
hộ mk vs nha
1)
\(I=\int\left(cos^2x-cos^2x\cdot sin^3x\right)dx\\ =\int cos^2x\cdot dx-\int cos^2x\cdot sin^3x\cdot dx\\ =\frac{1}{2}\int\left(cos2x+1\right)dx+\int cos^2x\left(1-cos^2x\right)d\left(cosx\right)\\ =\frac{1}{4}sin2x+\frac{1}{2}+\frac{cos^3x}{3}-\frac{cos^5x}{5}+C\)
....
2) Xét riêng mẫu số:
\(sin2x+2\left(1+sinx+cosx\right)\\ =\left(sin2x+1\right)+2\left(sinx+cosx\right)+1\\ =\left(sinx+cosx\right)^2+2\left(sinx+cosx\right)+1\\ =\left(sinx+cosx+1\right)^2\\ =\left[\sqrt{2}cos\left(x-\frac{\pi}{4}\right)+1\right]^2\)
Khi đó:
\(I_2=\int\frac{sin\left(x-\frac{\pi}{4}\right)}{\left[\sqrt{2}cos\left(x-\frac{\pi}{4}\right)+1\right]^2}dx\\ =-\frac{1}{\sqrt{2}}\int\frac{d\left[\sqrt{2}cos\left(x-\frac{\pi}{4}\right)+1\right]}{\left[\sqrt{2}cos\left(x-\frac{\pi}{4}\right)+1\right]^2}\\ =\frac{1}{\sqrt{2}}\cdot\frac{1}{\sqrt{2}cos\left(x-\frac{\pi}{4}\right)+1}+C=\frac{1}{2cos\left(x-\frac{\pi}{4}\right)+1}\)
...
cho hàm số y=f(x) liên tục trên [0;π/2] thỏa \(\int_0^{\frac{\pi}{2}}f^2\left(x\right)dx=3\pi\) , \(\int_0^{\pi}\left(\sin x-x\right)f'\left(\frac{x}{2}\right)dx=6\pi\) ; \(f\left(\frac{\pi}{2}\right)=0\) Tính \(\int_0^{\frac{\pi}{2}}\left(f''\left(x\right)\right)^3dx\)
giúp em với ạ.
Cho hàm số y = f(x) có đạo hàm liên tục trên đoạn [0;1] thỏa mãn f(1) = 1,\(\int_0^1xf\left(x\right)dx=\dfrac{1}{5}\), \(\int_0^1\left[f'\left(x\right)\right]^2dx=\dfrac{9}{5}\) Tính tích phân \(I=\int_0^1f\left(x\right)dx\)
Đang học Lý mà thấy bài nguyên hàm hay hay nên nhảy vô luôn :b
\(I_1=\int\limits^1_0xf\left(x\right)dx\)
\(\left\{{}\begin{matrix}u=f\left(x\right)\\dv=xdx\end{matrix}\right.\Rightarrow\left\{{}\begin{matrix}du=f'\left(x\right)dx\\v=\dfrac{1}{2}x^2\end{matrix}\right.\)
\(\Rightarrow\int xf\left(x\right)dx=\dfrac{1}{2}x^2f\left(x\right)-\dfrac{1}{2}\int x^2f'\left(x\right)dx\)
\(\Rightarrow\int\limits^1_0xf\left(x\right)dx=\dfrac{1}{2}x^2|^1_0-\dfrac{1}{2}\int\limits^1_0x^2f'\left(x\right)dx=\dfrac{1}{5}\)
\(\Leftrightarrow\dfrac{1}{2}\int\limits^1_0\left[f'\left(x\right)\right]^2dx=\dfrac{3}{10}\Rightarrow\int\limits^1_0x^2f'\left(x\right)dx=\dfrac{3}{5}\)
Đoạn này hơi rối xíu, ông để ý kỹ nhé, nhận thấy ta có 2 dữ kiện đã biết, là: \(\int\limits^1_0\left[f'\left(x\right)\right]^2dx=\dfrac{9}{5}and\int\limits^1_0x^2f'\left(x\right)dx=\dfrac{3}{5}\) có gì đó liên quan đến hằng đẳng thức, nên ta sẽ sử dụng luôn
\(\int\limits^1_0\left[f'\left(x\right)+tx^2\right]^2dx=0\)
\(\Leftrightarrow\int\limits^1_0\left[f'\left(x\right)\right]^2dx+2t\int\limits^1_0x^2f'\left(x\right)dx+t^2\int\limits^1_0x^4dx=0\)
\(\Leftrightarrow\dfrac{9}{5}+\dfrac{6}{5}t+\dfrac{1}{5}t^2=0\) \(\left(\int\limits^1_0x^4dx=\dfrac{1}{5}x^5|^1_0=\dfrac{1}{5}\right)\)\(\)\(\Leftrightarrow t=-3\Rightarrow\int\limits^1_0\left[f'\left(x\right)-3x^2\right]^2dx=0\)
\(\Leftrightarrow f'\left(x\right)=3x^2\Leftrightarrow f\left(x\right)=x^3+C\)
\(\Rightarrow\int\limits^1_0f\left(x\right)dx=\int\limits^1_0x^3dx=\dfrac{1}{4}x^4|^1_0=\dfrac{1}{4}\)
P/s: Có gì ko hiểu hỏi mình nhé !
Cho hàm số f(x) có đạo hàm liên tục trên R. Biết f(3) = 1 và \(\int\limits^1_0xf\left(3x\right)dx=1\) , khi đó \(\int_0^3x^2f'\left(x\right)dx\)
Xét \(I=\int\limits^1_0x.f\left(3x\right)dx\)
Đặt \(3x=u\Rightarrow dx=\dfrac{1}{3}du\) ; \(\left\{{}\begin{matrix}x=0\Rightarrow u=0\\x=1\Rightarrow u=3\end{matrix}\right.\)
\(\Rightarrow I=\dfrac{1}{9}\int\limits^3_0u.f\left(u\right)du=\dfrac{1}{9}\int\limits^3_0x.f\left(x\right)dx=1\)
\(\Rightarrow J=\int\limits^3_0x.f\left(x\right)dx=9\)
Xét J, đặt \(\left\{{}\begin{matrix}u=f\left(x\right)\\dv=x.dx\end{matrix}\right.\) \(\Rightarrow\left\{{}\begin{matrix}du=f'\left(x\right)dx\\v=\dfrac{x^2}{2}\end{matrix}\right.\)
\(\Rightarrow J=\dfrac{x^2}{2}.f\left(x\right)|^3_0-\dfrac{1}{2}\int\limits^3_0x^2.f'\left(x\right)dx=\dfrac{9}{2}-\dfrac{1}{2}\int\limits^3_0x^2.f'\left(x\right)dx\)
\(\Rightarrow\int\limits^3_0x^2.f'\left(x\right)dx=9-2J=-9\)