\(v\left(1\right)=2.1=2\\ v\left(2\right)=2.2=4\\ v\left(3\right)=2.3=6\\ v\left(4\right)=2.4=8\\ v\left(5\right)=2.5=10.\)

\(\frac{1}{{{n_1}}};\frac{1}{{{n_2}}};...;\frac{1}{{{n_n}}};...\)\(\)

Câu 4.

\(\lim \left( {{n^2}\sin \dfrac{{n\pi }}{5} - 2{n^3}} \right) = \lim {n^3}\left( {\dfrac{{\sin \dfrac{{n\pi }}{5}}}{n} - 2} \right) = - \infty \)

Vì \(\lim {n^3} = + \infty ;\lim \left( {\dfrac{{\sin \dfrac{{n\pi }}{5}}}{n} - 2} \right) = - 2 \)

\(\left| {\dfrac{{\sin \dfrac{{n\pi }}{5}}}{n}} \right| \le \dfrac{1}{n};\lim \dfrac{1}{n} = 0 \Rightarrow \lim \left( {\dfrac{{\sin \dfrac{{n\pi }}{5}}}{n} - 2} \right) = - 2\)

Câu 5.

Ta có: \(\left\{ \begin{array}{l} 0 \le \left| {{u_n}} \right| \le \dfrac{1}{{{n^2} + 1}} \le \dfrac{1}{n} \to 0\\ 0 \le \left| {{v_n}} \right| \le \dfrac{1}{{{n^2} + 2}} \le \dfrac{1}{n} \to 0 \end{array} \right. \to \lim {u_n} = \lim {v_n} = 0 \to \lim \left( {{u_n} + {v_n}} \right) = 0\)

Câu 1.

Vì \(\sqrt{2},\left(\sqrt{2}\right)^2,...,\left(\sqrt{2}\right)^n\) lập thành cấp số nhân có \(u_1=\sqrt{2}=q\) nên

\({u_n} = \sqrt 2 .\dfrac{{1 - {{\left( {\sqrt 2 } \right)}^n}}}{{1 - \sqrt 2 }} = \left( {2 - \sqrt 2 } \right)\left[ {{{\left( {\sqrt 2 } \right)}^n} - 1} \right] \to \lim {u_n} = + \infty \) vì \(\left\{{}\begin{matrix}a=2-\sqrt{2}>0\\q=\sqrt{2}>1\end{matrix}\right.\)

Câu 3.

Ta có biến đổi:

\(\lim \left( {\dfrac{{{n^2} - n}}{{1 - 2{n^2}}} + \dfrac{{2\sin {n^2}}}{{\sqrt n }}} \right) = \lim \dfrac{{{n^2} - n}}{{1 - 2{n^2}}} = \dfrac{1}{2}\)

\(u_3=u_2^2-u_2+2=4\)

\(S_1=1=\left(2-1\right)^2=\left(u_2-1\right)^2\)

\(S_2=2.5-1=9=\left(4-1\right)^2=\left(u_3-1\right)^2\)

Dự đoán \(S_n=\left(u_{n+1}-1\right)^2\)

Ta sẽ chứng minh bằng quy nạp:

- Với \(n=1;2\) đúng (đã kiểm chứng bên trên với \(S_1;S_2\))

- Giả sử đẳng thức đúng với \(n=k\)

Hay \(S_k=\left(u_1^2+1\right)\left(u_2^2+1\right)...\left(u_k^2+1\right)-1=\left(u_{k+1}-1\right)^2\)

Ta cần chứng minh:

\(S_{k+1}=\left(u_1^2+1\right)\left(u_2^2+1\right)...\left(u_k^2+1\right)\left(u_{k+1}^2+1\right)-1=\left(u_{k+2}-1\right)^2\)

Thật vậy:

\(S_{k+1}=\left[\left(u_{k+1}-1\right)^2+1\right]\left(u_{k+1}^2+1\right)-1\)

\(=\left(u_{k+1}^2-2u_{k+1}+2\right)\left(u_{k+1}^2+1\right)-1\)

\(=\left(u_{k+2}-u_{k+1}\right)\left(u_{k+2}+u_{k+1}-1\right)-1\)

\(=u_{k+2}^2-u_{k+2}-u_{k+1}^2+u_{k+1}-1\)

\(=u_{k+2}^2-u_{k+2}+2-u_{k+2}-1\)

\(=\left(u_{k+2}-1\right)^2\) (đpcm)

e cảm ơn ạ

\(a,y=\left(u\left(x\right)\right)^2=\left(x^2+1\right)^2=x^4+2x^2+1\\ b,y'\left(x\right)=4x^3+4x,u'\left(x\right)=2x,y'\left(u\right)=2u\\ \Rightarrow y'\left(u\right)\cdot u'\left(x\right)=2u\cdot2x=4x\left(x^2+1\right)=4x^3+4x\)

Vậy \(y'\left(x\right)=y'\left(u\right)\cdot u'\left(x\right)\)