Câu 1.

\(y = \dfrac{{n + \sin 2n}}{{n + 5}} = \dfrac{{\dfrac{n}{n} + \dfrac{{\sin 2n}}{n}}}{{\dfrac{n}{n} + \dfrac{5}{n}}} = \dfrac{{1 + \dfrac{{2.\sin 2n}}{{2n}}}}{{1 + \dfrac{5}{n}}}\\ \Rightarrow \lim y = \dfrac{{1 + 0}}{{1 + 0}} = 1 \)

Câu 2.

\(\lim \dfrac{{3\sin n + 4\cos n}}{{n + 1}}\)

Vì \( - 1 \le \sin n \le 1; - 1 \le \cos n \le 1 \Rightarrow \) khi \(x \to \infty \) thì \(3\sin n + 4{\mathop{\rm cosn}\nolimits} = const \)

\(\Rightarrow T = \lim \dfrac{{3\sin n + 4\cos n}}{{n + 1}} = 0 \)

Chú thích: $const$ là kí hiệu hằng số, giống như dạng giới hạn L/vô cùng.

\(lim\left(u_n\right)=lim\left(\frac{n}{n^2+1}\right)=lim\left(\frac{\frac{1}{n}}{1+\frac{1}{n^2}}\right)=\frac{0}{1}=0\)

b/

\(-1\le cos\frac{\pi}{n}\le1\Rightarrow-\frac{n}{n^2+1}\le v_n\le\frac{n}{n^2+1}\)

Mà \(lim\left(-\frac{n}{n^2+1}\right)=lim\left(\frac{n}{n^2+1}\right)=0\)

\(\Rightarrow lim\left(v_n\right)=0\)

S= u₁.u₁ + u₂.u₂+...+u_n.u_n 

S = u₁.(u₂ - d) + u₂.(u₃ - d)+...+u_n(u_n+1 - d)

S = u₁.u₂ + u₂.u₃ +...+u_n.u_n+1-d(u₁+u₂+...+u_n)

Đặt A = u₂.u₃ + u₃.u₄+...+u_n.u_n+1

3d.A = u₂.u₃.(u₄-u₁) + u₃.u₄.(u₅-u₂)+...+u_n.u_n+1.(u_n+2-u_n-1) 

3d.A = u₂.u₃.u₄ - u₁.u₂.u₃ + u₃.u₄.u₅ - u₂.u₃.u₄+...+u_n.u_n+1.u_n+2 - u_n-1.u_n.u_n+1

3d.A = u_n.u_n+1.u_n+2 - u₁.u₂.u₃

3d.A = (u₁ + d.n - d)(u₁ + d.n)(u₁ + d.n + d) - u₁.(u₁+d).(u₁+2.d) 

A = [(u₁ + d.n - d)(u₁ + d.n)(u₁ + d.n + d) - u₁.(u₁+d).(u₁+2.d)]/(3.d) 

S = A + u₁.(u₁ + d) + d[2.u₁+(n-1).d].n/2 

B

$n$ tiến đến đâu vậy bạn?

Câu 2:

\(\frac{1}{1.2}+\frac{1}{2.3}+...+\frac{1}{n(n+1)}=\frac{2-1}{1.2}+\frac{3-2}{2.3}+...+\frac{(n+1)-n}{n(n+1)}\)

\(=1-\frac{1}{2}+\frac{1}{2}-\frac{1}{3}+...\frac{1}{n}-\frac{1}{n+1}\)

\(=1-\frac{1}{n+1}\)

\(\Rightarrow \lim_{n\to \infty}(\frac{1}{1.2}+\frac{1}{2.3}+...+\frac{1}{n(n+1)})=\lim_{n\to \infty}(1-\frac{1}{n+1})=1-\lim_{n\to \infty}\frac{1}{n+1}=1-0=1\)

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:

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