a) lim = = 2;

b) lim = = 0.

\(limu_n=lim\dfrac{1}{n}=0\); \(limv_n=lim\left(-\dfrac{1}{n}\right)=0\).
\(limf\left(u_n\right)=lim\left(\sqrt{\dfrac{1}{n}}+1\right)=1\).
\(limf\left(v_n\right)=lim\left(2.\dfrac{-1}{n}\right)=lim\dfrac{-2}{n}=0\).
Hai dãy số \(\left(u_n\right)\) và \(\left(v_n\right)\) đều có giới hạn 0 khi n tiến ra dương vô cùng nhưng \(limf\left(u_n\right)\ne limf\left(v_n\right)\) nên f không có giới hạn tại \(x=0\).

a) \(\begin{array}{l}\lim {u_n} = \lim \left( {3 + \frac{1}{n}} \right) = \lim 3 + \lim \frac{1}{n} = 3 + 0 = 3\\\lim {v_n} = \lim \left( {5 - \frac{2}{{{n^2}}}} \right) = \lim 5 - \lim \frac{2}{{{n^2}}} = 5 - 0 = 5\end{array}\)

b)

\(\begin{array}{l}\lim \left( {{u_n} + {v_n}} \right) = \lim {u_n} + \lim {v_n} = 3 + 5 = 8\\\lim \left( {{u_n} - {v_n}} \right) = \lim {u_n} - \lim {v_n} = 3 - 5 =  - 2\\\lim \left( {{u_n}.{v_n}} \right) = \lim {u_n}.\lim {v_n} = 3.5 = 15\\\lim \frac{{{u_n}}}{{{v_n}}} = \frac{{\lim {u_n}}}{{\lim {v_n}}} = \frac{3}{5}\end{array}\)

a) Vì \(\lim \left( {8 + \frac{1}{n} - 8} \right) = \lim \frac{1}{n} = 0\) nên \(\lim {u_n} = 8.\)

Vì \(\lim \left( {4 - \frac{2}{n} - 4} \right) = \lim \frac{{ - 2}}{n} = 0\) nên \(\lim {v_n} = 4.\)

b) \({u_n} + {v_n} = 8 + \frac{1}{n} + 4 - \frac{2}{n} = 12 - \frac{1}{n}\)

Vì \(\lim \left( {12 - \frac{1}{n} - 12} \right) = \lim \frac{{ - 1}}{n} = 0\) nên \(\lim \left( {{u_n} + {v_n}} \right) = 12.\)

Mà \(\lim {u_n} + \lim {v_n} = 12\)

Do đó \(\lim \left( {{u_n} + {v_n}} \right) = \lim {u_n} + \lim {v_n}.\)

c) \({u_n}.{v_n} = \left( {8 + \frac{1}{n}} \right).\left( {4 - \frac{2}{n}} \right) = 32 - \frac{{14}}{n} - \frac{2}{{{n^2}}}\)

Sử dụng kết quả của ý b ta có \(\lim \left( {32 - \frac{{14}}{n} - \frac{2}{{{n^2}}}} \right) = \lim 32 - \lim \frac{{14}}{n} - \lim \frac{2}{{{n^2}}} = 32\)

Mà \(\left( {\lim {u_n}} \right).\left( {\lim {v_n}} \right) = 32\)

Do đó \(\lim \left( {{u_n}.{v_n}} \right) = \left( {\lim {u_n}} \right).\left( {\lim {v_n}} \right).\)

+ Với mọi n ∈ N^*, ta có:

|u_n – 2| ≤ v_n ⇔ -v_n ≤ u_n – 2 ≤ v_n

+ Mà lim (-v_n) = lim (v_n) = 0 nên

lim (u_n – 2) = 0 ⇔ lim u_n – lim 2 = 0 ⇔ lim u_n = 2

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

1) Có \(u_{n+1}-u_n=\dfrac{1}{2}u^2_n-2u_n+2=\dfrac{1}{2}\left(u_n-2\right)^2\) (1)

+) CM \(u_n>2\) (n thuộc N*)

n=1 : u₁= 5/2 > 2 (đúng)

Giả sử n=k, u_k > 2 (k thuộc N*)

Ta cần CM n = k + 1. Thật vậy ta có:

\(u_{k+1}=\dfrac{1}{2}u^2_k-u_k+2=\dfrac{1}{2}\left(u_k-2\right)^2+u_k\) (đúng)

Vậy u_n > 2 (n thuộc N*)        (2)

Từ (1) (2) => u_n+1 - u_n > 0, hay u_n+1 > u_n

=> (u_n) là dãy tăng => \(\lim\limits_{n\rightarrow\infty}u_n=+\infty\)

2) \(2u_{n+1}=u^2_n-2u_n+4\)

\(\Leftrightarrow2u_{n+1}-4=u^2_n-2u_n\)

\(\Leftrightarrow2\left(u_{n+1}-2\right)=u_n\left(u_n-2\right)\)

\(\Leftrightarrow\dfrac{1}{u_{n+1}-2}=\dfrac{2}{u_n\left(u_n-2\right)}=\dfrac{1}{u_n-2}-\dfrac{1}{u_n}\)

\(\Leftrightarrow\dfrac{1}{u_n}=\dfrac{1}{u_n-2}-\dfrac{1}{u_{n+1}-2}\)

\(S=\dfrac{1}{u_1}+\dfrac{1}{u_2}+...+\dfrac{1}{u_n}\)

\(=\dfrac{1}{u_1-2}-\dfrac{1}{u_2-2}+\dfrac{1}{u_2-2}+...-\dfrac{1}{u_{n+1}-2}\)

\(=\dfrac{1}{u_1-2}-\dfrac{1}{u_{n+1}-2}\)

\(=2-\dfrac{1}{u_{n+1}-2}\)

\(\Leftrightarrow\lim\limits_{n\rightarrow\infty}S=2\)