a) \({u_n} = \frac{{n + 1}}{n}= 1+ \frac{{1}}{n} > 1\).

b) \({u_n} = \frac{{n + 1}}{n}= 1+ \frac{{1}}{n} < 2\).

A = \(\dfrac{n^9+1}{n^{10}+1}\) 

\(\dfrac{1}{A}\) = \(\dfrac{n^{10}+1}{n^9+1}\) = n -  \(\dfrac{n-1}{n^9+1}\)

B = \(\dfrac{n^8+1}{n^9+1}\)

\(\dfrac{1}{B}\) = \(\dfrac{n^9+1}{n^8+1}\) =  n - \(\dfrac{n-1}{n^8+1}\)

Vì n > 1 ⇒ n - 1> 0

       \(\dfrac{n-1}{n^9+1}\) < \(\dfrac{n-1}{n^8+1}\)

⇒ n - \(\dfrac{n-1}{n^9+1}\) > n - \(\dfrac{n-1}{n^8+1}\)⇒ \(\dfrac{1}{A}>\dfrac{1}{B}\)

⇒ A < B 

Xét \({u_{n + 1}} - {u_n} = {n^2} + 2n + 1 - {n^2} = 2n + 1\)

Do \(n \in \mathbb{N}* \Rightarrow 2n + 1 > 0 \Rightarrow {u_{n + 1}} > {u_n}\)

ta có :

\(u_n=n^2\\ =>u_{n+1}=\left(n+1\right)^2\)

ta thấy :\(n^2< \left(n+1\right)^2\) \(n\in N\)*

Giải:

\(S=\dfrac{1}{2}+\dfrac{2}{2^2}+...+\dfrac{n}{2^n}+...+\dfrac{2017}{2^{2017}}\) 

Với \(n>2\) thì \(\dfrac{n}{2^n}=\dfrac{n+1}{2^{n-1}}-\dfrac{n+2}{2^n}\) 

Ta có:

\(\dfrac{n+1}{2^{n-1}}=\dfrac{n+1}{2^n:2}=\dfrac{2.\left(n+1\right)}{2^n}\) 

\(\Rightarrow\dfrac{n+1}{2^{n-1}}-\dfrac{n+2}{2^n}\) 

\(=\dfrac{2.\left(n+1\right)}{2^n}-\dfrac{n+2}{2^n}\) 

\(=\dfrac{2.\left(n+1\right)-n-2}{2^n}\) 

\(=\dfrac{n}{2^n}\) 

  \(\Leftrightarrow S=\dfrac{1}{2}+\left(\dfrac{2+1}{2^{2-1}}-\dfrac{2+2}{2^2}\right)+...+\left(\dfrac{2016+1}{2^{2015}}-\dfrac{2018}{2^{2016}}\right)+\left(\dfrac{2017+1}{2^{2016}}-\dfrac{2019}{2^{2017}}\right)\)

\(S=\dfrac{1}{2}+\dfrac{3}{2}+\dfrac{2019}{2017}\) 

\(S=2-\dfrac{2019}{2017}\)  

\(\Leftrightarrow S=2-\dfrac{2019}{2017}< 2\) 

Hay \(S< 2\)

Cảm ơn bạn ^-^

\(\frac{n+1}{n+2}\)và \(\frac{n}{n+3}\)

<=>\(\hept{\begin{cases}\left(n+1\right).\left(n+3\right)=n^2+4n+3\\\left(n+2\right).n=n^2+2n\end{cases}}\)

<=>\(n^2\)+4n+3 > \(n^2\)+2n

<=>\(\left(n+1\right).\left(n+3\right)>\left(n+2\right).n\)

<=>\(\frac{n+1}{n+2}>\frac{n}{n+3}\)

ai kết ban không

khó

không

ta có:1-67/77=10/77

         1-73/83=10/83

do 10/7>10/83

=>67/77>13/83