\(M=\frac{1}{1.2}+\frac{2}{1.2.3}+.....+\frac{9}{1.2.3.....10}\)

\(M=\frac{2-1}{1.2}+\frac{3-1}{1.2.3}+....+\frac{10-1}{1.2......10}\)

\(M=1-\frac{1}{2}+\frac{1}{2}-\frac{1}{6}+....+\frac{10}{1.2.....10}-\frac{1}{1.2.....10}\)

\(M=1-\frac{1}{1.2.3......10}\)

\(M=1-\frac{1}{3628800}\)

Vì \(1=1\)mà \(\frac{1}{3628800}< 1\)nên \(1-\frac{1}{3628800}< 1\)

Vậy \(M< 1\)

A=\(\frac{1}{100}\)+\(\frac{1}{101}\)+\(\frac{1}{102}\)+...+\(\frac{1}{200}\)

   (Sử dung phương pháp chặn số đầu)

\(\frac{1}{100}\)>\(\frac{1}{101}\)

\(\frac{1}{100}\)>\(\frac{1}{102}\)

           ...

\(\frac{1}{100}\)>\(\frac{1}{200}\)

nên \(\frac{1}{100}\)+\(\frac{1}{101}\)+\(\frac{1}{102}\)+...+\(\frac{1}{200}\)> \(\frac{1}{100}\)+\(\frac{1}{100}\)+...+\(\frac{1}{100}\)(có 101 phân số)

\(\Rightarrow\)\(\frac{1}{100}\)+\(\frac{1}{101}\)+\(\frac{1}{102}\)+...+\(\frac{1}{200}\)>101.\(\frac{1}{100}\)=\(\frac{101}{100}\)>1>\(\frac{3}{4}\)

\(\Rightarrow\)A >\(\frac{3}{4}\)

a) a+n/b+n=a/b

vì a+n/b+n rút gọn n ta sẽ đc a/b

b) Nhân A với 10 ta được \(10A=\frac{10\left(10^{11}-1\right)}{10^{12}-1}\)

\(10A=\frac{10^{12}-10}{10^{12}-1}\)

\(10A=\frac{10^{12}-1-9}{10^{12}-1}\)

\(10A=\frac{10^{12}-1}{10^{12}-1}-\frac{9}{10^{12}-1}\)

Nhân B với 10 rồi giải tương tự như A ta được

\(10B=\frac{10^{11}+1}{10^{11}+1}+\frac{9}{10^{11}+1}\)

ta thấy: 10¹²-1>10¹¹+1\(\Rightarrow\frac{9}{10^{12}-1}<\frac{9}{10^{11}+1}\) ( vì 2 ps cùng tử ps nào có tử bé hơn thì ps đó lớn hơn)

=>10B>10A

=>B>A

\(M=\frac{1}{1^2}+\frac{1}{2^2}+\frac{1}{3^2}+...+\frac{1}{10^2}\)

\(>1+\frac{1}{2.3}+\frac{1}{3.4}+...+\frac{1}{10.11}\)

\(=1+\frac{1}{2}-\frac{1}{3}+\frac{1}{3}-\frac{1}{4}+...+\frac{1}{10}-\frac{1}{11}\)

\(=1+\frac{1}{2}-\frac{1}{11}\)

\(>1+\frac{1}{2}-\frac{1}{6}=\frac{4}{3}\)

Nếu so với 1 thì 1>hơn

M = 1 + 1/2 + 1/2² + ... + 1/2²⁰¹⁵ + 1/2²⁰¹⁶

=> 2.M = 2 + 1 + 1/2 + ... + 1/2²⁰¹⁴ + 1/2²⁰¹⁵

=> 2.M = 3 + 1/2 +...+ 1/2²⁰¹⁴ + 1/2²⁰¹⁵

=> 2.M - M = 3 -1 + 1/2²⁰¹⁶

=> M = 2 + 1/2²⁰¹⁶ 

=> M > 2 ( Do 2 + 1/2²⁰¹⁶  > 2 )

cam on ban

       \(M=1+\frac{1}{2}+\frac{1}{2^2}+\frac{1}{2^3}+....+\frac{1}{2^{2016}}\)

\(\Rightarrow\)\(2M=2+1+\frac{1}{2}+\frac{1}{2^2}+....+\frac{1}{2^{2015}}\)

\(\Rightarrow\)\(2M-M=\left(2+1+\frac{1}{2}+\frac{1}{2^2}+...+\frac{1}{2^{2015}}\right)-\left(1+\frac{1}{2}+\frac{1}{2^2}+\frac{1}{2^3}+...+\frac{1}{2^{2016}}\right)\)

\(\Rightarrow\)\(M=2-\frac{1}{2^{2016}}< 2\)

Vậy  M < 2 

\(101A=\frac{101\left(101^{102}+1\right)}{101^{103}+1}=\frac{101^{103}+101}{101^{103}+1}=\frac{101^{103}+1+100}{101^{103}+1}=\frac{101^{103}+1}{101^{103}+1}+\frac{100}{101^{103}+1}=1+\frac{100}{100^{103}+1}\)

\(101B=\frac{101\left(101^{103}+1\right)}{101^{104}+1}=\frac{101^{104}+101}{101^{104}+1}=\frac{101^{104}+1+100}{101^{104}+1}=\frac{101^{104}+1}{101^{104}+1}+\frac{100}{101^{104}+1}=1+\frac{100}{101^{104}+1}\)

vì 100¹⁰³+1<100¹⁰⁴+1

=>\(\frac{100}{100^{103}+1}>\frac{100}{100^{104}+1}\)

=>\(1+\frac{100}{100^{103}+1}>1+\frac{100}{100^{104}+1}\)

=>A>B