Hãy so sánh M và N với M= \(\frac{10^{2018}+1}{10^{2019}+1}\)và N= \(\frac{10^{2019}+1}{10^{2020}+1}\)
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\(M=\frac{2018^{2018}+1}{2019^{2019}+1}\)
\(\Leftrightarrow2M=1+\frac{2017}{2018^{2019}+1}\)
\(N=\frac{2018^{2019}-2}{2018^{2020}-2}\)
\(\Leftrightarrow2N=1-\frac{4034}{2018^{2020}-2}\)
Nhận thấy : \(1+\frac{2017}{2018^{2019}+1}>1-\frac{4034}{2018^{2020}-2}\Leftrightarrow2M>2N\Leftrightarrow M>N\)
Từ đề bài, ta suy ra:
So sánh hai biểu thức
\(M=\left(2018^{2018}+1\right)\cdot\left(2018^{2020}-2\right)\)(1)
\(N=\left(2018^{2019}-2\right)\cdot\left(2018^{2019}+1\right)\)(2)
Xét biểu thức M và N, ta suy ra:
\(M=\left(2018^{2019}-2017\right)\cdot\left(2019^{2019}+2016\right)\)
\(N=\left(2018^{2019}-2017\right)\cdot\left(2018^{2018}-2016\right)\)
Nhận thấy (20192019+2016)>(20182018-2016) nên M>N
Vậy M>N.
P/s:Mình đây không phải top 10 tuần nên bài có thể sai sót, mong bạn tham khảo:)))
ta có: M=10^2020 +1 / 10^2019 +1
=> M/10= 10^2020 +1 / 10( 10^2019 +1 )
= 10^2020+1/ 10^2020 +10
=> 10/A= 10^2020 +10/10^2020 +1
=(10^2020 +1) +9/ 10^2020+1
=10^2020+1 /10^2020+1 + 9/10^2020+1
=1+ 9/10^2020+1
ta lại có: N=10^2021 +1/10^2020 +1
=> N/10= 10^2021+1/ 10(10^2020+1)
= 10^2021+1 / 10^2021+10
=> 10/N=10^2021+10 / 10^2021+1
=(10^2021+1) +9/10^2021+1
=10^2021+1/10^2021+1 +9/10^2021+1
=1+ 9/10^2021+1
ta thấy: 10/M>10N
=>M<N
\(M=\dfrac{10^{2020}+1}{10^{2019}+1}=1-\dfrac{9}{10^{2019}+1}\)
\(N=\dfrac{10^{2021}+1}{10^{2020}+1}=1-\dfrac{9}{10^{2020}+1}\)
Ta có: \(10^{2019}+1< 10^{2020}+1\)
\(\Leftrightarrow\dfrac{9}{10^{2019}+1}>\dfrac{9}{10^{2020}+1}\)
\(\Leftrightarrow-\dfrac{9}{10^{2019}+1}< -\dfrac{9}{10^{2020}+1}\)
\(\Leftrightarrow M< N\)
a) Ta có : \(\frac{-60}{12}=-5=-\frac{25}{5}\)
\(-0,8=-\frac{8}{10}=-\frac{4}{5}\)
Mà -25 < -4 nên \(\frac{-25}{5}< \frac{-4}{5}\)=> \(\frac{-60}{12}< -0,8\)
b) Ta có : \(\frac{2020}{2019}=1+\frac{1}{2019}\)
\(\frac{2021}{2020}=1+\frac{1}{2020}\)
Vì \(\frac{1}{2019}>\frac{1}{2020}\)nên \(\frac{2020}{2019}>\frac{2021}{2020}\)
c) \(\frac{10^{2018}+1}{10^{2019}+1}=\frac{10\left(10^{2018}+1\right)}{10^{2019}+1}=\frac{10^{2019}+10}{10^{2019}+1}=\frac{10^{2019}+1+9}{10^{2019}+1}=1+\frac{9}{10^{2019}+1}\)(1)
\(\frac{10^{2019}+1}{10^{2020}+1}=\frac{10\left(10^{2019}+1\right)}{10^{2020}+1}=\frac{10^{2020}+10}{10^{2020}+1}=\frac{10^{2020}+1+9}{10^{2020}+1}=1+\frac{9}{10^{2020}+1}\)(2)
Đến đây tự so sánh rồi nhé
1
\(A=\frac{2019^{2019}+1}{2019^{2020}+1}< \frac{2019^{2019}+1+2018}{2019^{2020}+1+2018}=\frac{2019^{2019}+2019}{2019^{2020}+2019}=\frac{2019\left(2019^{2018}+1\right)}{2019\left(2019^{2019}+1\right)}\)
\(=\frac{2019^{2018}+1}{2019^{2019}+1}\)
2
\(M=\frac{100^{101}+1}{100^{100}+1}< \frac{100^{101}+1+99}{100^{100}+1+99}=\frac{100^{101}+100}{100^{100}+100}=\frac{100\left(100^{100}+1\right)}{100\left(100^{99}+1\right)}\)
\(=\frac{100^{100}+1}{100^{99}+1}=N\)
\(M=\frac{10^{2018}+1}{10^{2019}+1}\)
\(\Rightarrow10M=\frac{10\left(10^{2018}+1\right)}{10^{2019}+1}=\frac{10^{2019}+1+9}{10^{2019}+1}=1+\frac{9}{10^{2019}+1}\)
\(N=\frac{10^{2019}+1}{10^{2020}+1}\)
\(\Rightarrow10N=\frac{10\left(10^{2019}+1\right)}{10^{2020}+1}=\frac{10^{2020}+1+9}{10^{2020}+1}=1+\frac{9}{10^{2020}+1}\)
Ta co: \(\frac{9}{10^{2019}+1}>\frac{9}{10^{2020}+1}\) ma \(1=1\)
\(\Rightarrow1+\frac{9}{10^{2019}+1}>1+\frac{9}{10^{2020}+1}\)
\(\Rightarrow10M>10N\)
\(\Rightarrow M>N\)