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\(^6\sqrt{2019} = b, ^6\sqrt{2020} = a \\ Then, A = a^3 - b^3; B = a^2 -b^2\\ \Rightarrow A > B \)
\(\sqrt{2019^2+2019^2.2020^2+2020^2}=\sqrt{2019^2+\left(2020-1\right)^2.2020^2+2020^2}=\sqrt{2019^2+2020^4-2.2020.2020^2+2020^2+2020^2}=\sqrt{2020^4+2.2020^2-2.\left(2019+1\right).2020^2+2019^2}=\sqrt{2020^4+2.2020^2-2.2019.2020^2-2.2020^2+2019^2}=\sqrt{2020^4-2.2019.2020^2+2019^2}=\sqrt{\left(2020^2-2019\right)^2}=\left|2020^2-2019\right|=2020^2-2019\)
Vì 20202-2019\(\in N\)
Vậy \(\sqrt{2019^2+2019^2.2020^2+2020^2}\)\(\in N\)
Vd1:
d) Ta có: \(\sqrt{2}\left(x-1\right)-\sqrt{50}=0\)
\(\Leftrightarrow\sqrt{2}\left(x-1-5\right)=0\)
\(\Leftrightarrow x=6\)
Đặt \(A=\left(\sqrt{2018}+\sqrt{2020}\right)\)
\(\Rightarrow A^2=2018+2\sqrt{2018.2020}+2020=4038+\sqrt{4.2018.2020}=4038+\sqrt{4.\left(2019^2-1\right)}\)
Đặt \(B=2\sqrt{2019}=\sqrt{4.2019}\)
\(B^2=4.2019=2.2019+2.2019=4038+\sqrt{4.2019^2}\)
=> \(\sqrt{4.2019^2}>\sqrt{4.\left(2019^2-1\right)}\)
\(\Rightarrow A>B\Leftrightarrow\sqrt{2018}+\sqrt{2020}>2\sqrt{2019}\)
Bài 1: Ta có: \(\sqrt{2020}-\sqrt{2019}=\frac{1}{\sqrt{2020}+\sqrt{2019}};\)\(\sqrt{2018}-\sqrt{2017}=\frac{1}{\sqrt{2018}+\sqrt{2017}}\)
Dễ thấy \(\sqrt{2020}+\sqrt{2019}>\sqrt{2018}+\sqrt{2017}\)nên \(\frac{1}{\sqrt{2020}+\sqrt{2019}}< \frac{1}{\sqrt{2018}+\sqrt{2017}}\)
Suy ra\(\sqrt{2020}-\sqrt{2019}< \sqrt{2018}-\sqrt{2017}\)
Bài 2: Xét biểu thức \(\sqrt{a^2+a^2\left(a+1\right)^2+\left(a+1\right)^2}=\sqrt{a^2\left(a^2+2a+1+1\right)+\left(a+1\right)^2}=\sqrt{a^4+2a^2\left(a+1\right)+\left(a+1\right)^2}=\sqrt{\left(a^2+a+1\right)^2}=a^2+a+1\)(Vì \(a^2+a+1>0\forall a\inℝ\))
Áp dụng công thức tổng quát trên, ta được: \(\sqrt{2019^2+2019^2.2020^2+2020^2}=2019^2+2019+1\)(là số tự nhiên) (đpcm)