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a) 219 220 + 1 220 = 215 216 + 1 216 = 1
M à 1 220 < 1 216 n ê n 219 220 > 215 216
b) − 1999 2000 + − 1 2001 = − 2000 2001 + − 1 2001 = − 1
M à 1 220 < 1 216 n ê n 219 220 > 215 216
Ta có:
\(\frac{19992000}{20002000}=\frac{19991999+1}{20002000}=\frac{19991999}{20002000}+\frac{1}{20002000}\)
\(=\frac{1999}{2000}+\frac{1}{20002000}\)
Vì \(\frac{1999}{2000}< \frac{1999}{2000}+\frac{1}{20002000}\Rightarrow\frac{1999}{2000}< \frac{19992002}{20002000}\)
Ta có : \(\frac{19992000}{20002000}\)\(=\)\(\frac{19991999+1}{20002000}\)\(=\)\(\frac{19991999}{20002000}+\frac{1}{20002000}\)
\(=\frac{1999}{2000}+\frac{1}{20002000}\)
Vì \(\frac{1999}{2000}< \frac{1999}{2000}+\frac{1}{20002000}=\frac{1999}{2000}< \frac{19992002}{20002000}\)
2)Ta có: \(2^{332}< 2^{333}=\left(2^3\right)^{111}=8^{111}\)
\(3^{223}>3^{222}=\left(3^2\right)^{111}=9^{111}\)
Vì \(8^{111}< 9^{111}\) mà \(2^{332}< 8^{111},3^{223}>9^{111}\) nên suy ra \(2^{332}< 3^{223}\)
Vậy \(2^{332}< 3^{223}\)
1) \(A=\dfrac{10^{2013}+1}{10^{2014}+1}\Rightarrow10A=\dfrac{10^{2014}+10}{10^{2014}+1}=\dfrac{10^{2014}+1}{10^{2014}+1}+\dfrac{9}{10^{2014}+1}=1+\dfrac{9}{10^{2014}+1}\)
\(B=\dfrac{10^{2014}+1}{10^{2015}+1}\Rightarrow10B=\dfrac{10^{2015}+10}{10^{2015}+1}=\dfrac{10^{2015}+1}{10^{2015}+1}+\dfrac{9}{10^{2015}+1}=1+\dfrac{9}{10^{2015}+1}\)Vì: \(10^{2014}+1< 10^{2015}+1\Rightarrow\dfrac{9}{10^{2014}+1}>\dfrac{9}{10^{2015}+1}\Rightarrow1+\dfrac{9}{10^{2014}+1}>1+\dfrac{9}{10^{2015}+1}\)
Nên suy ra \(10A>10B\Rightarrow A>B\)
Lời giải:
a) Xét hiệu \(\frac{a+n}{b+n}-\frac{a}{b}=\frac{(a+n).b-a(b+n)}{b(b+n)}=\frac{n(b-a)}{b(b+n)}\)
Nếu $b>a$ thì $\frac{a+n}{b+n}-\frac{a}{b}>0\Rightarrow \frac{a+n}{b+n}>\frac{a}{b}$
Nếu $b<a$ thì $\frac{a+n}{b+n}-\frac{a}{b}<0\Rightarrow \frac{a+n}{b+n}<\frac{a}{b}$
Nếu $b=a$ thì $\frac{a+n}{b+n}-\frac{a}{b}=0\Rightarrow \frac{a+n}{b+n}=\frac{a}{b}$
b) Rõ ràng $10^{11}-1< 10^{12}-1$.
Đặt $10^{11}-1=a; 10^{12}-1=b; 11=n$ thì: $a< b$; $A=\frac{a}{b}$ và $B=\frac{10^{11}+10}{10^{12}+10}=\frac{a+n}{b+n}$
Áp dụng kết quả phần a:
$b>a\Rightarrow \frac{a+n}{b+n}>\frac{a}{b}$ hay $B>A$
a,\(A=\frac{1}{5}+\frac{1}{5^2}+\frac{1}{5^3}+...+\frac{1}{5^{100}}\)
\(=>5A=1+\frac{1}{5}+\frac{1}{5^2}+...+\frac{1}{5^{99}}\)
\(=>5A-A=1-\frac{1}{5^{100}}=>A=\frac{1-\frac{1}{5^{100}}}{4}\)
b, Ta có \(1-\frac{1}{5^{100}}< 1=>\frac{1-\frac{1}{5^{100}}}{4}< \frac{1}{4}\)hay \(A< \frac{1}{4}\)
có:A=2000^2001+1/2000^2002+1
=)2000A=2000^2002+2000/2000^2002+1=2000^2002+1+1999/2000^2002+1
=1999/2000^2002+1
lại có:B=2000^2000+1/2000^2001+1
=)2000B=2000^2001+2000/2000^2001+1=2000^2001+1+1999/2000^2001+1
=1999/2000^2001+1
vì 1999/2000^2002+1 < 1999/2000^2001+1
=)2000A < 2000B hay A<B