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In mathematics , one could easily fall in the trap of thinking that while 0.999... is certainly close to 1, nevertheless the two are not equal. Here's a proof that they actually are.
0.999
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{\displaystyle 0.999\ldots }
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{\displaystyle ={\frac {9}{10}}+{\frac {9}{100}}+{\frac {9}{1000}}+\cdots }
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{\displaystyle =-9+{\frac {9}{1}}+{\frac {9}{10}}+{\frac {9}{100}}+{\frac {9}{1000}}+\cdots }
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{\displaystyle =-9+9\times \sum _{i=0}^{\infty }\left({\frac {1}{10}}\right)^{i}}
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{\displaystyle =-9+9\times {\frac {1}{1-{\frac {1}{10}}}}}
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{\displaystyle =1.\,}
Explanation
The key step to understand here is that
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{\displaystyle \sum _{i=0}^{\infty }\left({\frac {1}{10}}\right)^{i}={\frac {1}{1-{\frac {1}{10}}}}.}
For further information, see geometric series and convergence .
External proofs
Template:Mathstub
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