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In ], one could easily fall in the trap of thinking that 0.999... is certainly close to 1 |
In ], 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. | ||
== Proof == | == Proof == |
Revision as of 12:36, 12 May 2005
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.
Proof
Explanation
The key step to understanding this proof is to recognize that the following infinite geometric series is convergent:
Alternative proofs
A less mathematical proof goes as follows. Let x equal 0.999... Then,
- 10x−x = 9.999... − 0.999...
and so
- 9x = 9,
which implies that x = 1.
The following proof relies on a property of real numbers. Assume that 0.999... and 1 are in fact distinct real numbers. Then, there must exist infinitely many real numbers in the interval (0.999..., 1). No such numbers exist; therefore, our original assumption is false: 0.999... and 1 are not distinct, and so they are equal.