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HallsofIvy
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You mean the sequence 0.9, 0.99, 0.999, ... tends to 1.rajeshmarndi said:
0.999... is, by definition, the limit of that sequence so is equal to 1.
You mean the sequence 0.9, 0.99, 0.999, ... tends to 1.rajeshmarndi said:Is .999... tends to 1(as it is always less than 1) or equal to 1.
HallsofIvy said:You mean the sequence 0.9, 0.99, 0.999, ... tends to 1.
0.999... is, by definition, the limit of that sequence so is equal to 1.
Have you ever seen the proof of the geometric series formula ?Tom_K said:Yes, I accept that it is true, (by definition) I just don’t accept that it is proven by the method of truncating the repetend.
This is a little better, but it still won’t stand up as a rigorous proof:
The sum of a geometric series is equal to: a(1-r^n)/(1-r)
Where a is the first term (0.9 in this case), r is the common ratio (0.1)
if r is less than one, as n goes to infinity the sum becomes just a/(1-r)
In this case, Sum = 0.9/(1-0.1) =1, therefore 0.999… = 1
The above proof IS in fact a proof using the geometric series (with a minor modification).rajeshmarndi said:I just show how .999... = 1
Let x = .999...
10x = 9.999...
10x - x = 9.999... - .999...
9x = 9
x=1