Yes it does!!!Originally Posted by Old Manus
Yes it does!!!
No no, limits are for as x approaches, but never reaches, a number. Limits have definitive answers.
For instance, the limit as x approaches infinity of (1/x) = 0. x gets closer and closer to infinity, but obviously never gets there. However, the limit has a definite answer.
Except 1 - (1/10) - (1/100) - ... isn't 0.It's 0.888... (= 8/9). Proof:
1 - (1/10) - (1/100) - ... = 1 - [ 1/10 + 1/100 + ... ] = 1 - [ 10^(-1) + 10^(-2) + ... ] = 1 - ∑(n=1...∞) 10^(-n) := 1 - S.
Here, the first term is 0.1 and q = 0.1, so you'll get: 1 - S = 1 - [ 0.1 / (1-0.1) ] = 1 - [ 0.1 / 0.9 ] = 1 - [ 1/9 ] = 8/9.
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Err... yeah. xD It's been a while.Except 1 - (1/10) - (1/100) - ... isn't 0.
1 - (1/10) - (1/100) - ... = 1 - [ 1/10 + 1/100 + ... ] = 1 - [ 10^(-1) + 10^(-2) + ... ] = 1 - ∑(n=1...∞) 10^(-n) := 1 - S.
Here, the first term is 0.1 and q = 0.1, so you'll get: 1 - S = 1 - [ 0.1 / (1-0.1) ] = 1 - [ 0.1 / 0.9 ] = 1 - [ 1/9 ] = 8/9.
I guess I was thinking about what I put in my last post: the limit (x -> infinity) (1/x) = 0.
:kaolaugh:
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There's an 8 at the end of the infinite nines. Now that wasn't so hard, now was it?There's so many things wrong with that, I don't know where to begin.
First off, not only does any two distinct real numbers have to have a number between them, any two distinct real numbers have to have an <i>infinite</i> amount of numbers between them. 1 and 2 have an infinite amount of numbers between them. There exists not even ONE real number between .99999... and 1.
Also, .99999...8 isn't a number. That's saying "an infinite number of nines that never ends, but when they do end, tack an 8 on the end." It doesn't work like that. 0.9999... means "a decimal followed by an <i>infinite number</i> of nines.
Technically speaking, 0.9999 etc. does not equal 1. But if you round it off, it is 1 for all mathematical purposes.
There... an explantion so concise yet informative that even I am impressed. Even better... no long, drawn-out mathematical equations were used!
Then the series of nines isn't infinite.
EDIT:
There is no rounding involved. 0.999... literally equals one.Technically speaking, 0.9999 etc. does not equal 1. But if you round it off, it is 1 for all mathematical purposes.
Then think of this. There is a glass of water. 10/10ths of it would make it full. 0.99/10ths of it would make it almost completely full, but 0.01 of it would not be full.
That 0.01 can apply to any number of 0.99s. By this I mean that 0.9999 has 0.0001 empty, etc., so on and so forth.
That changes when you make an infinite series of nines. There is no such thing as an infinite series of zeros with a 1 at the end.Then think of this. There is a glass of water. 10/10ths of it would make it full. 0.99/10ths of it would make it almost completely full, but 0.01 of it would not be full.
That 0.01 can apply to any number of 0.99s. By this I mean that 0.9999 has 0.0001 empty, etc., so on and so forth.
No offense, but clearly you don't understand decimals then. It exists. 0.01, 0.001, etc. They are all real decimals. It represents a very small number.
Anyone who knows math care to back me up on this one?
No, actually, Raistlin is right. If it's recurring, it is not 0.000001, or 0.000000000001, or anything of the like. It is infinite, and therefore there is nowhere to place the last 1. Infinite numbers are a bitch to grasp, but.No offense, but clearly you don't understand decimals then. It exists. 0.01, 0.001, etc. They are all real decimals. It represents a very small number.
Anyone who knows math care to back me up on this one?
So. 0.999... must equal 1 for the following reason:
1 - 0.999... = 0.000... Now because there IS no end to 0.000 recurring, there can BE no 1 to make it up to a total of 1. And if 0.000... + 0.999... = 1, then 0.999... must equal 1. There's no other way for it. If there is a 1 in 0.000... it's not recurring, and therefore the matter is settled in another way (eq the numbers are finite.)
Yes, if it is infinite, you are definetly right. Thanks for pointing that out.No, actually, Raistlin is right. If it's recurring, it is not 0.000001, or 0.000000000001, or anything of the like. It is infinite, and therefore there is nowhere to place the last 1. Infinite numbers are a bitch to grasp, but.No offense, but clearly you don't understand decimals then. It exists. 0.01, 0.001, etc. They are all real decimals. It represents a very small number.
Anyone who knows math care to back me up on this one?
So. 0.999... must equal 1 for the following reason:
1 - 0.999... = 0.000... Now because there IS no end to 0.000 recurring, there can BE no 1 to make it up to a total of 1. And if 0.000... + 0.999... = 1, then 0.999... must equal 1. There's no other way for it. If there is a 1 in 0.000... it's not recurring, and therefore the matter is settled in another way (eq the numbers are finite.)
*bows*
Y'very welcome. Took me long enough to figure it out, might as well help others along
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