9.999... really is equal to 10

Im an Engineer. I like that one.

close enough.

This blew my mind. Thank you!

Well, so the engineer understood that the trick was about the time... everyone walks or runs traversing half the distance between the start and the end, but nobody cares cause shorter is the segment and equally shorter is the amount of time needed to pass it. traduced in your case, the request doesn't bind the speed to the length the engineer is going to traverse cause there isn't a bond between the time lapse which has to be considered (example: length=2m; the engineer runs the 1st m in 1 sec, then, 1/2 m in 1/2 secs, then 1/4 m in 1/4 secs... so he moves always at the same speed which is 1m/sec), like "achilles and the tortoise".

@@antog9770 You have to pause between each stage, so his average speed gets slower and slower. I'll give you that the length of the pause wasn't defined.

Mathologer I like it

+Mathologer
Keep in mind that once there are a lot of replies (last I checked, it is 500), no more replies can be made.

Never knew :)

Mathologer I frequent some videos that are heavily commented on, and the highest number I've seen was 500 replies. and other comments made by this person (typically the uploader) were open to replies.

+Mathologer why are you hating on disabled buttons?

ruclips.net/video/9wz1xiKfFVw/видео.html
Why this number doesn't exist?

Well... Mathologer got this one wrong. It's not 9.9 recurring to infinity. It's 9.9 recurring only to nine one hundred thousands of a millionth (or thereabouts)
So yeah... he lost. It's not 10.

...because if it was really 9.9 recurring to infinity, the clock would have just rounded it to 10 anyway, just like every calculator rounds it to 10

It might be true that there were a few more extra 9s at the end there which the clock couldn't display because it ran out of digits on its display... however we can reasonably assume that the 9s don't recur to infinity, because 9.9 recurring to infinity is the SAME exact number as 10. So why did the clock bother displaying all those 9s in the first place? Whyyyyyyy didn't it just show 10? It would be same number and it would have therefore rounded it up to 10, if it was indeed that number
Except it wasn't.
I'd imagine the real number was more like 9.9999999999999999999999999123. Lol

Note that this all comes down to the accuracy of the measuring device. How small of a time interval the clock can measure. In practical terms, there's a limit to how accurate a measuring device can be.
Let's say the clock can only measure to that many decimal places. Well then 9.9 recurring to that many decimal places would look EXACTLY THE SAME to the clock as 10 would. There would be NO distinction the clock could make between the two numbers, even if the number doesn't acually recur to infinity. So the clock would still display it as 10, because that's what it looks like to it.
So I'm assuming the clock to be at least one more decimal place accurate than the number of digits it can display, because the event didn't look to it like it took exactly 10 seconds. The measurement device saw a small discrepancy there. That's why it displayed it like that.
The only way mathologer could be correct is if the clock is completely unable to simply display whole numbers like "10" due to the way it interprets its measurement results OR if it just always displays whole numbers in this way by convention OR if it sometimes displays it this way and sometimes the simple way, and we just happened to see an occasion when it displayed it the recurring way. Lol
...but none of these possibilities are very likely, and no electronic device I've come across works like that. So we can safely assume mathologer to be incorrect about this 😁😂

I was kind of hoping Mathologer would bring this up in the video. Once a person understands how numeric bases work, I think it becomes much easier for them to accept the fact that every number with a terminating representation in a given base also has a non-terminating representation in that base. The "math in slow motion" segment hints at this, but I think it really helps to dig into the sort of idea you mentioned with rational numbers.
I had a similar "don't want to believe" moment when I first started to work with continuous probability distributions: I was really put off by the idea that the probability of the random variable to take any single, specific value is 0. I thought, "How could it be 0? If that's true, then you could never get any result at all!" I wanted it to somehow be expressed as different from 0, but at the same time I had to admit that a different expression wouldn't actually have different properties. As someone who isn't deeply involved in math, it's unsettling to come across the infinite and infinitesimals when you aren't really expecting them.
Another way to look at both situations, perhaps, is simply: In what contexts are the two representations meaningfully different? The answer is that the representation itself is the only such context, but that's a very important thing for most people, which I think is what makes it so difficult to let go. After all, if our calculators and computers started printing out infinite sequences instead of terminating ones whenever they could, I think we'd all be a bit frustrated with them.

It's not trivial to be intelligent. I've known a lot of fellow students in many advanced classes who simply don't "get" things which are trivially easy to understand by the brightest students. However, each one has his limits, and there are certain sticking points for everyone. We'd like to think that the brightest mathematician can balance his checkbook and win the lottery and solve the national debt, etc. But they usually have their limits. For 0.999... and other similar concepts, a bright student gets to run the shortcut inside his brain, and then he can explain it 2 or 3 ways to his peers, hoping it will click for them. The genius gets to see around a puzzle like this and shortcut around the sticky points.
When I took certain standardized tests like the SAT, I noticed quite soon that the test writers were fishing for this brilliance in a handful of questions. They separated the men from the boys, as it were. The questions required 3D construction of geometric shapes, manipulating them under pressure, and needed a lot of hard thinking about symmetry and visualizing novel constructions. Your 110, 120 IQ folks just can't typically do this, and if they get the right answer on one of these, the test results will "know" that it was a guess based on the rest of their test answers. Such a person would need to also guess right on other questions for the test to score them higher. And if someone aced all the hard questions but flunked the easy ones, the score would be low or disallowed due to statistical uncertainty to stamp out perceived (or actual) fraud.

we use the decimal system because we have 10 fingers right?

@@AllAmericanGuyExpert I don't what relevance your comment has with my topic, but just classify as genius and non-genius is never good enough. If that were the case, only prodigies would rule the world. But in reality a lot of prodigies just phase out. But it's not like genetics is not a factor at all, it is. But it's not the only factor as well.
If your logic was only geniuses will understand geniuses, and others will never understand them, then I'm not in your favor. People mostly don't understand topics because they didn't have a better teacher. If you want to teach someone, you have to try to break it down in his language, how he interprets things. The problem is most teachers can't see/articulate the same thing in different perspective. That's where students eager to learn struggle. I can garantee you, if we had better teachers, we will have better students. If genius was the only factor, you would never need a good teacher. So I say, yes, try to make it click for others and don't sigh because they don't click

@@midas01tw Not necessarily. It's more like historically algebra was invented in eastern part of the world where they used 10 digits. Back then, In different parts of the world different number of digits were used. Some used 12 digits, some 6, some 20 etc. And before that, roman numbers were used which is... you know... gets messy. It just happens to be that most of the modern algebraic mathematics comes from the eastern part of the world and they used 10 digits.
But, then again, may be they used 10 digits because it was easier to keep track of using fingers, who knows? Tom Scott has a video on this topic. You could check it out

:)

X=10!
X=1*2*3*4*5*6*7*8*9*10
😂😅

@@Mathologer 3 years later and still answering comments? now that's some dedication.

Ancients Romans new M = 1000.

@Gary H, because nothing can be more equal than infinitely close values.

9.999 = 10 - 0.001 < 9.999... = 10 though

Tell him he doesn't know what he's talking about. Show him this video of a 100% CERTIFIED PROFESSOR OF COMPLEX DIFFERENTIALS AND MATHEMATICS (check him out on wikipedia to make sure its not some random old youtuber) telling you that 10 = 9.999... and 1 = 0.9999.... And then show them that math is this wonderful magic they never saw. Watch them weep in your power to understanding this that they so lack. Those fools.
In all seriousness though this is totally real. There's paper's about it.

is it the Mathematician27?

I heard that TheMathematician27 once divided a number by 0

I heard that TheMathematician27 once solved a calculus equation in a single line.

almost got me :P

@@EmperorZelos me too :)

Agree, the decimals nines musti infinity of number

9.(9) as parenthesis mean periodic decimal, "infinite repetition" of that digit

OmnissiahZelos i have argued about this in the yt comments before

i hope you turned out allright. '-)

you are comparing two different worlds, thats not working :P
but if you thought about such stuff in so young ages - respect fo' dat! yo :D

@@jackcarpenters3759 underrated

wait, you didnt learn that in school

I always get it like this: What about ⅓? It can be written as 0.3333(3) multiply by 3, and get 0.9999(9). Wait, you multiplied a third by three... Oh, that's a one...

Not necessarily.

I remember in the original TV show airing the clock actually did go off the screen but it was taken down and changed when they later found out that 9.99 repeating was equal to 10.

plot twist
the number was 9.9999999999999999999999995278

He is trying to make it interesting, and takes a tv show as an example.

Eleanor Drapeaux 😂

Tycho Photiou also non-terminating

He's German he prefers saying "nein nein nein nein"

Cinema Rat lol

@@csicee wow ! You played with my brain for a while

Exactly, i wish someone could explain this to all the people in the comment section who don't understand the recurring digit rule

AcoAegis No, 10 = 9.999... EVERY mathematician, EVERY physicist, EVERYBODY who knows anything about numbers at a deeper level agrees on this, there is simply no discussion. There is a precise mathematical definition of what exactly 9.999... means (the sum of an infinite geometric series) and
any meaningful discussion of 9.9999... needs to be conducted in terms of this definition. Just because 9.9999... superficially looks like 9.9999 suggests that both may behave similarly in some respects but it does not prove that they have to behave the same in every respect. You simply cannot argue that something has to be the case for 9.9999... just because it is true for 9.9999. If you don't want to take my word for it, please look it up in ANY real analysis book ever written. Anyway, here is another argument that sometimes works for people who have trouble accepting that 10 = 9.999...:
10-9= 1
10-9.9=.1
10-9.99=.01 etc.
This implies that whatever number 10-9.999... is, it has to be smaller than any positive number, that is, it has to be 0. In turn since this difference is not negative this means that 10=9.999... In other words, if 10 was not 9.999... there would be a number that is smaller than every positive number but larger than 0. At least in the standard model of the real numbers such a number does not exist. Also, if 10 was not equal to 9.999..., all mathematicians would be idiots.

There are no infinitesimal numbers in the Real number system, this is known as the Archimedes Principle.
Since there are no infinitesimal numbers between 9.99999... and 10, the difference between them is zero. Hence they really are equal.

bpdav1 That is correct. I am trying avoid mathematical terminology that only experts will be familiar to keep things as accessible as possible both in the video and in my comments. As I said in the video some members of my audience are only little kids :)

Yeah fair enough, maybe a better way to put it is if there was a number between 9.9999... and 10, it would be infinitely small.
Since no infinitely small numbers exist, there are no numbers between 9.9999.... And 10, hence they are equal.

Mathologer It's easier to write 0.999.... as a fraction - 0.999...=9/9=1

Mathologer I buy this stuff, but I just wonder, who taught a calculator how to use infinity?

***** I did :)

Mathologer I think you might enjoy checking out Norman J. Wildberger's channel here on RUclips. From what I understand, he's a mathematician who argues that real analysis fails to properly lay the foundations of the real numbers. I don't necessarily agree with everything he claims (based on the little bit of real analysis I know), but he raises some interesting points. Also, I'm not sure what he would say about the 9.999... issue. Perhaps even the most "heretical" mathematicians out there are in agreement on that one.
Oh, and p.s. I love your videos :)

Mathologer Perhaps there is a reason why Mathematicians are not believed (not all the time anyway). Mathematics isn't really a science even though the discipline is inseparable from all scientific fields. Mathematics is an abstract construction of the human mind. Even with something as rudimentary as Numbers, there are at least 3 philosophical viewpoints with respect to the existence of numbers (Nominalism, Fictionalism and Platonism). Mathematicians are the Philosophical Priests selectively exploited by Scientists and Engineers....

globe0698J Mathematics would still be in the dark ages without all those (sane) heretics who dared to do the "imaginary", the "complex", the "infinite"... I've hear of Norman Wildberger but don't know any details. So, you really think his stuff is worth a look?

It si a very cute and accurate argument.

@@EmperorZelos Thank you

Nice use of proof by contradiction.

@@hanztimbreza6217 Thanx

nice one

+jqbtube
What you mean is that there are no infinitessimal real numbers. There are of course number systems, such as the surreal numbers, which have infinitessimal elements, so that if e is infinitessimal, then e0. We can then say that 9.999...=10-e < 10. Of course, we lose a lot of the applicability of the real numbers when we extend them to the surreals, but it's still a valid set, so you shouldn't be so cut and dry about there being no infinitessimals.

+Alexander Jones Yes, there is the possibility to allow an infinitesimal number ε which is smaller than every number. But 9.999… would still be equal to 10 and not 10-ε.

conepictures
Suppose there exists a number e such that for any positive real number x, 0 < e < x. Now consider the sequence a_0=9, a_1=9.9, a_2=9.99, etc. Any sequence which converges does so to a limit L such that L

+Alexander Jones "Suppose there exists a number e [...]"
Well this ε isn't really a number. It is more like a concept which tries to incorporate the concept of infinitesimal calculus into the field (ℝ,+,*) of real numbers, which are then called "surreal numbers" - which is kind of high mathematics. Even most mathematicians don't bother to do that, since calculating with real numbers and than looking at the limit yields the same practical results and is less error-prone. But have a look at the wikipedia article,
it is a fascinating concept.
But lets look at your proof anyway:
Your sequence has now the nice form
a_n = Σ_k=0,...,n 9*10^-k
With each a_n < 10. This is of course correct.
Unfortunately, while in ℝ there always is a least upper bound (often that is how they are defined) this is not the case in the surreal numbers. That is kind of the point of those and how they are constructed.
For example we have for each a_n: 10 > 10-ε > 10-2ε > 10-3ε > 10-ε² > 10-2ε² > 10-3ε²-2ε > ... > a_n
So you won't find an upper pound anymore. I'm not even sure you can take a limit in the surreal numbers at all.

conepictures Just take S to be any upper bound, and we still have that a_n S then there's a contridiction in the definition of a limit since there is a real number between L and S and so there is a neighborhood of L which contains no points in a_n, so it's not a limit point.

lmfao

lmfao

lmfao

what

Lmfao

I promise you that some are far worse than that.

flatearth sounds easy and "normal" against all this stuff :D

The claim is true, the proof is not. mCoding has a good video on it.

@@unknown3158 as lord_ne said on that video "The proofs are all correct, the justifications are simply left as an excercise to the reader"

That's not true. It's called "finitism" and it's a legitimate form of mathematics that excludes any form of infinity considered to be incoherent, non mathematical objects. Any mathematician is a finitist if you ask them if "infinity" is a number. Flat erthers are just idiots.

No. The word "of" implies multiplication. For example, 2/3 of 5 is (2/3)*(5) = 10/3

@@williamwilliam4944 Yes. So, you multiply by a millionth; which is the same, as dividing by million. So, William Li is correct.

Yes, it would. In fact, Mathologer pointed this out, toward the beginning.

@@PC_Simo no, he isn't correct. He did not divide by a million. He divided by a _millionth_ .

@@williamwilliam4944 Oh, right! I must have misread his comment. Yay, for sleep deprivation! 😅

Yeah well they are equal so this isnt such a tough realisation

I’m totally disagree: 10 is not equal to 9.9999...and it’s so because 10 is rational number (even integer) meanwhile 9.999999... is irrational number! Really, you can not express 9.9999... by fraction of two integers.

@@stanbondarev9256 except 9.99999... IS a rational number. all irrational numbers when expressed as decimals neither terminate nor repeat. and 9.999999... clearly has a repeating "9". As for what it is as a ratio of two integers: the general rule of expressing a repeating decimal as a ratio involves taking the repeating digits, and dividing them by the same number of "9"s. so for example, 0.555555... would be 5/9. 0.282828.... would be 28/99. 0.147147147147... would be 147/999. and so on. if you were to take that same logic with 0.999999... you'd get 9/9 which is 1 (and thus 9.99999... would be 9 + 9/9 which is 10). if you can't accept that, you either need to show a different ratio for all these repeating decimals, or you need to prove ALL repeating decimals aren't rational. good luck with either

@@stanbondarev9256 9.999...=x
99.999...=10x
9x=90
x=10

morfowt not all infinite decimals are irrational but with repeating 9. Look: there isn’t “infinite decimals” in definition of rational numbers, but only a «fraction of two integers». And you can’t express 9.999(9) as a such fraction, you need to put irrational number in numerator or denominator. And I try to describe that number in the next comments.

There is a number in between which is 0.0000000......1

@@user-vu4hr4fk3t you can not put something after Infinity

​@@katokianimation I honestly don't understand why this idea of ​​infinity, nobody has ever added to infinity, you always add up to a certain number of terms.
A sum is always a finity numbers of terms.
And in this case the difference between X and 10 will be 1/10 ^ n
n being how far you went with your decimal terms.
for me "..." is a lie, cause no one has ever done it, in fact it is more serious, no one can ever do that.

@@katokianimation
a sum is by definition something that must have an output, therefore a finite process. Therefore there's no infinity sum of terms.
Seems like I'm joking but I honestly think this way at this point and can't see otherwise. Maybe there's an explanation why to think of these sums as inifinity and not only going till a very big number and stop somewhere.

@@luiz_46487 have you heard of infinite sums?

There is no close enough about it. 9.999 . . . = 10 precisely. Scientists know that for a fact. Unlike you they learn math at university.

@@Chris_5318 Dude, it was a joke.

@@mstech-gamingandmore1827 Dude, It was a bad bad joke.

@@Chris_5318 doesn't mean you have to act like a smartass about it, let the dude enjoy have his fun youtube comment sections

@@gdtrilogy9060 You speak from ignorance.

OTOH 0.999... - 0.9 = 0.0999...
0.999... - 0.99 = 0.00999...
0.999... - 0.999 = 0.000999...
So maybe they should also conclude that 0.999... - 0.999... = 0.000...999... or something equally ridiculous. Some people actually do "think" that's OK (Anon Wibble knows who I mean).

@@Chris_5318 Hey you scumbag still 0.999... is not 1. And your IQ is still in the two digit zone. Cheers!

@@Deibler666 You mean my IQ is two digits more than yours.

@@Chris_5318 That has no sense. You've deteriorated.

@Tycho that "1" that never appears, that's exactly why 0.999... cannot be equal to 1.

RobarthVideo I don't know why you don't have 999.999... thumbs up.

NoriMori Thanks of saying so. I am sure you'll be able to appreciate this:
www.qedcat.com/total_drama_number.jpg

RobarthVideo 34.9999th like

I'll just put this here.
If you divide two numbers you will get the ratio between those numbers, like 3/2=1.5 states that 3 is 1.5x the size of 2 or 50% bigger.
1.0... / 1.0... = 1.0... Same
0.9... / 0.9... = 1.0... Same
1.0... / 0.9... = 0.9... Opps
Zero defines the center of the number line and is not positive or negative. Positive(+) numbers are larger then zero. Negative(-) numbers are smaller then zero. Lets Subtract 1.0... And 0.9... To see if they stay at zero.
1.0...-0.9...= 0.0... Maybe
0.9...-1.0...= -0.0... Opps
Using the long form, divide 1 into 6 parts, this is the same as dividing 1 into 2 parts and then into 3 parts. You should get 0.16666... Now take that number and start multiplying by 6 and you will see that wherever you start, the first number produced is 6 followed by 9s up to the decimal point. This shows the information that is lost when converting back because we are taught that the 6 is not there because the 9s stretch to infinity. But a computer will keep up with a 7 in 1/6=0.166...7 to keep track of this lose.
1/6 = (1/2/3) = 0.1666...
0.1666... * 6 = 0.999...6
And finally, I can't give you a number between 1.0... And 0.9... but the equation is very simple
((1.0... + 0.9...) / 2.0...)
And when someone says there is no number between them, well first off I would hope our infinite number system wasn't so finite.

And even if there was not, that does not make them the same number, if you take just the whole numbers 6 and 7, there is no whole number between them but that doesn't make them the same.
Im sure I could come up with more. These are just a few (I will say) questionable situations that show 1.000... And 0.999... As separate identities that I have come up with while debating this with others. I don't call them proofs because thats a bold word and new information can always come available to modify my understanding of how (math, science, physics, ext...) works. I do have a problem with mathematicians using the word proof when they shove this in your face...
M = 0.999...
M10 = 1.999... = M*10
M9 = M10-M = 9
M9/9 = M = 1
Nice trick
M=0.999...
M3=M+3=3.999...
MX=M3-M=3
What happened to all my nines? Oh yeah smh.
You say your a professor at a university, ok then I would like you to attempt to convince me that 0.999... = 1.000... exactly. Not because EVERY mathematician in the world says so. Thats only going to work on someone how can't think for themselves. Just because we are not "mathematicians" doesn't mean we are just going to blindly follow everyone without testing it for ourselves. if you are really a professor than this should be an easy task. I asked you for "proofs" and besides the one in the video, all I have read is "every mathematician believes it" last I checked, that doesn't prove anything. Thanks for your time and I hope to get an intelligent reply from you soon.

Jason Walker Jason, I am afraid you are very confused, you clearly do not know what you are talking about and you are unable to learn from anything I or others have said to you. Very sad really because you are so passionate about all this very important mathematics which is such a rare thing. I think it would be a waste of my time to engage with you any further, especially since I can make a real difference for so many other people in this comment section.

Mathologer What you and the others have said? Other then defend your position that they are equal, no one has put forth any actual proof. I have looked and besides taking advantage of subtracting to erase the recurrences, I can find any real evidence that they are the same. You want to define them as the same number then fine, but don't argue when someone calls you out because you insist they are exactly equal.

Jason Walker This is a video aimed at a general audience including little kids. There is really no point whatsoever in discussing the subtleties of the theory of real numbers in this comments section. Also, I don't feel any need to prove anything to you much beyond the scope of this video, as anything more detailed has already been said very eloquently in zillions of maths books. If you are looking for proofs look there. They convince me and all my colleagues. Maybe they'd convince you, too, if you just approached the whole thing with an open mind. Anyway, over and out from me, second semester is about to start here in Australia and as usual a lot of students need to be convinced that 1 really is equal to 0.999...

thats not named the strong mathematical proof
for most of us its easy to understand why pi is irrational and any other number when divided-multiplied or whatever-does something with pi is irrational too, but we need a strong proof that will, perhaps, show some universe secrets to us

+Алексей Перкутов What? Universe secrets? You clearly know what you are talking about.

Алексей Перкутов Either you didn't understand my post, or I am not understanding your post, but what you said has nothing to do with what I said.

With all due respect, but that is BS as a proof. You are assuming the answer.
I agree there are no numbers between 10 an 9.999..., but that is not a proof that they are the same. You made the job a lot more difficult by now having to prove that numbers cannot be adjacent. I know this is the case, but me knowing this is not a proof..

isn't 0.000...1 in between it. It may extremely small but it's not 0

I'm sure that psychologists will be able to explain it. I suspect that it might have something to do with half the population having less than the average IQ.

@@Chris_5318 obtuse people who suffer from Cognitive Dissonance and the Dunning Kruger effect

I thought this had a factorial for a few seconds

9 factorial, what? XD

@@EpicMathTime same but also... wait what are you doing here? Such a specific video, I'm really only here for the comments and I would guess you are too?

or 99,99...

@@benjaminojeda8094 9 factorial = 9!
9! = 9 x 8 x 7 x 6 x 5 x 4 x 3 x 2 x 1 = 362 880

That isn't a fact and it's irrelevant.
----
EDIT: People, I am and was aware that the original post might have been a joke. Except for this first comment, all of my subsequent responses have been dealing with trolling buffoons like "The Hermit", not the original post. So STFU instead of telling me it was a joke.
OTOH, I know for a fact that many people use arguments similar to the OP as a serious attempt at "proving" that 0.333 . . . is not 1/3.

Kay

@@Chris_5318 It might not qualify as 'fact' but it is highly relevant.

@@TheSimonScowl It is totally irrelevant. The topic is pure math, not domestic science or home economics.
In what way do you think that there is any relevance?

@@Chris_5318 Because math is math. A bit of cake left behind on a knife is a fraction (however small) of the whole cake. Do you not understand that?

@xxGodx thanks for being such a buzzkill lol

To be more accurate, 1 and 0,999... represent the same number

well a comma is not very accurate

you better check your work again 1/3 is not 0.3

Yes, that's the arithmetic proof for 0.999... = 1.
You can prove it with every branch of math.

Amir Abudubai But...isn't that obvious?

Amir Abudubai which is actually untrue imo
ik, mathematical limits work by just haveing that statement true, but to me those 2 infinities are different, just like infinite is smaller than 3 to the power of infinite (that's mathematically accepted)
sorry for my bad english, it is not my first language

Amir Abudubai the problem with that statement is that infinity really isn't a number, it's a term to explain something that goes forever. so really you can't take away from it at all

You are mixing two different objects. 3^inf>inf is a statement you would find in the theory of cardinal numbers, where there are many infinities (inf-1=inf there too). In the extended real line, or in the equivalent statements in the reals, inf-1=inf, and also 3^inf=inf, in that case there are only two infinities +inf and - inf. Context (definitions) are central in mathematics. Discussing whether such context is adequate is another thing. In the real numbers 0.999...=1, period, and most people would not take the time to understand why the real numbers are defined in that way. In other systems the equality does not hold. For instance, in the 10-adic numbers, 0.9999....=-1

Sir, If N=infinite, N!=N.

Funnily enough, logically the very expression "infinitely close" also gives it away... after all, the only you be infinitely close to something, is to be the same thing.😂

Actually you were much more right than Mathologer was in his video. I made my own contribution about this now. Please have a look at it. Maybe I can "convince you back"?

The immediate answer to your question it the bit where he does it with the numbers written as fractions, as the term of the sums perfectly correspond to each other. However, there are one more answer: it's through the definition of the infinite sum through limits. It's that part where he promises that it works. I'm not sure I can expand it further on a RUclips comment. Basically, he (legally) approaches the infinite process by a finite one where all steps are legal. It's the whole point (and the whole beauty) of Analysis.

and 1/2 and 3/6 cannot be equal, one has 1 and 2, the other has 3 and 6, ergo different.

My comment was purely sarcasm. I've looked through the comments for this video and I do believe that 9.999... equals 10

Aleph Null Belief is required for religion, not math.

Chris Seib If you believe a proposition that just means that you think it is true. This can apply to any proposition, including mathematical ones. You probably say this because you think belief implies faith, which it doesn’t.

Well, if you ever want to be a smart ass, you could say that A does not equal A because the first A is on the left and the second A is on the right.

Hepi geff

Klaus Dieter finally someone who wrote it xD

No, let’s not. I used to have a good friend from Germany, totally butch, totally straight, and he used to giggle like this too.

If you say pls because it is shorter than please, I will say no because it is shorter than yes.

I was giggling like that after I read and understood the thumbnail

KREATOR AT WORK someone gets it

Easy. Another .9

There are something between 9 and 10 in the natural nambers ?

1-(1 - 0.99999)÷ 2

@@richardsilva9488 Not in the naturals. 9.999... is not natural. Between 6.5 and 6.7 there might be 6.6, but between 9.999... and 10 there's not

Ну на самом деле 0.(9) и 1.3 это различные объекты. Под 0.(9) автор видео понимает бесконечный ряд, а 1.3 это число записанное в десятичной системе счисления. И если все строго выводить, делать соответствие число - десятичная запись, то у 10 будет только одна запись 10. Для ряда 9.(9) не будет в соответствие числа.

This is an excellent analysis. Thanks for sharing.

A lot of people know roman numerals and are therefore 'aware' that a number can be written in different ways.

That's a long way away from realizing that asking "what does .999... equal?" without having first decided on a definition for infinite decimals is an ill-posed question. It's not a matter of "a number can be written in different ways," it's a matter of "this collection of symbols doesn't mean anything by itself; we have to agree on how to interpret it before we can ask questions about it."

That is indeed a very long way but I still think that it can open the mind a bit.

EXACTLY!
The problem is not the students questioning 0.9... being equal to 1.0..., the problem is rather not questioning what "..." is supposed to mean at all.
Every shorthand explanation you find in the comments is not only wrong, but utterly meaningless.
Once one establishes what infinite decimals are actually supposed to mean, no explanation is necessary anymore and 0.9... = 1.0... becomes as natural as 1/2 = 2/4. The problem is that "convergence" or "equivalence classes" don't enter the discussion.
I'm with the students rejecting the lazy off-hand explanations. Those are less than wrong.

Wrong

@@osdever care to reason?

@@apratimtewari4288 Yea

10TurtleStack Glad you do and thank you very much for saying so.

Tiikuri Another pretty neat explanation

Tiikuri this is one of the few area where the imperial system rules supreme, ten divided by three, is three and one third

***** Fractions are in the metric system too.

Tiikuri well i feel like an idiot now

***** It seems i may have been wrong. Fractions should not be used with metric measurements. Fractions themselves don't really have anything to do with imperial or metric systems anyway, now that i think about it.

The convergence stuff was omitted because the video was for kids. Besides, it is pretty "intuitive" that even infinite decimals represent a number.

If you are referring to Chris Seib, he sounds like a professor that got fed up with explaining the same thing over and over again to people that simply refuse any explanation with no counterargument given. His explanations are actually really good and those who bothered with them understood them.

I'd say that might be the case if he were arguing about science or philosophy or something else where people can have different interpretations, but in maths, if you have a set of axioms, what is true is true and what is false is false, regardless of what you want it to be.

There are disbelievers even in 1+1=2.

Uh I love you joke xD

no one asked

@@XenophonSoulis Well, in fact, 1+1 could be different from 2: it only depends where they are defined. For exemple, in Z/2:{0,1} 1+1=0. :)

One person out of 10 trillion is not the same as 99.9999...% because the number stops somewhere. 99.9999...% goes on indefinitely, and that's what makes it equal to 100%

Also, another way to rewrite the number .99999 repeating is 1-(1/x) as x approaches ∞

Then Why isn't 10/9 1.11111111111 oh wait...

As Mathologer said in the video, we'd first need to prove that 1/9 IS 0.111...

@@FFVison exactly

@@yanndebacker7163 You meet infinity way more often than you think :) Look up the dichotomy paradox, or even the fletcher's paradox (these assume you can move infinitesimally small distances and be in a difference place, which in physics you literally can't. It's called a planck distance, but the concept is still valid). You'll find that you're paradoxically both not moving and moving at every infinitesimally small unit of time :D

:)

0 divided by 0 can be whatever you want because 0 divided by 0 is undefined

That's what they said. 27.

There's also some infinity in it, because it depends on which potato you are eating - there are hundreds of types of potatoes. And some potatoes aren't even suitable for consumption.

thanks now ill get revenge on my teacher

read up on real analysis or www.google.com/url?sa=t&rct=j&q=&esrc=s&source=web&cd=&ved=2ahUKEwiqtuLV-q3rAhVUEncKHdUSAOsQFjAAegQIBRAB&url=https%3A%2F%2Fwww.math.wustl.edu%2F~kumar%2Fcourses%2F310-2009%2Fpeano.pdf&usg=AOvVaw1z9yMXEIPhFxo7M8RZMIl3

Mathologer did at about 2 mins in. He went to a hypothetical case (he said, "what if"). He was considering the fact that a clock showing e.g. 0.999 would correspond to a time between 0.999000... and 0.999999..., inclusive. He was focusing on the latter case.

If you ask a mathematician what pi is, they'll say it's 3.14159... and so on. If you ask an engineer, they'll say it's 3, but round to 10 just to be sure.

+Scratch A bit exaggerated, but we sometimes do that ;)

+Scratch Where I study we say Mathematicians use pi as 3.14159, Physicists use as a letter and engineers use as 3. Or 5, because the concrete can handle it. :D

+Scratch As a mathematician, if you ask me what pi is, I'd say it's pi (or C/D for any circle) :-)

+John Gabriel 'Chuckle', what a delightful personality. A degree in engineering makes you an engineer, a degree in physics makes you a physicist etc. That's generally how that works, technically at least, and in some countries, your degree subject would be added to your name, such as Mathematician iSquared 'Giggle, Snort'. As for me, how do you know what I have and haven't done that is of mathematical note? I could have enough Field Medals to sink you to the bottom of the sea. I'm dreaming of course, at least for one of those outcomes 'Chuckle'.

never ≠ after forever.

Mario Joia so is (+)10+(+)9.9999...=19.9999... or 20?

If the Romans had invented algebra, what would have been their go-to variable? I'm guessing it wouldn't be x.

.00001?

@@ExploringCabinsandMines I hope that was a joke.
-Randy, there is no after forever. 9.(9) can't have anything at the end because there is no end.-
Edit: oops, my bad, I misunderstood what you meant. Sorry.
ArcticXII 20 = 19.(9)

Sqrt(100) is not 10 it's +/- 10
Also your whole thing is irrelevant to the result

@@guythat779 sqrt(100) is a covenant, not a simple operation, and this covenant says that with the notation "sqrt" you have to refere to a positive number...

@@guythat779 No, sqrt(100) is 10. sqrt(x), by definition, means the positive number that when multiplied by itself results in x. The same goes for x^(1/2). What your thinking of is x^2 = 100, where solving for x results in x = +/-10

Someone may have pointed this out already -- but speaking more generally: if you try to represent numbers in _any_ decimal-like system with place values before and after the decimal point that are all integer powers of some base (such as, say, 10), and then you try to represent some rational number a/b in this system but b has some prime factors that are _not_ prime factors of your base, then you will have no choice but to write it as a repeating decimal. But then if you allow this you might as well just allow _all_ repeating decimals, including the numbers that don't have to be written this way. And at that point you might as well just consider _all_ decimals to have an infinite number of digits (some just happen to end in repeating zeros).
So then every decimal will have a non-repeating part (maybe infinite, maybe finite) which if it's finite will be followed by a repeating part. So you would have things like 8.3251251251... = 8.3 + 0.0251251251... = 8 + 3/10 + 2.51/99.9, but also things like 6.1 = 6.1000... = 6 + 1/10 + 0/90, which could also be written 6.0999... = 6 + 0/10 + 9/90.
So then all 6.1000... = 6.0999... really means is that 6 + 1/10 + 0/90 = 6 + 0/10 + 9/90. That fact that a number can sometimes be written as a sum of fractions in two different ways should come as a surprise to no one.

@@vibaj16 I think you mean: ”by default”.

They'd be stuffed if they had to divide by 7.

Mathologer I totally agree with everything in the video, but above, you said that 90/9 = 9.999... and 10, but that is not true. 90/9 only equals 10.

Josiah Swanson But if you agree with everything in the video then you agree with the fact that 10 = 9.999... . But then 9.999...=10 = 90/9. What are you worried about here? Basically you can take any of those one-digit repeating decimals and use the method in the video to figure out what fraction it corresponds to:
Set M=d.ddd... where d is your digit of choice.
Multiply by 10 to get 10 M = dd.ddd.... Subtract to get 9M= d0. And therefore M=d0/9. Summarize
d.ddd...=d0/9 and so
0.000...=0/9=0 (just for fun)
1.111... =10/9,
2.222...= 20/9,
3.333... = 30/9
etc.
8.888...=80/9
9.999...=90/9

Mathologer You got me! Good job

Mathologer Sir, you ask (somewhat incredulously) that you cannot understand why people can still agree with your mathematical processes and still append all that with "But I still can't see how you can overlook that 10 is not the same as 9.99999999..., I mean "10" is 2 digits, the 1 is in the TENS place and 0 is in the ONES place, that other thing is 9 in the ONES place and followed by all the Nines that could ever be written in the universe" The thought then follows (almost invariably) that one should "listen to Sesame Street! ♫One of these things is not like the other♫ See, the digits NEVER make the "crest" up to the tenS level."
[whew]
The disparity comes from most folks being so grounded in their analog world that the digital just doesn't "jive" with them.
Actually I had the same conundrum when I first took Calculus.
It was a matter of (desperately) hanging on to the thread of what I truly comprehended - Geometry, and the sacrosanct definition of "Asymptotic."
Here's the short version:
Professor: OK, we all know that the expression (choose a letter)=n² will give us a graph which is asymptotic to the (choose a letter) axis. Which means what?
Me: (envision Arnold Horshack's "Ooooh! Ooooh!) That it could never reach it.
Professor: But what if it could?
Me: "But it can't."
Professor: Yes, but what if it could?
Me: "But it CAN'T"
Professor: (again) Yes, but what if it could?
Me: "But it CAN'T!""That simply is the Definition of Asymptotic."
You can see my intellect clawing at the face & eyes of CALCULUS as I drown in crippled logic. And, as it was just about 4:51, the looks of my classmates as I hijacked all of Their time in class.
I _truly _ considered withdrawing from the course.
This same kind of thing happens when the typical (OK, maybe not SO typical) American who has (absorbed pretty much by osmosis) an 'inkling' of an understanding of Newtonian Physics is exposed to Quantum Theory.
They just kinda go "Nahhhh." It's just too much for their experiential basis, living in the macro world, to adjust to.
So what does the physicist do when the guys down at the bowling alley scoff at Vacuum Energy and Quantum Tunneling? He get's out his Quantum Leatherman (otherwise known as Math) and proceeds to melt their cerebellum.Making their lizard brain run all the way back to Sesame Street and say, "But just Look - they're DIFFERENT!"
I'm not trying to insult anybody, but THAT is why they say "OK, I followed that, but can't you see they're different?"
Ok, that and just like the folks in Los Angeles "don't trust any air they can't see" a whoooole lotta folks don't trust any math higher than the stuff they use to balance their checkbooks...
[Sorry I got loquacious]

Thanks a lot for that. That was a fun read :) Actually, I can sympathise with everybody who finds this stuff weird. Not to understand something the first (or 2nd, or 3rd...) time you see is perfectly okay with me and I am happy to discuss things further.
What gets me is the people who come barging in claiming that this is all nonsense, that I am lying or worse. Then confronted with the fact that this is actually what all mathematicians subscribe to they declare that all mathematicians are wrong, etc. Check out some of the threads in this comment sections (we must be approaching some RUclips record with some of them).

So the conclusion is that 2 + 2 is never 4?

I thought it's missing 0.0000000000000000000000000000000000000000... folowed by a 1 at the end?

@deadzshot 295 no, it's missing an Infinatly small 1 at the end so it would be 0.000000000...1 which is equal to 0 because it is infinitely small

3.999... = 4 precisely. Nothing is missing and definitely not that ridiculous 0.000...1 thing.

Eternity is a long time, especially towards the end.

You're just dodging the problem. In base b+1 0.bbb... = 1.In base 12, 1/3 = 0.4 = 0.3BBB... where B stands for the digit that is 11 in decimal.

I'm just saying that if there is base b, in which you can write a number with repeating decimals (which you can always do), there is always another base in which the repeating digits go away because how the number is represented, but of course, the same problem comes up with that base too.

***** You mean that you can write numbers like 0.1 and 0.25 in decimal and they aren't repeating. Wow, I didn't know that.

Wow, I just made another proof to what is the question in the video. You clearly didn't read the whole thing.

+Chris Seib What problem is he dodging?

Answer Evaded Your comment presents a nice argument that I wish I had thought about before.
To write it out in a (slightly) more rigorous fashion:
Let T(N) = Sum(9/10^k, k = 0 to N) (that is, T(5) = 9.99999, with T(N) converging to T = 9.999... as N->infinity), and let e(N) = |10-T(N)|. Since e(N) is decreasing and bounded below by 0, it must converge to some limit k. Therefore, we have a real number x = T + k/2 such that T

***** That's exactly right.

Mathologer So if my address is 100 and my neighbor's address is 101, since there are no houses in between, my address is 101? That argument holds no water.
I call 9.999... and 10 "next door neighbors" or "the discrete interfering with the continuous due to the introduction of infinity." I assert that there exists an infinitesimally small number that is between 9.999... and 10. I can't define it or write it using our numerical system, but that doesn't mean it doesn't exist. I can bound it with the lower value T(N)=sum(9/10^k, k=0 to N) as given by MyOverflow, and the upper value of S(N)=10-1/10^N. At N=infinity, that difference becomes zero and they both converge to 10. But you can't go the place I called "N=infinity." It doesn't exist. It's a concept. As N becomes infinitely large or N approaches infinity, the difference becomes infinitesimally small. 9.999... is just as mathematically malleable as infinity itself (as opposed to the set of integers, for example), and so, for the purposes of any approximation, yeah, sure, call 9.999... basically 10. But it isn't.
From what I can tell through the comments section, though, 9.999... == 10 because it was defined that way and for no reason more. Seems pretty petty to me, but I can accept that reasoning. If you're going to pull that argument, then you can't treat the 9's as numbers, because you've made 9.999... into a symbol and not a number, by defining its equivalency to another number. You've seen the proofs that you can use infinity to completely mess up sums without actually breaking any math laws (sum of all whole numbers -1/12, etc) so you can't actually give a mathematical definition of 9.999... because it isn't a number.

Marshall Curry The addresses are integers. We're talking about real numbers.

It still doesn't hold water. I defined an upper and lower bound for the number whose value exists between 9.999... and 10. Those two bounds become infinitesimally close together as N gets large, but they're never QUITE equal. The same can be said for (2/3)^N. It gets really close to zero as N gets large, but it never quite gets there. (2/3)^N > 0, not >= 0.

Not only people think that numbers "are" their representation, they think that the representation (i.e. symbols such as "0.999..." or "9/9") is somehow god given and it's up to us to ponder about their "real" meaning.

the timer is just a fun thing to go into the fuckign mathematical thing.

The clock is mind candy. The topic is math for kiddies, not quantum physics.

There used to be a word for people who believed 9.99 was 10: lunatic.
That X * n / n = X could conceivably be thought to add anything to the conversation is just weird.

@@herzwatithink9289 are:
1/9=0.111111... yes
2/9=0.222222... yes
3/9=0.333333... yes
4/9=0.444444... yes
5/9=0.555555... yes
6/9=0.666666... yes
7/9=0.777777... yes
8/9=0.888888... yes
so
9/9=0.999999... yes
ok, solve this genius:
1-9/9=?
i tell what i learnt at the school:
1-9/9 = (9-9)/9 = 0/9 = 0
and since 9/9=0.999999... we have that 1-9/9=1-0.999999... and since 1-9/9=0 (like the passage of the previous line demonstrates) i want to know how can you demonstrate that 1-0.9999999... isn't equal to 0, and i want to know how can you do it, not ignoring the passages i did (in which you can purpose your correction if you think they aren't right).
Good luck!

@@antog9770 if 1 and 0;999... are not equal, then there is another real number strictly between them. Turns out you can't find a number strictly greater than 0.9999... and lower than 1. Thus there are equal.

@@jidma i think you tagged the wrong person...

@@jidma anyway what i did is a demonstration, what you purpose is real but isn't valid like a demonstration (and if you read my post you could see that i ended saying with sarcarsm which is impossible to say "1 and 0.9... aren't equal", so, i said that they ARE equal...)

@MrTiti On this occasion the . . . means recurring (AKA repeating). It is a standard use of the three dots (it does have other uses). In the current context, "infinite" means "endless". There is no last digit. Mathologer has explained everything. He categorically stated that the 9s go on forever, so there is no possibility of there being anything other than a 9 no matter where you look. Hilbert's Hotel is relevant. The case here corresponds to the reverse of the simplest adding one guest.
There is no digits after the decimal point that don't pair off between the original 9.999 . . . and the shifted one.
OTOH it is possible to redefine the meaning of the symbol such that 9.999 . . . is infinitesimally smaller than 10, but that would be a different math object that uses the same symbol.
PS Google with "wiki ellipsis in mathematical notation".

+hukes Would be interesting to know whether anybody ever used 9.999... on a legal document :)

Yes, what would law judge?
If it were my call, I'd say it is 9.9999..., not 10 squared ft. I know, for all practical ends, it equals 10, but in my poor (and old minded) head, it still is 9.9999. That little 0.000...1 must be respected. :)

There is no such thing as 0.000....1, which you have to respect, but I am also pretty sure that if you left the decision to a jury, even to a jury consisting of randomly chosen school teachers the verdict would be 9.999... not 10. Which, of course, is really a very sad state of affairs given that 9.999...=10 is really a fairly trivial result in the grand scheme of things.

I know, it is trivial, but I obsess in such tiny details. ;)

But in this case the detail you are worrying about is so tiny that it even does not exist :)

Yes. e.g. 1/4 = 0.25 = 0.24999 . . .
Only 999 . . . is special like that. Every terminating decimal has a dual that ends with 999 . . .
0.888 . . . = 8/9
0.24888 . . . (and the like) don't have another decimal form. It is equivalent to the rational 224/900 = 56/225.
If 0.(N) represents the n digit string N being repeated, then
10^n * 0.(N) = N.(N) = N + 0.(N)
(10^n - 1) * 0.(N) = N
0.(N) = N/(10^n - 1)
e.g. 0.(428571) = 428571/999999 = 3/7

So what!?

Floating point is about clever computer engineering, but it has nothing to do with pure math.

@@Chris_5318 It’s basically a binary equivalent to the scientific notation (a*10^(+/-b)), which is also used in (spoiler alert!) science, much more often, than in pure maths; so, I wouldn’t be surprised that the same should be the case for the floating point numbers and computer science 🤔.

​@@PC_Simo I know what scientific notation and floating point are about. (How wasn't that obvious?). Neither has anything to do with the video.

@@Chris_5318 When did I suggest you didn’t know that? Or, when did I suggest it had to do with the video? 🤔

@@PC_Simo Your entire previous comment suggested that I didn't know it. It actually came across as patronising.
The fact that you posted on this page suggested that you thought your comment was relevant.
Your last response was disingenuous.

I'm having to change notation because RUclips is being a PITA
M = 9.(9)
M/10 = 0.(9)
(9/10)M = 9
M = 10
You got 9M = 89.(9)91 because you used M = 9.(9)99 with a last 9.
Doncha know that infinite decimals don't have a last digit?
What decimal place do you associate that last 1 with, you trolling muppet?

well, with this being the only operation you try, without all the other proof, you would actually get to infinitesimal
10 - 9.99999999999... = 0.000000000...1

@@janinipizzicato Would you though? You'd only get a 1 at the end if the 9.999... ended somewhere (i.e. wasn't recurring).
As soon as you make it recurring, so the .999... goes on forever, the subtraction is now an infinite number of 0s, which just equals 0.

@@janinipizzicato I may well be missing something, I'm a physicist not a mathematician. We tend to be sloppy.

@@MKelly1923 I'm pretty sure the definition of infinitesimal is exactly that: 0.000...(infinite zeroes)...1, or generically the number there is nothing smaller than. And 9.99999... = 10 - (infinitesimal), so saying 9.999... = 10 is saying infinitesimal = 0. So either infinitesimal can't equal 0 or 9.999... equals 10, and they've both been proven (to my knowledge) yet they're mutually exclusive. Really weird.
Well, that or I've misremembered exactly what an infinitesimal is.

@@MKelly1923 You can say the error tends to zero as the number of nines tends to infinity.No matter how long you go you will always have the error.There is not enough ink in the universe to cover this.Then we get to the argument,does infinity exist in the REAL world?