Is infinity a constant or a variable ?

Join the discussion
Ask a follow-up here, or get your own question answered by working scientists, mathematicians and engineers — people, not an autocomplete.
Real named experts · corrections over time · the nuance an AI answer skips
88 replies · 27K views
Tac-Tics said:
Variables in mathematics never vary.

Then what else varies?
 
Mathematics news on Phys.org
Tac-Tics said:
Variables in mathematics never vary.

The scope of a variable is the expression in which the variable even exists. For example, in the expression [tex]50n + \Sigma_k^5 k^2[/tex], the variable k is created by the binding form [tex]\Sigma[/tex]. It only exists inside the expression [tex]k^2[/tex]. To say something like [tex]k + \Sigma_k^5 k^2[/tex] is nonsense, because k simply doesn't exist outside of the sigma which creates it.

Okay, but even to say [tex]50n + \Sigma_k^5 k^2[/tex] sounds stupid unless it is said that n [tex]\in[/tex] N (where N is set of natural no.), or unless one had presumed this that n [tex]\in[/tex] N
 
Tac-Tics said:
The purpose of a variable depends on the type of binding form. I list a bunch of these in another post I link to below. But they include definition, function abstraction (the lambda of lambda calculus), universal and existential quantification, summations and integrals (the "dummy" variables of both), and a few others.

Consider the expression "x^2 + 1". What is x? We don't know. We can't actually see the binding form of x in the expression we are considering, we say that it is unbounded (relative to that expression).

It might be a simple number like 2. It might be a function parameter, such as in "f(x) = x^2 + 1". It might be a dummy parameter in an integral, such as [tex]\int x^2 + 1 dx[/tex]. If we can see the binding form in the expression, we say that x is bounded (relative to the expression in question).

so we have "x^2 + 1". What is x? We don't know. Alright.
Say, now we have x - y = 0. ( sorry for not using much latex, I don't know much about it)
so as you said there are three things.
1. Name - x, y.
2. scope .

For scope you said "The scope of a variable is the expression in which the variable even exists." and it is about the binding form of the expression.
Here binding form may be "= 0" , or may not be (I don't know as this also include a little idea of CS), if it is not, then your point ends here.

If it is; then, where is the scope?
x [tex]\in[/tex] R, no we can also have x [tex]\in[/tex] C, and so the y.
what if x represent sin[tex]\phi[/tex], and as x = y, so do y.
So scope is not defined.

3. Purpose
this will come when scope is clear, but I don't think scope has a clear picture.
 
Tac-Tics said:
See another post explaining this in a little more detail here:
at https://www.physicsforums.com/showthread.php?t=258803


Of course, when talking about infinities, you have to keep in mind that infinity is a name we give to many things. A few of them aren't even mathematical objects. Aleph null and the cardinality of the continuum would be constant values. The infinity in "lim x->infinity" isn't really...
I checked that link, you told about binding form in discussion, I think HallsofIvy gave quite logical answer both time.

For the last thing said "when talking about infinities...", this is the point I think I have to agree with you.
 
AUMathTutor said:
Well, I was really thinking more in terms of attribute ...

...very precise, by the way. Thanks for pointing out where I could have been clearer, though.

CS Again?:cry:
 
Georgepowell said:
How to troll Mathematicians:

Talk about infinity.

Yeah! This is a fact. But what's your point.
 
de_brook said:
In mathematics, infinity is a symbol representing an extremely very large quantity compared to the variables
Compared to Variables?
 
de_brook said:
Thus, we could have different infinities for different systems. An infinity for a system A may be a finite number for a system B.

Also this may be possible that the infinites of two different system are "not comparable".
Or not even the finite one are comparable
 
aaryan0077 said:
Yeah! This is a fact. But what's your point.

Sorry if that was offensive, I wasn't suggesting that you are a troll. Look at how many replies you have though! Only a thread on infinity could cause that.
 
Georgepowell said:
Sorry if that was offensive, I wasn't suggesting that you are a troll. Look at how many replies you have though! Only a thread on infinity could cause that.

[itex]0.\bar{9} = 1[/itex]?? is a crackpot magnet as well. :D
 
de_brook said:
In mathematics, infinity is a symbol representing an extremely very large quantity compared to the variables you are working with such that the system cannot even comprehend. Thus, we could have different infinities for different systems. An infinity for a system A may be a finite number for a system B.

What do you mean by "the system cannot...comprehend" mathematically? Please elaborate on your post.
 
slider142 said:
[itex]0.\bar{9} = 1[/itex]?? is a crackpot magnet as well. :D
Thank god religious threads are banned
 
slider142 said:
What do you mean by "the system cannot...comprehend" mathematically? Please elaborate on your post.
I mean't that there are systems in which we are restricted to work with cetain variables. They could be considered as too large for our infinity or too small for a zero. For instance if you are working with a system in which most of what you encounter are infinitesimal values such as nano values and you encounter kilo-value once, you notice that there is a jump. This, we can say kilo-value is an infinity when compared to the sysytem we are working with
 
de_brook said:
I mean't that there are systems in which we are restricted to work with cetain variables. They could be considered as too large for our infinity or too small for a zero. For instance if you are working with a system in which most of what you encounter are infinitesimal values such as nano values and you encounter kilo-value once, you notice that there is a jump. This, we can say kilo-value is an infinity when compared to the sysytem we are working with

Ah, that is definitely a physical/engineering infinity, not a mathematical one. Just checking. :)
 
slider142 said:
Ah, that is definitely a physical/engineering infinity, not a mathematical one. Just checking. :)

Alright, what do you think it is? cos i know you quite agree that infinity is a symbol and it does not have a fixed value it just tells us about something very large
 
There are many examples of infinities that are considered constants listed in this thread that have nothing to do with variables or allowing some variable to vary. They have precise definitions and algebraic properties and can be considered "fixed" in their respective systems.
 
de_brook said:
Alright, what do you think it is? cos i know you quite agree that infinity is a symbol and it does not have a fixed value it just tells us about something very large
Again, that is not mathematics- it may well be some application of mathematics, but mathematics does NOT use "infinity" to mean "very large".
 
Right. de brooks's definition is the Physics definition... I've heard it several times before.
 
My explanation is quite informal, but I hope it helps.

Well it's not a constant, but roughly speaking, it's just a positive number when you approach given conditions ( usually the Weierstrass limit conditions ) that will grow bigger and bigger ... and bigger ... and bigger ... and bigger ... and bigger ...

Now if you consider the expression ∞+2, when ∞ will grow bigger and bigger as you approach given conditions, ∞+2 under the same conditions will grow bigger and bigger ... and bigger ... and bigger ... and bigger ... and bigger ...

So ∞+2 = ∞
 
CRGreathouse said:
Further, just to muddy the waters, [itex]\omega+2>\omega.[/itex]

To make it clear, here [itex]\omega[/itex] is the first infinite ordinal.
To muddy the waters further, we also have [itex]\omega + 2 > 2 + \omega = \omega[/itex].
 
de_brook said:
I mean't that there are systems in which we are restricted to work with cetain variables. They could be considered as too large for our infinity or too small for a zero.

What if they are not comparable?
 
de_brook said:
For instance if you are working with a system in which most of what you encounter are infinitesimal values such as nano values and you encounter kilo-value once, you notice that there is a jump. This, we can say kilo-value is an infinity when compared to the sysytem we are working with
NO!
We never say that kilo-value here is "infinity" when compared to those Infinitesimal value.
We still say that it's too large, but we never say it is infinite compared to those Infinitesimal values.
Did you ever heard a physicist working with Schrödinger eq. and dealing in Planck numbers saying that universe started infinite years ago, NO! He will still say universe started (nearly) 13.7 billion yrs ago.
 
de_brook said:
Alright, what do you think it is? cos i know you quite agree that infinity is a symbol and it does not have a fixed value it just tells us about something very large

I think slider and HallsofIvy gave quite appropriate answer to your question.
 
deiki said:
that will grow bigger and bigger ... and bigger ... and bigger ... and bigger ... and bigger ...

So, Are you treating it as variable?
If it is so, then why aint it is waning rather than just waxing?
 
deiki said:
it's just a positive number

JUST A POSITIVE NUMBER
I think you should read the whole thread before; then post something, because if you have read all the posts, you won't have said just a positive no.
 
deiki said:
So ∞+2 = ∞

That's what I said in OP, what do you mean by repeating this?
 
Okay everyone, I discussed it somewhere else, and there's one point I found quite interesting,
I'd like to share that one.

"It is really nothing and so something immeasurable .So it is none other than Infinity itself !It is everything and nothing too.
It is immeasurable and , boundless.It is nothing ; but something ; a being that is a non-being ! That alone is infinity.
For instance , space is emptiness. It can be filled or can be vacuum.and so something can be put into it .Something can extend into it .If there is NO SPACE , NO VACUUM for something to be put into, a thing can not exist .All things need space to exist in.But the space that things need to exist is actuallyemptinesss , vacuum, NOTHING .But if that "NOTHINGNESS" is not there , where will anything exist in this universe ?So all thatexitst , needs this space - this nothingness to exist in.But this nothingness does not existbecausee of anything else .It needs nothing to exist in! It depends on nothing for its existence ; but everything else in thisUniversee or anywhere , say in hell or heaven, needs this nothingness to exist in.Even the Gods and all Avatars needed this space , the emptiness to exist .but for this, even the Gods and their Avatars do not exist!"