The set of reals between 0 and 1 is provably infinite, and clearly bounded — MindForged

A "sphere" (or "ideal sphere") is an abstraction, not an actually existing thing. — Relativist

You bring up another abstraction: the number of possible paths being infinite. This is hypothetical; in the real world, you cannot actually trace an infinite number of paths. So in the real world you cannot actually COLLECT an infinity. All you can do is to conceptualize. — Relativist

The Reals between 0 and 1 are unbounded in terms of precision. Imagine writing out all such reals to 1 decimal place (0.1, 0.2, etc...), then to 2 decimal places, then 3 etc... This is an example of potential infinity. — Devans99

When you’re working out how many things compose another you take the overall length and divide by length of the constituent parts. So to work out how many points there are in the interval 0,1 you divide 1 by point size.


The problem with the number line example is that numbers have no length. They are labels that have no length. They don’t exist. So the number of numbers between 0 and 1 is 1 / 0 = undefined which is what you’d expect.

You just count them — MindForged

But you’d never finish counting the reals between 0 and 1 so you can’t completely define the set. — Devans99

And no way is the set bounded in terms of precision; that stretches to infinity so it’s unbounded. — Devans99

But my main point you ignore - numbers have size zero so they do not exist - so talking about how many you can get on a number line between 0 and 1 is nonsense. — Devans99

If a point has no length it does not exist so the definition is contradictory. — Devans99

Relativist: 'A "sphere" (or "ideal sphere") is an abstraction, not an actually existing thing.'

We use abstractions, i.e. symbols, in order to represent reality. For example, the term "human being" is a symbol -- a written or a spoken word -- that can be used to represent certain portions of reality. We don't say human beings don't exist merely because the term "human being" is an abstraction. We only say that human beings don't exist if there is no portion of reality that can be represented by the term "human being". — Magnus Anderson

Relativist: 'You bring up another abstraction: the number of possible paths being infinite. This is hypothetical; in the real world, you cannot actually trace an infinite number of paths. So in the real world you cannot actually COLLECT an infinity. All you can do is to conceptualize.'

You don't need to be able to count an infinite number of things in order for that infinite quantity of things to exist. — Magnus Anderson

I'm just rejecting the argument that an abstracted infinity implies there are real-world infinities. — Relativist

Good luck doing that without the rigorous mathematical understanding of infinity as opposed to the vague colloquial understanding. — MindForged

The set of reals between 0 and 1 is provably infinite, and clearly bounded. After all, every element in that infinite set is larger than 0 and yet smaller than 1; — MindForged

But whether or not sets are bounded or not really has nothing to do with infinity. A set whose members are ever increasing due to some iterative calculation is clearly unbounded, but it's not infinite. Just loop a program which adds new members to an array every iteration; at every iteration the number of members of the array are obviously going to be finite. — MindForged

I thought that your argument is that we need to count an infinite number of things in order for there to be an infinite number of things, or at the very least, in order for us to prove or justify that an infinite number of things exists. I don't think any of these two beliefs is true.

We don't need to observe every human being dying in order to prove or justify our belief that all human beings are mortal. — Magnus Anderson

"Rigorous mathematical understanding of infinity". Lol. But if your not joking, you have my sympathy. — Metaphysician Undercover

Does anyone even know what it means to be larger then zero? — Metaphysician Undercover

That there is an infinity of real numbers between any two real numbers is the assumption of infinite divisibility — Metaphysician Undercover

So the infinite thing itself, divisibility, is not bounded. Likewise, in the case of the natural numbers, that the one unity being added at each increment of increase is bounded and indivisible, is irrelevant to the infinity which involves the act of increase. That the increasable amount is bounded, restricted to exclude fractions, is not a limit to the infinity itself. Nor is the fact that a divisible unit is bounded a limit or restriction to divisibility. — Metaphysician Undercover

That's incorrect. Whether or not something is infinite has everything to do with whether or not it is unbounded, because "infinite" is defined as unbounded. Where is your rigorous understanding of infinitiy?. — Metaphysician Undercover

And no, an iterative calculation is not unbounded. It is limited by the physical conditions, and the capacity of the thing performing the iteration. That it is so bounded is the reason why it is not infinite

let arr = [], i;

for(i = 0; arr.length < Infinity; i++){
     arr.push(i);
}

// result: arr = [0,1,2,3,....] (it actually never completes, for obvious reasons)

It's not an assumption if you can prove it. Seriously, assume there is some limit to how many reals there are between any two naturals. A simple expansion can be done to yield a new natural. Ergo on pain of contradiction the initial supposition must be false. There is no smallest real. — MindForged

The set of naturals has a smaller cardinality than the reals; the former is countable and the latter is uncountable ("unlistable" is probably a better word). So the naturals are bounded, we know numbers which are larger than it so there's a very obvious boundary: — MindForged

But how can you know that Naturalism holds before the Beginning? — SteveKlinko

Science (or natural philosophy as it used to be called) is based on naturalistic explanations. Science, for example, excludes god and magic as valid explanation for natural phenomena.

If the early universe does not follow naturalistic rules then we have little hope of ever understanding it.

Rather than giving up, why not assume the universe behaves in a naturalistic ways and proceed to argue from there? — Devans99

1. Something can’t come from nothing — Devans99

Well I would class FTL travel as potentially naturalistic; it’s certainly not a magical proposition.

‘Something from nothing’ is however magical so I’d rule it out. Returning to the argument:

1. Something can’t come from nothing
2. So base reality must have always existed
3. If base reality is permanent it must be timeless
4. So base reality must be timeless (to avoid the infinities) and permanent
5. Time was created and exists within this permanent, timeless, base reality
6. So time must be real, permanent and finite

Do you buy the argument as far as 2 now or do you still have objections? — Devans99

I define nothing as no matter, energy or dimensions. Complete nothing. Not a quantum fluctuation in sight. — Devans99

I agree, but as I explained, the thing which is infinite is not the same thing as the thing which is bounded. Therefore the limits expressed are irrelevant to the infinity expressed, and the infinity is unbounded. Therefore your argument that there can be a bounded infinity is not sound. — Metaphysician Undercover

I don't believe this. Both the naturals and the reals are infinite, so I believe it is false to say that one is larger than the other. This is where I believe that set theory misleads you with a false premise. I would need some evidence, a demonstration of proof, before I would accept this, what I presently believe to be false. Show me for example, that there are more numbers between 1 and 2, and between 2 and 3, than there are natural numbers. The natural numbers are infinite. So no matter how many real numbers you claim that there are, they will always be countable by the natural numbers. — Metaphysician Undercover

This is what I've been telling you over and over again. To stipulate that the cardinality of the natural numbers is less than something else, and to also say that the natural numbers are infinite, is contradictory. — Metaphysician Undercover

A computing array is obviously bounded by memory limitations as you found out when your program hung. — Devans99

The naturals {1,2,3,...} are unbounded on the right as denoted by the ...

The reals between 0 and 1 {.1, .01, .001, ... } are unbounded ‘below’.

Both are an example of potential not actual infinity in that it is an iterative process that generates an infinity of numbers.

The number of reals between 0 and 1 is undefined: a number has ‘length’ 0 and 1/0 = undefined. If you let number have length>0 you get a finite number of reals between 0 and 1. So there is no way to realise actual infinity...

You did not give any counterargument here that the real between zero and one are either finite or unbounded. I gave an argument for why it was both, and thus why something can be finite and bounded. — MindForged

The "thing" which is infinite is the number of reals, the thing which is bounded is the number of reals. — MindForged

If you ignore the last 150 years of math you can believe this, but Cantor's diagonal argument is pretty clearly proof of this. — MindForged

I don't believe this. Both the naturals and the reals are infinite, so I believe it is false to say that one is larger than the other. — Metaphysician Undercover

To call either set infinite is to presuppose you know what exactly you mean by "infinite" in context. — tim wood

Have you read any of my posts? I insist that it is contradictory to say that a set is infinite. — Metaphysician Undercover

Both the naturals and the reals are infinite, — Metaphysician Undercover

That is not the length of the set, what are you talking about? You don't divide to determine the number of members in a set, you count them (counting as understood in math, not finger counting). — MindForged

A set is infinite if it's members can put into a one-to-one correspondence with a proper subset of itself. So we know the natural numbers are infinite because, for example, there's a function from a set to a proper subset (read: non-identical) of itself like the even numbers. For every natural number, you're always able to pair it up with an even number and there's no point at which one of the subset cannot be supplied to pair off with the members of the set of naturals. — MindForged

You need to realise that you were told the wrong things about infinity at school and free your mind of Cantor’s muddled dogma. — Devans99

You have stated an arbitrary boundary of zero and one, but this does not bound the infinite. You could have set your boundaries as 10 and 20, or 200 and 600, or zero and the highest natural number. These boundaries do not bound the infinite itself. — Metaphysician Undercover

The boundaries are in the definitions by which they are produced, but the definitions are made such that the numbers themselves are not bounded. The two systems, the naturals and the reals, are just two distinct ways of expressing the same infinite numbers. — Metaphysician Undercover

There is a real problem with this so-called proof. It's called begging the question. By assuming that the natural numbers are a countable "set", it is implied that the naturals are not infinite. It is impossible to count that which is infinite. — Metaphysician Undercover