"Hilbert's paradox of the Grand Hotel is a thought experiment which illustrates a counterintuitive property of infinite sets. It is demonstrated that a fully occupied hotel with infinitely many rooms may still accommodate additional guests, even infinitely many of them, and that this process may be repeated infinitely often. The idea was introduced by David Hilbert in a 1924."

"Consider a hypothetical hotel with a countably infinite number of rooms, all of which are occupied. Suppose a new guest arrives and wishes to be accommodated in the hotel. We can (simultaneously) move the guest currently in room 1 to room 2, the guest currently in room 2 to room 3, and so on, moving every guest from his current room n to room n+1. After this, room 1 is empty and the new guest can be moved into that room. By repeating this procedure, it is possible to make room for any finite number of new guests."

So the paradox states that "It is also possible to accommodate a countably infinite number of new guests: just move the person occupying room 1 to room 2, the guest occupying room 2 to room 4, and, in general, the guest occupying room n to room 2n, and all the odd-numbered rooms (which are countably infinite) will be free for the new guests."

As it looks we have a mathematical paradox here. But i would pose an argument. Infinity is not actually infinite. Infinity by itself has a meaning "Infinity (symbol: ∞) is an abstract concept describing something without any bound and is relevant in a number of fields, predominantly mathematics and physics. In mathematics, "infinity" is often treated as if it were a number (i.e., it counts or measures things: "an infinite number of terms") but it is not the same sort of number as natural or real numbers." But in reality infinity is not infinite, but it has an END. The same applies to the number of Pi. The number of Pi starts with 3,14... and so forth. One would say that this number is "Infinity", but in reality, there will always be a number in the end and a number coming after it n+1. Now we can argue that n+1 is always infinity but the counter-argument would be that there will always be an END (a number). And the argument for the counter-argument is that there will always be a number after the END. Looking from the perspective of the counter-argument (There will always be an END number in infinity), this paradox is false. If an infinite number of rooms will house an infinite number of guests then when a new guest arrives he can't stay in the hotel since infinity has an END, then infinity rooms will house infinity guests. Thus this logic means that if you would take 1 person from room 1 and put him into room 2 and so forth to infinity, the end would be infinity + 1 (excess). Therefore if the new person comes into infinity (which has an END) and all of the people are moved 1 room forth then there would be an excess of 1 therefore this paradox is false. It can only be false if you look from the perspective that INFINITY has an END (end number).

What is your take on this paradox? I find it quite amusing. What are your thoughts?
Apple