Cantor applied his concept of one-to-one correspondence to infinite sets;[1] e.g. the set of natural numbers N = {0, 1, 2, 3, ...}. Thus, all sets having a one-to-one correspondence with N he called denumerable (countably infinite) sets and they all have the same cardinal number. This cardinal number is called ℵ0, aleph-null. He called the cardinal numbers of these infinite sets, transfinite cardinal numbers.
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Anonymous2013-08-31 7:56
Assuming the axiom of choice and, given an infinite cardinal κ and a finite cardinal μ greater than 0, the cardinal ν satisfying νμ = κ will be κ.
Sometimes infinite result of a physical quantity may mean that the theory being used to compute the result may be approaching the point where it fails. This may help to indicate the limitations of a theory.
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Anonymous2013-08-31 9:27
Sets alone. This includes the most common axiomatic set theory, Zermelo–Fraenkel set theory (ZFC), which includes the axiom of choice. Fragments of ZFC include:
The paradoxes of naive set theory can be explained in terms of the inconsistent assumption that "all classes are sets". With a rigorous foundation, these paradoxes instead suggest proofs that certain classes are proper.
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Anonymous2013-08-31 10:57
One might say, "Even though the usual ordering of the real numbers does not work, it may be possible to find a different ordering of the real numbers which is a well-ordering. Then our choice function can choose the least element of every set under our unusual ordering." The problem then becomes that of constructing a well-ordering, which turns out to require the axiom of choice for its existence; every set can be well-ordered if and only if the axiom of choice holds.
It can be proved that the cardinality of the real numbers is greater than that of the natural numbers just described. This can be visualized using Cantor's diagonal argument; classic questions of cardinality (for instance the continuum hypothesis) are concerned with discovering whether there is some cardinal between some pair of other infinite cardinals. In more recent times mathematicians have been describing the properties of larger and larger cardinals.
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Anonymous2013-08-31 13:16
I don't know about other routes, but Michiru route explains why Michiru route acts like a cliched comic relief character. I'm assuming the other characters also are who they are because of what happened in their pasts.
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Anonymous2013-08-31 13:31
The Indian mathematical text Surya Prajnapti (c. 3rd–4th century BCE) classifies all numbers into three sets: enumerable, innumerable, and infinite. Each of these was further subdivided into three orders:
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Anonymous2013-08-31 13:32
After class I start following the her in a totally not-stalker-y way. She somehow eludes me, and I end up at some festival thing where I play some scavenger hunt game which consisted of finding candy in tall grass. And then I woke up.
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Anonymous2013-08-31 14:17
The IEEE floating-point standard (IEEE 754) specifies the positive and negative infinity values. These are defined as the result of arithmetic overflow, division by zero, and other exceptional operations.
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Anonymous2013-08-31 14:18
If you think of it as a logarithmic catch up rate with a critical point (the flash) signifying the point where their time line comes into phase and is assimilated into the true present then it makes sense.
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Anonymous2013-08-31 15:02
For example, properties of the natural and real numbers can be derived within set theory, as each number system can be identified with a set of equivalence classes under a suitable equivalence relation whose field is some infinite set.
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Anonymous2013-08-31 15:03
i'm going to guess the bugs in the expansion extend to the routes, too. this route is suppossed to be really easy (it's similar to the route in "The Dungeon of Dreams and Magic" that had nothing but Nazrin's in it), yet as far as i can tell it never ends and frequently throws Monster Rooms filled with high level monsters.
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Anonymous2013-08-31 15:47
Although originally controversial, the axiom of choice is now used without reservation by most mathematicians, and it is included in Zermelo–Fraenkel set theory with the axiom of choice (ZFC), the standard form of axiomatic set theory.
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Anonymous2013-08-31 16:32
The status of the axiom of choice varies between different varieties of constructive mathematics.