The first trans-finite ordinal is omega (ω), the lower-case Greek letter omega. This isn't a joke or a trick, it's literally just the next label you'll need after using up the infinite collection of every single counting number first.
The Absolute Infinite (symbol: Ω) is an extension of the idea of infinity proposed by mathematician Georg Cantor. It can be thought of as a number that is bigger than any other conceivable or inconceivable quantity, either finite or transfinite.
INFINITY IS THE BIGGEST NUMBER FOLLOWED BY OMEGA (even though they are not real numbers) thats the answer to your question.
Infinity means limitless Therefore there is no number more than infinity It is just a description that means boundless and has no end.
Different infinite sets can have different cardinalities, and some are larger than others. Beyond the infinity known as ℵ0 (the cardinality of the natural numbers) there is ℵ1 (which is larger) … ℵ2 (which is larger still) … and, in fact, an infinite variety of different infinities.
There is no number before infinity. It is possible to represent infinity minus one as a mathematical expression, but it does not actually equal anything or have any real mathematical value.
Infinity is not smaller than infinity, since "[strictly] smaller" is irreflexive. There is no mathematical object strictly smaller than itself.
Visualized this way, you'll see it's possible to keep up this one-to-one correspondence between our sets forever, which means infinity and infinity plus one are actually equal.
The smallest version of infinity is aleph 0 (or aleph zero) which is equal to the sum of all the integers. Aleph 1 is 2 to the power of aleph 0. There is no mathematical concept of the largest infinite number.
Omega is the simplest surreal number larger than all real numbers.
Not only is the infinity of decimals bigger than that of the counting numbers – there is no biggest infinity. Beyond infinity is another infinity, and beyond that is yet another… and even after you've reached an infinity of infinities, there's still another infinity beyond that.
For those of you who are unfamiliar with this series, which has come to be known as the Ramanujan Summation after a famous Indian mathematician named Srinivasa Ramanujan, it states that if you add all the natural numbers, that is 1, 2, 3, 4, and so on, all the way to infinity, you will find that it is equal to -1/12.
As the final letter in the Greek alphabet, omega is often used to denote the last, the end, or the ultimate limit of a set, in contrast to alpha, the first letter of the Greek alphabet; see Alpha and Omega.
Infinity has no end
Infinity is the idea of something that has no end.
Infinite sets are not all created equal, however. There are actually many different sizes or levels of infinity; some infinite sets are vastly larger than other infinite sets.
Multiplying infinity by infinity will result in infinity.
The answer depends on which notion of infinity we use. The infinity of limits has no size concept, and the formula would be false. The infinity of set theory does have a size concept and the formula would be kind of true. Technically, statement 2∞ > ∞ is neither true nor false.
Some numbers come after googolplex, and we have named them too. Skewes' number is one of the larger numbers than even a googolplex. This number was developed by mathematician Stanley Skewes and named after him. Skewes had a particular interest in prime numbers.
Google is the word that is more common to us now, and so it is sometimes mistakenly used as a noun to refer to the number 10100. That number is a googol, so named by Milton Sirotta, the nephew of the American mathematician Edward Kasner, who was working with large numbers like 10100.
After a billion, of course, is trillion. Then comes quadrillion, quintrillion, sextillion, septillion, octillion, nonillion, and decillion.
There is no biggest, last number … except infinity. Except infinity isn't a number. But some infinities are literally bigger than others.
Zillion sounds like an actual number because of its similarity to billion, million, and trillion, and it is modeled on these real numerical values. However, like its cousin jillion, zillion is an informal way to talk about a number that's enormous but indefinite.
Written out in ordinary decimal notation, it is 1 followed by 10100 zeroes; that is, a 1 followed by a googol of zeroes.
Googolplex: A googolplex is 10 raised to the power of a googol. According to the Merriam-Webster online dictionary, it can be expressed as 10googol or 1010100.