Infinity is not a number, but if it were, it would be the largest number. Of course, such a largest number does not exist in a strict sense: if some number n n n were the largest number, then n + 1 n+1 n+1 would be even larger, leading to a contradiction. Hence infinity is a concept rather than a number.

Infinity is not a number. Instead, it's a kind of number. You need infinite numbers to talk about and compare amounts that are unending, but some unending amounts—some infinities—are literally bigger than others.

The sidewise eight, ∞, is not infinity. As commonly used in math, it means “increasing without bound.” A number can get bigger and bigger and eventually get to one followed by a trillion zeros. Even though this is a really big number, it is not even close to infinity. There is still an infinite number of numbers to go.

Why is infinity not a real number? - Week 2 - Lecture 8 - Mooculus

What is bigger than infinity?

Mathematically, if we see infinity is the unimaginable end of the number line. As no number is imagined beyond it(no real number is larger than infinity).

In mathematics, expressions like 1/0 are undefined. But the limit of the expression 1/x as x tends to zero is infinity. Similarly, expressions like 0/0 are undefined. But the limit of some expressions may take such forms when the variable takes a certain value and these are called indeterminate.

So we imagine traveling on and on, trying hard to get there, but that is not actually infinity. So don't think like that (it just hurts your brain!). Just think "endless", or "boundless". If there is no reason something should stop, then it is infinite.

Mathematically, if we see infinity is the unimaginable end of the number line. As no number is imagined beyond it(no real number is larger than infinity). The symbol (∞) sets the limit or unboundedness in calculus.

Answer and Explanation: 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, the concept of something that is unlimited, endless, without bound. The common symbol for infinity, ∞, was invented by the English mathematician John Wallis in 1655.

A "googol" is the number 1 followed by 100 zeroes. The biggest number with a name is a "googolplex," which is the number 1 followed by a googol zeroes.

While this is an unimaginably large number, there's still an infinite quantity of larger numbers. One such number is googolplex, which is 10 to the power of a googol, or 1 followed by a googol of zeros. The word googol was introduced in Mathematics and the Imagination, a book written by Edward Kasner and James R.

There are no zeros in infinity. There are no numbers in infinity because infinity is not a number. Infinity is an idea that represents something outside the bounds of our number system.

Infinity is unlimited and does not end. You would not be able to plot infinity on a number line so, therefore, it is not real. Another example of an imaginary number is the square root of -1.

Although the concept of infinity has a mathematical basis, we have yet to perform an experiment that yields an infinite result. Even in maths, the idea that something could have no limit is paradoxical.

Yet even this relatively modest version of infinity has many bizarre properties, including being so vast that it remains the same, no matter how big a number is added to it (including another infinity). So infinity plus one is still infinity.

In physics one might look for infinities in space, time, divisibility, or dimensionality. Although some have speculated that three-dimensional space is infinite, cosmologists generally believe that the universe is curved in such a way as to make it finite but unbounded—akin to the surface of a sphere.

The symbol is encoded in Unicode at U+221E ∞ INFINITY ( ∞) and in LaTeX as \infty . It was introduced in 1655 by John Wallis, and since its introduction, it has also been used outside mathematics in modern mysticism and literary symbology.

Answer and Explanation: We cannot really divide infinity by zero because infinity is not a number and we do not divide by zero. However, we can use limits to determine what happens when we divide an extremely large quantity (almost infinitely large) by an extremely small quantity (very close to a zero).

Answer and Explanation: Any number divided by infinity is equal to 0. To explain why this is the case, we will make use of limits. Infinity is a concept, not an actual number, so we can't just divide a number by infinity.

Infinity is not a real number and is only used as a representation of an extremely large real number. Dividing 1 by infinity is equal to zero. In general, any real number divided by infinity is zero, and the quotient of nonzero real numbers that divide infinity is infinity.