General

Does infinity have a boundary?

Does infinity have a boundary?

The Infinity can simply be defined as a number without boundary or we say a boundless or endless number that is larger than any real or natural number. Denoted by the symbol ∞, the symbol was introduced by John Wallis. ∫∞−∞f(t)dt=∞ means that the area under f(t) is infinite. …

Can a shape be infinite?

There are no planar shapes (fractal or otherwise) with finite perimeter and infinite area. The isoperimetric inequality tells us that the area of a shape with a given perimeter is bounded above by , which in particular is finite. There are no planar shapes (fractal or otherwise) with finite perimeter and infinite area.

Is infinity really endless?

Actual infinity is completed and definite, and consists of infinitely many elements. Potential infinity is never complete: elements can be always added, but never infinitely many.

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How do you know if Infinity is infinite?

Just think “endless”, or “boundless”. If there is no reason something should stop, then it is infinite. Infinity is not “getting larger”, it is already fully formed. Sometimes people (including me) say it “goes on and on” which sounds like it is growing somehow.

Is space infinite or finite?

By “infinite” we usually mean something which is limitless or endless. My position is space is finite. However, to demonstrate that let’s propose, for a moment, that space is infinite. In a simple sense if this were the case and I set out in a spaceship in any direction, I would never reach a boundary.

What is the shape of the infinite universe?

An infinite universe could have a geometry that is totally flat like a piece of paper. Such a universe would go on forever and include every possibility — including endless versions of ourselves. On the other hand, a donut-shaped universe would have to be finite, as it’s closed.

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Can a closed curve have an infinite area?

If you only allow yourself to look at the “inside” of any closed curve, it couldn’t have an infinite area because you can always define a circumference “around it” whose circle would necessarily fully contain the first shape and also be of finite area.