A plane.
Any number that isn't on the list of products in an infinitely large multiplication table (excluding the 1s lines) is a prime.
There are infinitely many such numbers.2.0000000012.00000000112.000000001100000000001etc.2.22.200000000012.200000001000000000101013There are infinitely many such numbers.2.0000000012.00000000112.000000001100000000001etc.2.22.200000000012.200000001000000000101013There are infinitely many such numbers.2.0000000012.00000000112.000000001100000000001etc.2.22.200000000012.200000001000000000101013There are infinitely many such numbers.2.0000000012.00000000112.000000001100000000001etc.2.22.200000000012.200000001000000000101013
There are infinitely many possible answers. One such is 10*2.2There are infinitely many possible answers. One such is 10*2.2There are infinitely many possible answers. One such is 10*2.2There are infinitely many possible answers. One such is 10*2.2
Infinitely many.Infinitely many.Infinitely many.Infinitely many.
A sphere.
Yes, a set can be infinitely large. For instance, the set of all odd integers is infinitely large.
The set of Pythagorean triple is three dimensional and infinitely large.
In our real world, the space is 3D. It is currently unknown whether it is infinitely large.
No, it is not.
A plane.
The number is infinitely large.
It is an infinitely large number.
Lines in Euclidean space.
Infinitely many. The length of one pair of sides can range from infinitesimally small to infinitely large.
put your pencil to the paper and begin drawing a line, and never stop... (you are going need an infinitely large sheet of paper) * * * * * You do not need an infinitely large piece of paper. But you will need infinitely many pencils and an infinite amount of time!
No. Infinitely Small implies something that is as close to zero as it can get without actually being zero - think of a positive or negative fraction with an infinitely large denominator. Infinitely Big implies something that is as far away from zero as possible, and then some: negative infinity or positive infinity. You can think of infinitely small as being the reciprocal of (one divided by) infinitely big.