They are sets with a finite number of elements. For example the days of the week, or the 12 months of the year.
Modular arithmetic is based on finite sets.
YES
sets
Closed sets and open sets, or finite and infinite sets.
Closed sets and open sets, or finite and infinite sets.
They are numbers that terminate.
There are finite sets, countably infinite sets and uncountably infinite sets.
The way I understand it, a finite set can not be an infinite set, because if it were an infinite set, then it would not be a finite set, and the original premise would be violated.
A finite set is a set that has numbers you can count. Its not like infinite with no end it has an end.
There are not just five finite sets, there are infinitely many. {1} {1,2} {2, water} {red, dog, dream} {sdf. csfk. dfo, df, gfpo} are five finite sets.
finite and infinite sets
If the set is of finite order, that is, it has a finite number of elements, n, then the number of subsets is 2n.
One classification is: finite, countably infinite and uncountably infinite.