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The positive integers less than 100 are a finite set.

The positive integers greater than 100 are an infinite set.

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sets

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

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.

The set of your friends is finite. The set of counting numbers (part of which you will use to count your friends) is infinite.

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.

Some finite numbers in a set: the number of digits on your hand, the number of seats on a bus, and the number of people on earth. Some infinite numbers in a set: the number of positive integers and the number of digits in pi.

Finite sets:The counting numbers up to 10{1, 2, 3}The integer factors of 48The members of my immediate familyThe people on EarthThe grains of sand on planet EarthCountable infinite sets:The set of integersThe set of prime numbersThe set of square numbersThe set of rational numbersUncountable infinite sets:The set of real numbersThe set of complex numbers

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.

AnswerExamples of finite resources are things like oil, gas and coal: a resource that will run out.LIMITED IN SUPPLY(NOVA NEt)

Sets are collection of distinct objects. In mathematics there are different types of sets like Finite set, Infinite set, Universal set, subset, equal set, equivalent set. Example of Finite set {1,2,3,4}. Infinite set:{1,2,3....}.

One classification is: finite, countably infinite and uncountably infinite.

Finite, countably infinite and uncountably infinite.

This is called a discrete set (all points isolated) or a finite set. Finite sets are always discrete.

It is a measure, but it isn't always sigma-finite. Take your space X = [0,1], and u = counting measure if u(E) < infinity, then E is a finite set, but there is no way to cover the uncountable set [0,1] by a countable collection of finite sets.

oil, gas, and coal

There are any number of finite sets. Some are: the number of seats on a bus, the number of bees in a hive, and the number grains of rice in a ton of the grain.

There 8 different types of sets:Finite and Infinite setsEmpty setsSingleton setsEquivalent setsEqual setsIntersecting, Overlapping or Joint setsDisjoint setsThere are 2 more sets in the 8th sets:8. Universal set, Supersets and SubsetsProper SubsetsComplement of a setj

A finite set is one containing a finite number of distinct elements. The elements can be put into a 1-to-1 relationship with a proper subset of counting numbers. An infinite set is one which contains an infinite number of elements.

The number of elements in a Cartesian product is equal to the product in the number of elements of each set. The idea of a Cartesian product is that you combine each element from set A with each element from set B. If the product set (the Cartesian product) of sets A and B has a finite number of elements, this may be due to the fact that both A and B are finite. However, there is another possibility: that one of the sets, for example, set A, has zero elements, and the other is infinite. In this case, the Cartesian product would also have zero elements.