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The sets of natural numbers, even numbers, odd numbers, prime numbers, rational numbers, Irrational Numbers, algebraic numbers, trascendental numbers, complex numbers, the sets of points in an euclidean space, etc.

The sets of natural numbers, even numbers, odd numbers, prime numbers, rational numbers, irrational numbers, algebraic numbers, trascendental numbers, complex numbers, the sets of points in an euclidean space, etc.

The sets of natural numbers, even numbers, odd numbers, prime numbers, rational numbers, irrational numbers, algebraic numbers, trascendental numbers, complex numbers, the sets of points in an euclidean space, etc.

The sets of natural numbers, even numbers, odd numbers, prime numbers, rational numbers, irrational numbers, algebraic numbers, trascendental numbers, complex numbers, the sets of points in an euclidean space, etc.

Q: Can you give me an example of an infinite set?

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Yes. For example, the set of odd natural numbers is a infinite subset of the set of integers.

In mathematics, a finite set is a set that has a finite number of elements. For example, (2,4,6,8,10) is a finite set with five elements. The number of elements of a finite set is a natural number (non-negative integer), and is called the cardinality of the set. A set that is not finite is called infinite. For example, the set of all positive integers is infinite: (1,2,3,4, . . .)

A finite set has a finite number of elements, an infinite set has infinitely many.

The answers to your question are infinite. Taken literally, the color orange is a non-example, as well as bicycles and spoons. In mathematics, the infinite set of whole numbers are not percentages, as well as quadratic equations and exponents.

Countably infinite means you can set up a one-to-one correspondence between the set in question and the set of natural numbers. It can be shown that no such relationship can be established between the set of real numbers and the natural numbers, thus the set of real numbers is not "countable", but it is infinite.

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Yes. For example, the set of odd natural numbers is a infinite subset of the set of integers.

example of infinite set

I have never heard of *"indefinite set" but an infinite sat is a set which had infinite members.An example of an Infinite Set is:the set of Natural Numbers{1, 2, 3, ...}there are also undefined sets...

A set is infinite if it has infinitely many elements in it.

Set is a well defined collection of objects. By the number of elements in the set, it can be classified into two as 1.Finite set 2. Infinite set. Example for finite set:{1,2,3,4,5...10}.Example for Infinite set:{1,2,3,4,.....}

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....}.

No, because it is possible to count all the animals in the world

The set of integers is an infinite set as there are an infinite number of integers.

In mathematics, a finite set is a set that has a finite number of elements. For example, (2,4,6,8,10) is a finite set with five elements. The number of elements of a finite set is a natural number (non-negative integer), and is called the cardinality of the set. A set that is not finite is called infinite. For example, the set of all positive integers is infinite: (1,2,3,4, . . .)

A subset of some set X is, by definition, any set whose elements are entirely contained in X. So the answer is yes. As an example, take your infinite set, and select 3 or 10 or any finite number of your favorite elements in this set. The set of your chosen elements is a finite subset of the infinite set.

Even in math, the word "infinite" has different meanings in different contexts. Infinite sets include the set of natural numbers, the set of integers, the set of rational numbers, the set of irrational numbers, the set of real numbers, and the set of complex numbers.

No. It can be infinite, finite or null. The set of odd integers is infinite, the set of even integers is infinite. Their intersection is void, or the null set.