Difference between revisions of "Domain of a Function"

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The domain of a function f can be thought of as the set of all x values that can be plugged into f(x) that return a valid output. For example, if we have a function g in the Cartesian plane, the domain is all of the x values such that g(x) is a real number.
 
The domain of a function f can be thought of as the set of all x values that can be plugged into f(x) that return a valid output. For example, if we have a function g in the Cartesian plane, the domain is all of the x values such that g(x) is a real number.
  
Examples:  
+
Examples for functions in the Cartesian plane:  
 
* The domain of <math> f(x) = x^2 </math> is all real numbers, since <math> x^2 </math> is real for all real numbers <math> x </math>.
 
* The domain of <math> f(x) = x^2 </math> is all real numbers, since <math> x^2 </math> is real for all real numbers <math> x </math>.
 
* The domain of <math> g(x) = 1/x </math> is all real numbers EXCEPT 0, since 1/0 is not defined.
 
* The domain of <math> g(x) = 1/x </math> is all real numbers EXCEPT 0, since 1/0 is not defined.
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==Resources and Examples==
 
==Resources and Examples==
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* [https://en.wikipedia.org/wiki/Domain_of_a_function Domain of a Function], Wikipedia

Revision as of 13:03, 14 September 2021

Definition

In mathematics, the domain or set of departure of a function is the set into which all of the input of the function is constrained to fall. It is the set X in the notation f: X → Y, and is alternatively denoted as dom(f). Since a (total) function is defined on its entire domain, its domain coincides with its domain of definition. However, this coincidence is no longer true for a partial function, since the domain of definition of a partial function can be a proper subset of the domain.

A domain is part of a function f if f is defined as a triple (X, Y, G), where X is called the domain of f, Y its codomain, and G its graph.

A domain is not part of a function f if f is defined as just a graph. For example, it is sometimes convenient in set theory to permit the domain of a function to be a proper class X, in which case there is formally no such thing as a triple (X, Y, G). With such a definition, functions do not have a domain, although some authors still use it informally after introducing a function in the form f: X → Y.

For instance, the domain of cosine is the set of all real numbers, while the domain of the square root consists only of numbers greater than or equal to 0 (ignoring complex numbers in both cases).

If the domain of a function is a subset of the real numbers and the function is represented in a Cartesian coordinate system, then the domain is represented on the x-axis.

The domain of a function f can be thought of as the set of all x values that can be plugged into f(x) that return a valid output. For example, if we have a function g in the Cartesian plane, the domain is all of the x values such that g(x) is a real number.

Examples for functions in the Cartesian plane:

  • The domain of is all real numbers, since is real for all real numbers .
  • The domain of is all real numbers EXCEPT 0, since 1/0 is not defined.
  • The domain of is the set , since is only defined when is nonnegative (that is, when is greater than or equal to 0).

Resources and Examples