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Study Guides > College Algebra CoRequisite Course

Find Domain and Range From a Graph

Learning Outcome

  • Define the domain of linear, quadratic, radical, and rational functions from graphs
Finding domain and range of different functions is often a matter of asking yourself, what values can this function not have? Pictures make it easier to visualize what the domain and range are, so we will show how to define the domain and range of functions given their graphs. What are the domain and range of the real-valued function [latex]f(x)=x+3[/latex]? This is a linear function. Remember that linear functions are lines that continue forever in each direction. Line for f(x)=x+3 Any real number can be substituted for x and get a meaningful output. For any real number, you can always find an x value that gives you that number for the output. Unless a linear function is a constant, such as [latex]f(x)=2[/latex], there is no restriction on the range. The domain and range are all real numbers. For the examples that follow, try to figure out the domain and range of the graphs before you look at the answer.

Example

What are the domain and range of the real-valued function [latex]f(x)=−3x^{2}+6x+1[/latex]? Downward-opening parabola with vertex of 1, 4.

Answer: This is a quadratic function. There are no rational (divide by zero) or radical (negative number under a root) expressions, so there is nothing to restrict from the domain. Any real number can be used for x to get a meaningful output. Because the coefficient of [latex]x^{2}[/latex] is negative, it will open downward. With quadratic functions, remember that there is either a maximum (greatest) value or a minimum (least) value. In this case, there is a maximum value. The vertex, or high point, is at ([latex]1, 4[/latex]). From the graph, you can see that [latex]f(x)\leq4[/latex]. The domain is all real numbers, and the range is all real numbers [latex]f(x)[/latex] such that [latex]f(x)\leq4[/latex].

Example

What is the domain and range of the real-valued function [latex]f(x)=-2+\sqrt{x+5}[/latex]? Radical function stemming from negative 5, negative 2.

Answer: This is a radical function. The domain of a radical function is any x value for which the radicand (the value under the radical sign) is not negative. That means [latex]x+5\geq0[/latex], so [latex]x\geq−5[/latex]. Since the square root must always be positive or [latex]0[/latex], [latex] \displaystyle \sqrt{x+5}\ge 0[/latex]. That means [latex] \displaystyle -2+\sqrt{x+5}\ge -2[/latex]. The domain is all real numbers x where [latex]x\geq−5[/latex], and the range is all real numbers [latex]f(x)[/latex] such that [latex]f(x)\geq−2[/latex].

Example

What is the domain of the real-valued function [latex] \displaystyle f(x)=\frac{3x}{x+2}[/latex]? Rational function

Answer: This is a rational function. The domain of a rational function is restricted where the denominator is [latex]0[/latex]. In this case, [latex]x+2[/latex] is the denominator, and this is [latex]0[/latex] only when [latex]x=−2[/latex]. The domain is all real numbers except [latex]−2[/latex]  

In the following video we show how to define the domain and range of functions from their graphs. https://youtu.be/QAxZEelInJc

Summary

Although a function may be given as “real valued,” it may be that the function has restrictions to its domain and range. There may be some real numbers that cannot be part of the domain or part of the range. This is particularly true with rational and radical functions which can have restrictions to their domain, range, or both. Other functions, such as quadratic functions and polynomial functions of even degree, can also have restrictions to their range.

Licenses & Attributions

CC licensed content, Original

CC licensed content, Shared previously

  • Ex 1: Determine the Domain and Range of the Graph of a Function. Authored by: James Sousa (Mathispower4u.com) . License: CC BY: Attribution.
  • Unit 17: Functions, from Developmental Math: An Open Program. Provided by: Monterey Institute of Technology and Education Located at: https://www.nroc.org/. License: CC BY: Attribution.