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10.1: Graphs of Functions
https://math.libretexts.org/Courses/Cosumnes_River_College/Corequisite_Codex/10%3A_Graphing_Functions/10.01%3A_Graphs_of_Functions
An ordered pair $(x,y)$ is a solution of a linear equation, if the equation is a true statement when the x- and y-values of the ordered pair are substituted into the equation. The graph of a linear ...An ordered pair $(x,y)$ is a solution of a linear equation, if the equation is a true statement when the x- and y-values of the ordered pair are substituted into the equation. The graph of a linear equation is a straight line where every point on the line is a solution of the equation and every solution of this equation is a point on this line. To find the domain we look at the graph and find all the values of x that correspond to a point on the graph.
16.3: Graphs of Functions
https://math.libretexts.org/Courses/Las_Positas_College/Foundational_Mathematics/16%3A_Introduction_to_Functions/16.03%3A_Graphs_of_Functions
An ordered pair $(x,y)$ is a solution of a linear equation, if the equation is a true statement when the x- and y-values of the ordered pair are substituted into the equation. The graph of a linear ...An ordered pair $(x,y)$ is a solution of a linear equation, if the equation is a true statement when the x- and y-values of the ordered pair are substituted into the equation. The graph of a linear equation is a straight line where every point on the line is a solution of the equation and every solution of this equation is a point on this line. To find the range we look at the graph and find all the values of y that correspond to a point on the graph.
3.6: Graphs of Functions
https://math.libretexts.org/Courses/Monroe_Community_College/MTH_104_Intermediate_Algebra/3%3A_Graphs_and_Functions/3.7%3A_Graphs_of_Functions
An ordered pair $(x,y)$ is a solution of a linear equation, if the equation is a true statement when the x- and y-values of the ordered pair are substituted into the equation. The graph of a linear ...An ordered pair $(x,y)$ is a solution of a linear equation, if the equation is a true statement when the x- and y-values of the ordered pair are substituted into the equation. The graph of a linear equation is a straight line where every point on the line is a solution of the equation and every solution of this equation is a point on this line. To find the domain we look at the graph and find all the values of x that correspond to a point on the graph.
2.6: Graphs of Functions
https://math.libretexts.org/Courses/Mission_College/Math_C%3A_Intermediate_Algebra_(Carr)/02%3A_Graphs_and_Functions/2.06%3A_Graphs_of_Functions
An ordered pair $(x,y)$ is a solution of a linear equation, if the equation is a true statement when the x- and y-values of the ordered pair are substituted into the equation. The graph of a linear ...An ordered pair $(x,y)$ is a solution of a linear equation, if the equation is a true statement when the x- and y-values of the ordered pair are substituted into the equation. The graph of a linear equation is a straight line where every point on the line is a solution of the equation and every solution of this equation is a point on this line. To find the domain we look at the graph and find all the values of x that correspond to a point on the graph.
6.11: The Toolbox Functions
https://math.libretexts.org/Courses/Highline_College/Math_081_091%3A_CAM_Aligned_Textbook/06%3A_Linear_Equations_and_Functions/6.11%3A_The_Toolbox_Functions
The graph of a linear equation is a straight line where every point on the line is a solution of the equation and every solution of this equation is a point on this line. To find the domain we look at...The graph of a linear equation is a straight line where every point on the line is a solution of the equation and every solution of this equation is a point on this line. To find the domain we look at the graph and find all the values of x that correspond to a point on the graph. To find the range we look at the graph and find all the values of y that correspond to a point on the graph.
3.4: The Toolbox Functions
https://math.libretexts.org/Courses/Highline_College/Math_091%3A_Essentials_of_Intermediate_Algebra/03%3A_Functions/3.04%3A_The_Toolbox_Functions
The graph of a linear equation is a straight line where every point on the line is a solution of the equation and every solution of this equation is a point on this line. To find the domain we look at...The graph of a linear equation is a straight line where every point on the line is a solution of the equation and every solution of this equation is a point on this line. To find the domain we look at the graph and find all the values of x that correspond to a point on the graph. To find the range we look at the graph and find all the values of y that correspond to a point on the graph.
4.4: The Toolbox Functions
https://math.libretexts.org/Courses/Highline_College/Math_084__Intermediate_Algebra_Foundations_for_Soc_Sci_Lib_Arts_and_GenEd/04%3A_Functions/4.04%3A_The_Toolbox_Functions
An ordered pair $(x,y)$ is a solution of a linear equation, if the equation is a true statement when the x- and y-values of the ordered pair are substituted into the equation. The graph of a linear ...An ordered pair $(x,y)$ is a solution of a linear equation, if the equation is a true statement when the x- and y-values of the ordered pair are substituted into the equation. The graph of a linear equation is a straight line where every point on the line is a solution of the equation and every solution of this equation is a point on this line. To find the domain we look at the graph and find all the values of x that correspond to a point on the graph.
5.7: Graphs of Functions
https://math.libretexts.org/Courses/Coastline_College/Math_C045%3A_Beginning_and_Intermediate_Algebra_(Tran)/05%3A_Graphs_and_Functions/5.07%3A_Graphs_of_Functions
An ordered pair $(x,y)$ is a solution of a linear equation, if the equation is a true statement when the x- and y-values of the ordered pair are substituted into the equation. The graph of a linear ...An ordered pair $(x,y)$ is a solution of a linear equation, if the equation is a true statement when the x- and y-values of the ordered pair are substituted into the equation. The graph of a linear equation is a straight line where every point on the line is a solution of the equation and every solution of this equation is a point on this line. To find the domain we look at the graph and find all the values of x that correspond to a point on the graph.
3.7: Graphs of Functions
https://math.libretexts.org/Workbench/Intermediate_Algebra_2e_(OpenStax)/03%3A_Graphs_and_Functions/3.07%3A_Graphs_of_Functions
The graph of the function is the graph of all ordered pairs ( x , y ) ( x , y ) where y = f ( x ) . y = f ( x ) . So we can write the ordered pairs as ( x , f ( x ) ) . ( x , f ( x ) ) . It looks diff...The graph of the function is the graph of all ordered pairs ( x , y ) ( x , y ) where y = f ( x ) . y = f ( x ) . So we can write the ordered pairs as ( x , f ( x ) ) . ( x , f ( x ) ) . It looks different but the graph will be the same. The graph of a function is the graph of all its ordered pairs, ( x , y ) ( x , y ) or using function notation, ( x , f ( x ) ) ( x , f ( x ) ) where y = f ( x ) . y = f ( x ) .

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