example

Use the graph to complete the table. Then state the domain and range of the relation.

Solution

domain = [latex]\{-4,-1,0,3,5,7\}[/latex] and range = [latex]\{-5,-3,0,2,4\}[/latex]

We only listed [latex]4[/latex] once because it is not necessary to list it every time it appears in the range.

example

Use the graph to state the domain and range of the relation. Then complete the table of values.

Solution

The domain is the set of all possible [latex]x[/latex]-values. In this graph the [latex]x[/latex]-values start at [latex]x=-3[/latex] and end at [latex]x=3[/latex]. Both end points are included in the domain. This set of values can be written using interval notation or using set-builder notation.

[latex]\text{Domain}:\left[-3,3\right][/latex] or [latex]\{x|-3≤x≤3,\;x\in\mathbb{R}\}[/latex].

The range is the set of all possible [latex]y[/latex]-values. In this graph the [latex]y[/latex]-values start at [latex]y=-3[/latex] and end at [latex]y=3[/latex]. Both end points are included in the range. This set of values can be written using interval notation or using set notation.

[latex]\text{Range}:\left[-3,3\right][/latex] or [latex]\{y|-3≤y≤3,\;y\in\mathbb{R}\}[/latex].

To complete the table we look for the points on the graph with the given [latex]x[/latex] or [latex]y[/latex] values.

Notice that this graph has an infinite number of lines of symmetry. A line of symmetry is any line that cuts the graph in half, with each half being a mirror image of the other. In a circle, every diameter is a line of symmetry.

example

Use the graph to state the domain and range of the relation. Then complete the table of values by identifying the points on the graph. In addition, describe any lines of symmetry.

Solution

The domain is the set of all possible [latex]x[/latex]-values. In this graph the [latex]x[/latex]-values start at [latex]x=-\infty[/latex] and end at [latex]x=\infty[/latex]. Since [latex]\infty[/latex] can never be reached, the end points are not included in the domain. This set of values can be written using interval notation or using set notation.

[latex]\text{Domain}:\left[-\infty,\infty\right][/latex] or [latex]\{x|-\infty≤x≤\infty,\;x\in\mathbb{R}\}[/latex].

The range is the set of all possible [latex]y[/latex]-values. In this graph the [latex]y[/latex]-values start at [latex]y=-4[/latex] and end at [latex]y=\infty[/latex]. The lowest value of [latex]y=-4[/latex] is included in the range, but [latex]y=\infty[/latex] is not. This set of values can be written using interval notation or using set notation.

[latex]\text{Range}:\left[-4,\infty\right)[/latex] or [latex]\{y|\;y≥-4,\;y\in\mathbb{R}\}[/latex].

To complete the table we look for the points on the graph with the given [latex]x[/latex]values.

This graph has the [latex]y-[/latex]axis as a line of symmetry.

Notice that this graph has three turning points: a local maximum of [latex]0[/latex] at [latex]x=0[/latex] and two local minima of [latex]-4[/latex] at [latex]x[/latex]-values close to [latex]-1.4[/latex] and [latex]1.4[/latex]. The exact [latex]x[/latex] values are impossible to tell from the graph. The local maximum of 0 is not the overall maximum of the graph, which is [latex]\infty[/latex]. Rather is it the maximum value in an area around [latex]x=0[/latex]. On the other hand, the local minima value of [latex]-4[/latex] is also the overall minimum value of the graph.