# How to Graph Polar Equations on the TI-83 Plus

After you’ve entered the polar equations into the TI-83 Plus graphing calculator, you can use the following steps to graph the equations. The first line in the Y= editor tells you the graphing status of the Stat Plots.

Turn off any Stat Plots that you don’t want to appear in the graph of your polar equations.

If

**Plot1**,**Plot2**, or**Plot3**is highlighted, then that Stat Plot will be graphed along with the graph of your polar equations. If it’s not highlighted, it won’t be graphed.To turn off a highlighted Stat Plot in the Y= editor, use the

keys to place the cursor on the highlighted Stat Plot and then press

**[ENTER]**. The same process is used to rehighlight the Stat Plot in order to graph it at a later time.Press [2nd][ZOOM] to access the Format menu.

Set the format for the graph by using the

**keys to place the cursor on the desired format and then press [ENTER].**The first line of the Format menu when the calculator is in Polar mode gives you a choice between having points on the graph displayed in (

*x*,*y*) rectangular form or inpolar form. When graphing polar equations, there is no harm in leaving these remaining items highlighted.

Press [WINDOW] to access the Window editor.

After each of the first three window variables, enter a numerical value that is appropriate for the polar equations you’re graphing. Press [ENTER] after entering each number.

If you know the dimensions of the viewing window required for your graph, go ahead and assign numerical values to the remaining variables in the Window editor and advance to Step 8. If you don’t know the minimum and maximum

*x*and*y*values required for your graph, the next step tells you how to get the calculator to find them for you.Press [ZOOM][0] to access ZoomFit.

After you’ve assigned values to

**ZoomFit**determines appropriate values for**Xmin**,**Xmax**,**Ymin**, and**Ymax**and graphs your polar equations. However,**ZoomFit**graphs the polar equations in the smallest possible viewing window and does not assign appropriate values to**Xscl**and**Yscl**.If you like the way the graph looks, then you can skip the remaining steps. If you’d like spruce up the graph, Step 7 offers some pointers.

Press [WINDOW] and adjust the values assigned to the X and Y settings. Press [ENTER] after entering each new number.

Here are some pointers on how to readjust the viewing window after using

**ZoomFit**:**Xmin and Xmax:**If you don’t want the graph to hit the left and right sides of the screen, decrease the value assigned to**Xmin**and increase the value assigned to**Xmax**. If you want to see the*y*-axis on the graph, assign values to**Xmin**and**Xmax**so that zero is strictly between these two values.**Xscl:**Set this equal to a value that doesn’t make the*x*-axis look like railroad tracks — that is, an axis with far too many tick marks. Twenty or fewer tick marks makes for a nice looking axis.**Ymin and Ymax:**If you don’t want the graph to hit the top and bottom of the screen, decrease the value assigned to**Ymin**and increase the value assigned to**Ymax**. If you want to see the*x*-axis on the graph, assign values to**Ymin**and**Ymax**so that zero is strictly between these two values.**Yscl:**Set this equal to a value that doesn’t make the*y*-axis look like railroad tracks. Fifteen or fewer tick marks is a nice number for the*y*-axis.

Press [GRAPH] to regraph the polar equations.

After you’ve graphed your polar equations, you can draw lines and functions on the graph. You can also write text on the graph. And you can save a picture of the graph and the drawings.