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Write the Cartesian equation in polar form.
The goal is to eliminate and from the equation and introduce and Ideally, we would write the equation as a function of To obtain the polar form, we will use the relationships between and Since and we can substitute and solve for
Thus, and should generate the same graph. See [link] .
To graph a circle in rectangular form, we must first solve for
Note that this is two separate functions, since a circle fails the vertical line test. Therefore, we need to enter the positive and negative square roots into the calculator separately, as two equations in the form and Press GRAPH.
Rewrite the Cartesian equation as a polar equation.
This equation appears similar to the previous example, but it requires different steps to convert the equation.
We can still follow the same procedures we have already learned and make the following substitutions:
Therefore, the equations and should give us the same graph. See [link] .
The Cartesian or rectangular equation is plotted on the rectangular grid, and the polar equation is plotted on the polar grid. Clearly, the graphs are identical.
Rewrite the Cartesian equation as a polar equation.
We will use the relationships and
We have learned how to convert rectangular coordinates to polar coordinates, and we have seen that the points are indeed the same. We have also transformed polar equations to rectangular equations and vice versa. Now we will demonstrate that their graphs, while drawn on different grids, are identical.
Covert the polar equation to a rectangular equation, and draw its corresponding graph.
The conversion is
Notice that the equation drawn on the polar grid is clearly the same as the vertical line drawn on the rectangular grid (see [link] ). Just as is the standard form for a vertical line in rectangular form, is the standard form for a vertical line in polar form.
A similar discussion would demonstrate that the graph of the function will be the horizontal line In fact, is the standard form for a horizontal line in polar form, corresponding to the rectangular form
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