Problem 18 Test for symmetry and then graph... [FREE SOLUTION]

Chapter 7: Problem 18

Test for symmetry and then graph each polar equation. $$r=2-2 \cos \theta$$

Short Answer

Expert verified

The polar equation $r=2-2\cos\theta$ demonstrates symmetry about the x-axis but not about the y-axis or the origin. The graph represents a circle known as a cardioid with a minimum radius of 0 and a maximum radius of 2.

Step by step solution

Test for symmetry

First, test the given equation $r=2-2\cos\theta$ for symmetry. Replace $\theta$ with $-\theta$, $\theta$ with $(\pi-\theta)$, and $r$ with $-r$ respectively. If any of these substitutions gives the original equation, then there is symmetry according to the associated axis or origin.

Substitute $\theta$ with $-\theta$

Substitute $\theta$ with $-\theta$ for testing symmetry about the x-axis. The equation becomes $r=2-2\cos(-\theta)$. Because the cosine function is even, we know that $\cos(-\theta)=\cos\theta$, so the equation simplifies to $r=2-2\cos\theta$, which is the original equation. This implies symmetry about the x-axis.

Substitute $\theta$ with $(\pi-\theta)$

Now, substitute $\theta$ with $(\pi-\theta)$ in the original equation to test for symmetry about the y-axis. The given equation becomes $r=2-2\cos(\pi-\theta)$. But we know that $\cos(\pi-\theta)=-\cos\theta$, so the equation simplifies to $r=2+2\cos\theta$, which is not the original equation, therefore there is no symmetry about the y-axis.

Substitute $r$ with $-r$

Substitute $r$ with $-r$ in the original equation to test for symmetry about the origin, The equation becomes $-r=2-2\cos\theta$, which can also be written as $r=-2+2\cos\theta$. This is not the original equation, therefore there is no symmetry about the origin.

Graph the polar equation

The graph of the polar equation $r=2-2\cos\theta$ is a circle known as a cardioid. The circle is symmetrical about the x-axis (horizontal line). It has a minimum radius of 0 and a maximum radius of 2, with the maximum occurring at values $\theta = 0$ and $\theta = 2\pi$, and a minimum radius occurring at $\theta = \pi$. Due to symmetry about x-axis, we only need to graph for values from $\theta = 0$ to $\theta = \pi$ and the rest of the graph till $\theta = 2\pi$ will just be a reflection about x-axis.

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91影视

Test for symmetry and then graph each polar equation. $$r=2-2 \cos \theta$$

Short Answer

Step by step solution

Test for symmetry

Substitute \(\theta\) with \(-\theta\)

Substitute \(\theta\) with \((\pi-\theta)\)

Substitute \(r\) with \(-r\)

Graph the polar equation

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