How do you graph the polar equation $r=1.5theta$ ?

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Answer 1 · 2017-07-20T22:35:44

Polar equations vary $r$ as $theta$ cycles counterclockwise through from $0$ to $2pi$ , $2pi - 4pi$ , etc.

$r = 1.5theta$

This equation has $r$ increase by $1.5$ for every $1$ radian that we pass through ( $(180/pi)^@$ ). If $r = theta$ , we would have gotten a spiral.

Here, with $r = 1.5theta$ in $[0,8pi]$ , we just have a bigger spiral:

![http://www.wolframalpha.com/]( useruploads.socratic.org )

For example, if you look at $theta = pi/2$ , you should see

$r = 1.5 xx pi/2 ~~ ul2.35$ on the vertical axis.

If we pass through $pi/2$ radians, we move to

$r = 1.5 xx (pi/2 + pi/2) => ul(-4.71)$ on the horizontal axis

If we pass through $(3pi)/2$ radians, we move to

$r = 1.5 xx (pi/2 + pi) => ul(-7.07)$ on the vertical axis.

If we pass through $2pi$ radians, we move up to

$r = 1.5 xx (pi/2 + (3pi)/2) ~~ ul9.42$ on the horizontal axis.

Then, if we pass through $(5pi)/2$ radians, we move up to

$r = 1.5 xx (pi/2 + 2pi) ~~ ul11.78$ on the vertical axis.

Once you have those major points, connect them in a spiral.

How do you graph the polar equation r=1.5thetar=1.5theta?