Calculating the area between polar curves
Five steps for finding the area between polar curves
In order to calculate the area between two polar curves, we’ll
Find the points of intersection if the interval isn’t given
Graph the curves to confirm the points of intersection
For each enclosed region, use the points of intersection to find upper and lower limits of integration ???[\alpha,\beta]???
For each enclosed region, determine which curve is the outer curve and which is the inner
Plug this into the formula for area between curves,
???A=\int^{\beta}_{\alpha}\frac12\left(r^2_O-r^2_I\right)\ d\theta???
where ???[\alpha,\beta]??? is the interval that defines the area
where ???r_O??? is the outer curve
where ???r_I??? is the inner curve
Video example of how to calculate the area enclosed by two polar curves
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Finding the area between two polar curves
Example
Find the area between the polar curves.
???r=2???
???r=3+2\sin{\theta}???
Since the problem doesn’t give us an interval over which to evaluate the area, we’ll need to find the points of intersection of the curves. We’ll set the polar curves equal to each other and solve for ???\theta???.
???3+2\sin{\theta}=2???
???\sin{\theta}=-\frac12???
???\theta=\frac{7\pi}{6},\ \frac{11\pi}{6}???
We’ll graph the curves to confirm the points of intersection.
Based on the graph above, the area between curves is given by
???A_T=A_1+A_2???
where ???A_T??? is total area
where ???A_1??? is the larger section
where ???A_2??? is the smaller section
We always want to work in a counterclockwise direction, which means that, in order to find ???A_1??? and ???A_2???, we’ll use the intervals
However, we always need ???\alpha<\beta??? in our interval, so we’ll change the interval for ???A_1??? into its equivalent ???-\theta???, and we’ll get
We’ll also need to use the graph to indicate which curve is the outer curve and which is the inner curve. We’ll say
Now we can plug everything we’ve found into the area formula.
???A_T=A_1+A_2???
???A_T=\int_{-\frac{\pi}{6}}^{\frac{7\pi}{6}}\frac12\left[\left(3+2\sin{\theta}\right)^2-(2)^2\right]\ d\theta+\int_{\frac{7\pi}{6}}^{\frac{11\pi}{6}}\frac12\left[(2)^2-\left(3+2\sin{\theta}\right)^2\right]\ d\theta???
???A_T=\frac12\int_{-\frac{\pi}{6}}^{\frac{7\pi}{6}}\left(3+2\sin{\theta}\right)\left(3+2\sin{\theta}\right)-4\ d\theta+\frac12\int_{\frac{7\pi}{6}}^{\frac{11\pi}{6}}4-\left(3+2\sin{\theta}\right)\left(3+2\sin{\theta}\right)\ d\theta???
???A_T=\frac12\int_{-\frac{\pi}{6}}^{\frac{7\pi}{6}}9+12\sin{\theta}+4\sin^2{\theta}-4\ d\theta+\frac12\int_{\frac{7\pi}{6}}^{\frac{11\pi}{6}}4-\left(9+12\sin{\theta}+4\sin^2{\theta}\right)\ d\theta???
???A_T=\frac12\int_{-\frac{\pi}{6}}^{\frac{7\pi}{6}}4\sin^2{\theta}+12\sin{\theta}+5\ d\theta+\frac12\int_{\frac{7\pi}{6}}^{\frac{11\pi}{6}}4-9-12\sin{\theta}-4\sin^2{\theta}\ d\theta???
???A_T=\frac12\int_{-\frac{\pi}{6}}^{\frac{7\pi}{6}}4\sin^2{\theta}+12\sin{\theta}+5\ d\theta-\frac12\int_{\frac{7\pi}{6}}^{\frac{11\pi}{6}}4\sin^2{\theta}+12\sin{\theta}+5\ d\theta???
Since ???2\sin^2{\theta}=1-\cos{(2\theta)}???,
???A_T=\frac12\int_{-\frac{\pi}{6}}^{\frac{7\pi}{6}}2\left[1-\cos{(2\theta)}\right]+12\sin{\theta}+5\ d\theta-\frac12\int_{\frac{7\pi}{6}}^{\frac{11\pi}{6}}2\left[1-\cos{(2\theta)}\right]+12\sin{\theta}+5\ d\theta???
???A_T=\frac12\int_{-\frac{\pi}{6}}^{\frac{7\pi}{6}}2-2\cos{(2\theta)}+12\sin{\theta}+5\ d\theta-\frac12\int_{\frac{7\pi}{6}}^{\frac{11\pi}{6}}2-2\cos{(2\theta)}+12\sin{\theta}+5\ d\theta???
???A_T=\frac12\int_{-\frac{\pi}{6}}^{\frac{7\pi}{6}}12\sin{\theta}-2\cos{(2\theta)}+7\ d\theta-\frac12\int_{\frac{7\pi}{6}}^{\frac{11\pi}{6}}12\sin{\theta}-2\cos{(2\theta)}+7\ d\theta???
???A_T=\frac12\left[-12\cos{\theta}-\sin{(2\theta)}+7\theta\right]\bigg|_{-\frac{\pi}{6}}^{\frac{7\pi}{6}}-\frac12\left[-12\cos{\theta}-\sin{(2\theta)}+7\theta\right]\bigg|_{\frac{7\pi}{6}}^{\frac{11\pi}{6}}???
Evaluate over the interval.
???A_T=\frac12\left[-12\cos{\frac{7\pi}{6}}-\sin{\frac{14\pi}{6}}+7\left(\frac{7\pi}{6}\right)-\left[-12\cos{\left(-\frac{\pi}{6}\right)}-\sin{\left(-\frac{2\pi}{6}\right)}+7\left(-\frac{\pi}{6}\right)\right]\right]???
???-\frac12\left[-12\cos{\frac{11\pi}{6}}-\sin{\frac{22\pi}{6}}+7\left(\frac{11\pi}{6}\right)-\left[-12\cos{\frac{7\pi}{6}}-\sin{\frac{14\pi}{6}}+7\left(\frac{7\pi}{6}\right)\right]\right]???
???A_T=\frac12\left[-12\cos{\frac{7\pi}{6}}-\sin{\frac{7\pi}{3}}+\frac{49\pi}{6}-\left(-12\cos{\frac{11\pi}{6}}-\sin{\frac{5\pi}{6}}-\frac{7\pi}{6}\right)\right]???
???-\frac12\left[-12\cos{\frac{11\pi}{6}}-\sin{\frac{11\pi}{3}}+\frac{77\pi}{6}-\left(-12\cos{\frac{7\pi}{6}}-\sin{\frac{7\pi}{3}}+\frac{49\pi}{6}\right)\right]???
???A_T=\frac12\left(-12\cos{\frac{7\pi}{6}}-\sin{\frac{7\pi}{3}}+\frac{49\pi}{6}+12\cos{\frac{11\pi}{6}}+\sin{\frac{5\pi}{6}}+\frac{7\pi}{6}\right)???
???-\frac12\left(-12\cos{\frac{11\pi}{6}}-\sin{\frac{11\pi}{3}}+\frac{77\pi}{6}+12\cos{\frac{7\pi}{6}}+\sin{\frac{7\pi}{3}}-\frac{49\pi}{6}\right)???
???A_T=\frac12\left(-12\cos{\frac{7\pi}{6}}-\sin{\frac{7\pi}{3}}+12\cos{\frac{11\pi}{6}}+\sin{\frac{5\pi}{6}}+\frac{28\pi}{3}\right)???
???-\frac12\left(-12\cos{\frac{11\pi}{6}}-\sin{\frac{11\pi}{3}}+12\cos{\frac{7\pi}{6}}+\sin{\frac{7\pi}{3}}+\frac{14\pi}{3}\right)???
Simplify the trigonometric functions.
???A_T=\frac12\left[-12\left(-\frac{\sqrt{3}}{2}\right)-\frac{\sqrt{3}}{2}+12\left(\frac{\sqrt{3}}{2}\right)+\frac12+\frac{28\pi}{3}\right]???
???-\frac12\left[-12\left(\frac{\sqrt{3}}{2}\right)-\left(-\frac{\sqrt{3}}{2}\right)+12\left(\frac{\sqrt{3}}{2}\right)+\frac{\sqrt{3}}{2}+\frac{14\pi}{3}\right]???
???A_T=\frac12\left(\frac{6\sqrt{3}}{2}-\frac{\sqrt{3}}{2}+\frac{12\sqrt{3}}{2}+\frac12+\frac{28\pi}{3}\right)-\frac12\left(-\frac{12\sqrt{3}}{2}+\frac{\sqrt{3}}{2}+\frac{12\sqrt{3}}{2}+\frac{\sqrt{3}}{2}+\frac{14\pi}{3}\right)???
???A_T=\frac12\left(\frac{1+17\sqrt{3}}{2}+\frac{28\pi}{3}\right)-\frac12\left(\frac{2\sqrt{3}}{2}+\frac{14\pi}{3}\right)???
???A_T=\frac{1+17\sqrt{3}}{4}+\frac{28\pi}{6}-\frac{2\sqrt{3}}{4}-\frac{14\pi}{6}???
???A_T=\frac{1+15\sqrt{3}}{4}+\frac{14\pi}{6}???
???A_T=\frac{1+15\sqrt{3}}{4}+\frac{7\pi}{3}???
Find a common denominator.
???A_T=\frac{3+45\sqrt{3}}{12}+\frac{28\pi}{12}???
???A_T=\frac{28\pi+45\sqrt{3}+3}{12}???