What is the area inside the polar curve r=1r=1, but outside the polar curve r=2costhetar=2cosθ?
1 Answer
A = pi/3 + sqrt(3)/2 ~~ 1.9132 A=π3+√32≈1.9132
Explanation:
Here is the graph of the two curves. The shaded area,
This is a symmetrical problems so we only need find the shaded area,
We can find the polar coordinate of the point of intersection in Q1 by simultaneously solving the polar equations:
r=2cos theta r=2cosθ
r=1 r=1
From which we get:
2cos theta = 1 =>cos theta = 1/22cosθ=1⇒cosθ=12
:. theta = pi/3
So we can easily calculate the area,
The area,
A_C = 1/2 * 1 * pi/3
\ \ \ \ \ = pi/6
And we calculate the area of the segment
A = int \ 1/2r^2 \ d theta
Thus:
A_D = int_(pi/3)^(pi/2) \ 1/2(2costheta)^2 \ d theta
\ \ \ \ \ = int_(pi/3)^(pi/2) \ 1/2 \ 4cos^2 theta \ d theta
\ \ \ \ \ = 2int_(pi/3)^(pi/2) \ cos^2 theta \ d theta
\ \ \ \ \ = 2int_(pi/3)^(pi/2) \ 1/2(cos2theta+1) \ d theta
\ \ \ \ \ = int_(pi/3)^(pi/2) \ cos2theta+1 \ d theta
\ \ \ \ \ = [1/2sin2theta + theta]_(pi/3)^(pi/2)
\ \ \ \ \ = (1/2sin(pi)+pi/2) - (1/2sin((2pi)/3)+pi/3)
\ \ \ \ \ = (0+pi/2) - (1/2 sqrt(3)/2+pi/3)
\ \ \ \ \ = pi/2 - sqrt(3)/4-pi/3
\ \ \ \ \ = pi/6 - sqrt(3)/4
So then the total area we require, is given by:
A_A = pi(1)^2 - 2(A_C+A_D)
\ \ \ \ \ = pi - 2(pi/6 + pi/6 - sqrt(3)/4)
\ \ \ \ \ = pi - 2(pi/3 - sqrt(3)/4)
\ \ \ \ \ = pi - (2pi)/3 + (2sqrt(3))/4
\ \ \ \ \ = pi/3 + sqrt(3)/2
