- #1
Kawrae
- 46
- 0
The problem is to find the area of r = 4cos3θ.
I know the formula for finding the area in polar coordinates is ∫ (from α to β) ½r²dθ.
I substituted into this formula the given equation and got:
A = ½ ∫ (from 0 to 2π) (4cos3θ)²dθ
= ½ ∫ (from 0 to 2π) (16cos²9θ)dθ
= 8 [(9/2)θ + (9/4)sin18θ) |(2π - 0)]
= 8 (9π + 0)
= 72π
This answer seems really high and the answer in the books gives an answer of 4π... can someone help show me where exactly I am messing up? Thanks :)
I know the formula for finding the area in polar coordinates is ∫ (from α to β) ½r²dθ.
I substituted into this formula the given equation and got:
A = ½ ∫ (from 0 to 2π) (4cos3θ)²dθ
= ½ ∫ (from 0 to 2π) (16cos²9θ)dθ
= 8 [(9/2)θ + (9/4)sin18θ) |(2π - 0)]
= 8 (9π + 0)
= 72π
This answer seems really high and the answer in the books gives an answer of 4π... can someone help show me where exactly I am messing up? Thanks :)