Find the area of the region that is outside the curve r = 2 and inside the curve r = 4 cos θ. Your work must include the integral, but you may use your calculator to find the area to 3 decimal places.

4π/3 + 2√3 ≈ 7.653

Step-by-step explanation:

Area between two polar curves is:

A = ∫ₐᵇ ½ (R² - r²) dθ

First, graph the curves. r = 2 is a circle with radius 2 and center (0,0). r = 4 cos θ is a circle with radius 2 and center (2,0).

Find where the curves intersect:

2 = 4 cos θ

1/2 = cos θ

θ = ±π/3

Between θ = - π/3 and θ = π/3, 4 cos θ > 2. So R = 4 cos θ and r = 2.

So the integral is:

A = ∫₋ᵖⁱ'³ ½ ((4 cos θ) ² - 2²) dθ

A = ∫₋ᵖⁱ'³ ½ (16 cos²θ - 4) dθ

A = ∫₋ᵖⁱ'³ (8 cos²θ - 2) dθ

Using symmetry, we can write this as:

A = 2 ∫₀ᵖⁱ'³ (8 cos²θ - 2) dθ

A = ∫₀ᵖⁱ'³ (16 cos²θ - 4) dθ

Use power reduction formula:

A = ∫₀ᵖⁱ'³ (8 + 8 cos (2θ) - 4) dθ

A = ∫₀ᵖⁱ'³ (4 + 8 cos (2θ)) dθ

Integrate:

A = (4θ + 4 sin (2θ)) |₀ᵖⁱ'³

A = (4π/3 + 4 sin (2π/3)) - (0 + 0)

A = 4π/3 + 2√3

A ≈ 7.653