The graph shows r = f(0) (solid) and r = g(0) (dashed), both graphed in polar coordinates. B ㅠ The points indicated are at A = [2, 4], B = = [5, ], and C = [7,0]. Select the integral(s) necessary to find the area of the shaded region. * 12 (10) ² - 1 (0)²) de (1/1² - 19(0)1²) de S³* ½ (1ƒ(0)1²ª – [9(0)1²) do 5 ¯[³ (ƒ(0) — 9(0))de /* $ 150.00 of v (f(0) - g(0))do

Q2 Need help. Please explain

Transcribed Image Text:

The image displays a graph with two polar curves: \( r = f(\theta) \) (solid line) and \( r = g(\theta) \) (dashed line). These curves are plotted in polar coordinates. Key Points on the Graph: - Point \( A \) is located at \( \left[ 2, \frac{\pi}{2} \right] \). - Point \( B \) is located at \( \left[ 5, \frac{\pi}{7} \right] \). - Point \( C \) is located at \( [7, 0] \). There is a shaded region between the two curves, and the task is to select the integral or integrals necessary to find the area of this shaded region. Options for the Integral(s): - \( \int_{2}^{\frac{\pi}{2}} \frac{1}{2} \left( [f(\theta)]^2 - [g(\theta)]^2 \right) \, d\theta \) - \( \int_{5}^{2} \frac{1}{2} \left( [f(\theta)]^2 - [g(\theta)]^2 \right) \, d\theta \) - \( \int_{2}^{\frac{\pi}{7}} \frac{1}{2} \left( [f(\theta)]^2 - [g(\theta)]^2 \right) \, d\theta \) - \( \int_{2}^{5} \left( f(\theta) - g(\theta) \right) d\theta \) - \( \int_{2}^{\frac{\pi}{2}} \frac{1}{2} [f(\theta)]^2 \, d\theta \) - \( \int_{2}^{7} \left( f(\theta) - g(\theta) \right) d\theta \) The graph visually guides how the polar curves intersect and enclose a region, which is significant for setting up the integral for evaluating the area.