Set up the iterated integral for evaluating SS S f(r,0,z) r dz dr de over the region D, D where D is the solid right cylinder whose base is a region in the xy-plane that lies inside the cardioid r = 4 + 4 cos 0 and outside the circle r = 4, and whose top lies in the plane z = 16.

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**Iterated Integral Evaluation:** Set up the iterated integral for evaluating \[ \iiint\limits_{D} f(r,\theta,z) \, r \, dz \, dr \, d\theta \] over the region \( D \), where \( D \) is the solid right cylinder whose base is a region in the xy-plane that lies inside the cardioid \( r = 4 + 4 \cos \theta \) and outside the circle \( r = 4 \), and whose top lies in the plane \( z = 16 \). **Diagram Explanation:** The diagram illustrates a solid right cylinder \( D \) with the following features: - The base of the cylinder is located on the xy-plane. - The region of the base is bounded between two curves: 1. Inside the cardioid described by the polar equation \( r = 4 + 4 \cos \theta \). 2. Outside the circle described by \( r = 4 \). - The top of the cylinder is flat and lies on the plane \( z = 16 \). - The height of the cylinder from the base to the top is 16 units. - The three-dimensional view places the cylinder between the x, y, and z axes, indicating the spatial boundaries discussed in the description. This setup involves integrating a given function \( f(r,\theta,z) \) over the defined cylindrical region \( D \) using the cylindrical coordinate system, where \( r \), \( \theta \), and \( z \) denote the radial distance, angle, and height, respectively.

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The problem involves finding the spherical coordinate limits to calculate the volume of the solid located between the sphere described by \( \rho = 3 \cos \phi \) and the hemisphere described by \( \rho = 4 \), with \( z \geq 0 \). ### Part a: Find the spherical coordinate limits for the integral: - **Sphere Equation:** \( \rho = 3 \cos \phi \) - **Hemisphere Equation:** \( \rho = 4 \) - **Condition:** \( z \geq 0 \) ### Part b: Evaluate the integral with the limits found to determine the volume of the solid. ### Diagram Explanation: The diagram represents a three-dimensional coordinate system with: - **Axes:** \( x, y, \) and \( z \). - **Spherical Surface:** Represented by concentric curves; the outer curve indicates the hemisphere \( \rho = 4 \). - **Inner Surface:** Represented by the sphere \( \rho = 3 \cos \phi \). - The shaded region between the inner and outer surfaces is the volume of interest. The task requires using spherical coordinates to define and solve the integral for this specific volume.