Question Which of the following is the best method to find the volume of the solid of revolution obtained by rotating the bounded by the graph of \( y=7 \sqrt{x+5} \), the \( x \)-axis, the \( y \)-axis, and the line \( x=4 \) about the line \( y=-8 \) ?

To determine the volume of the solid formed by rotating the given region about the line \( y = -8 \), we can utilize the washer method. This involves calculating the outer radius (distance from the curve to \( y = -8 \)) and the inner radius (distance from the x-axis to \( y = -8 \)). The volume can then be found through the integral of the area of the washers from the bounds \( x = -5 \) to \( x = 4 \). Don’t forget to account for the position of the line to ensure the correct dimensions for the radii. To visualize the problem, sketching the area bounded by the graph, the axes, and the line \( x = 4 \) can be tremendously helpful! As you rotate this area, it’s easier to see how the different parts contribute to the overall volume. Plus, having a graph in front of you can aid in ensuring you’ve set up your integrals correctly. Happy calculating!