Evaluate the integral. Then sketch the solid whose volume is given by the integral. T/6 • T/2 1 p² sin(@) dp d0 do Jo Jo

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**Title: Evaluating a Triple Integral and Sketching the Corresponding Solid** **Problem Statement:** Evaluate the given triple integral. Then, sketch the solid whose volume is represented by the integral. \[ \int_{0}^{\pi/6} \int_{0}^{\pi/2} \int_{0}^{1} \rho^2 \sin(\phi) \, d\rho \, d\theta \, d\phi \] **Instructions:** 1. Solve the triple integral step by step. 2. Interpret the bounds and the integrand to understand the region of integration. 3. Sketch the solid described by the given integral. **Solution Outline:** **Step 1: Determine the Integral in Spherical Coordinates** The given integral is in spherical coordinates \((\rho, \theta, \phi)\), where: - \(\rho\) is the radial distance, - \(\theta\) is the azimuthal angle (ranging from \(0\) to \(2\pi\)), - \(\phi\) is the polar angle (ranging from \(0\) to \(\pi\)). The volume element in spherical coordinates is \(dV = \rho^2 \sin(\phi) \, d\rho \, d\theta \, d\phi\). **Step 2: Evaluate the Inner Integral with Respect to \(\rho\)** \[ \int_{0}^{1} \rho^2 \, d\rho \] \[ = \left[ \frac{\rho^3}{3} \right]_{0}^{1} = \frac{1^3}{3} - 0 = \frac{1}{3} \] **Step 3: Evaluate the Middle Integral with Respect to \(\theta\)** \[ \int_{0}^{\pi/2} d\theta \] \[ = \left[ \theta \right]_{0}^{\pi/2} = \frac{\pi}{2} - 0 = \frac{\pi}{2} \] **Step 4: Evaluate the Outer Integral with Respect to \(\phi\)** \[ \int_{0}^{\pi/6} \sin(\phi) \, d\phi \] \[ = \left[ -\cos(\phi) \right]_{0}^{\pi