suspended on the rod of length 0.47 m and mass 0.46 kg as it is shown in the figure. System can rotate around uppermost point. A bullet of mass 0.02 kg strikes the sphere as it shown in the figure (aiming directly to the center of the sphere) and embeds. Find minimum velocity of bullet which allows this system to just clear the top.

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**Problem Statement:** A sphere of mass 0.9 kg and radius 0.23 m is suspended on a rod of length 0.47 m and mass 0.46 kg as it is shown in the figure. The system can rotate around the uppermost point. A bullet of mass 0.02 kg strikes the sphere as it is shown in the figure (aiming directly to the center of the sphere) and embeds. Find the minimum velocity of the bullet which allows this system to just clear the top. **Diagram Description:** The diagram shows a sphere attached to a vertical rod. The rod has a length, denoted by \( l \). The diagram also shows a bullet with mass \( m \) and velocity \( v_0 \) striking the center of the sphere. The path of the bullet is represented by a dashed line pointing directly toward the sphere. **Question:** Provide a numeric answer for the minimum velocity \( v_0 \) of the bullet required for the system to just clear the top. Write your answer in the provided space. **Instructions:** Type the numeric answer in the space below.