4. A solid cylinder (radius = 15.0 cm, height = 16.0 cm) has a mass of 9.61 kg. This cylinder is floating in water. Then oil (density = 725 kg/m³) is poure on top of the water until the situation shown in the drawing results. How much of the height of the cylinder is in the water? cm

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**Problem 4:**

A solid cylinder with a radius of 15.0 cm and a height of 16.0 cm has a mass of 9.61 kg. This cylinder is floating in water. Oil with a density of 725 kg/m³ is poured on top of the water, creating the situation shown in the diagram. How much of the height of the cylinder is submerged in the water?

**Diagram Explanation:**

The diagram illustrates a cross-sectional view of a container with two different liquids and a solid cylinder. The bottom half of the cylinder is submerged in water, and the top half is in oil. The oil layer rests on the water, showing a clear distinction between the two liquids. The boundaries of the liquid layers are marked, indicating the buoyancy effect on the floating cylinder. The goal is to determine the height of the cylinder submerged in the water.
Transcribed Image Text:**Problem 4:** A solid cylinder with a radius of 15.0 cm and a height of 16.0 cm has a mass of 9.61 kg. This cylinder is floating in water. Oil with a density of 725 kg/m³ is poured on top of the water, creating the situation shown in the diagram. How much of the height of the cylinder is submerged in the water? **Diagram Explanation:** The diagram illustrates a cross-sectional view of a container with two different liquids and a solid cylinder. The bottom half of the cylinder is submerged in water, and the top half is in oil. The oil layer rests on the water, showing a clear distinction between the two liquids. The boundaries of the liquid layers are marked, indicating the buoyancy effect on the floating cylinder. The goal is to determine the height of the cylinder submerged in the water.
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