A small toy is submerged in a plastic bottle filled with water. The toy is initially at rest in the middle of the bottle. There is a small hole in the bottom of the toy, and the toy is partially filled with water. When the bottle is squeezed, more water is forced into the toy, compressing the air inside and increasing the overall density of the toy. The buoyant force exerted on the toy by the water is equal to the product of the volume of the toy, the density of the water, and the acceleration due to gravity. Which of the following free-body diagrams could represent the relative magnitudes of the forces exerted on the toy after the bottle is squeezed?