it would sink
if you were to add water an ice cube an olive oil the water would be on the bottom and the oil would be on top and the ice cube wuld float inside of the olive oil.
It depends on the density of the wood. If the wood is less dense than water, the cube will float. If the wood is more dense than water, the cube will sink.
yes!
The density of the aluminum cube can be calculated using the formula: density = mass/volume. The volume of the cube can be calculated as the length of one side cubed (2cm x 2cm x 2cm). Once the density of the aluminum cube is determined, it can be compared to the densities of various liquids to determine where it would float. Liquids with densities between that of aluminum (2.7 g/cm³) and water (1 g/cm³) would allow the aluminum cube to float.
float dua
Volume of cube = 6^3 = 216 cm^3 Density of cube = 270 g / 216 cm^3 = 1.25 g cm^-3 This cube would not float in water as its density is greater than the density of water at 1 g cm^3
An ice cube will not float in air because air has a lower density than ice, making it less buoyant. Ice is less dense than water, which allows it to float in water due to buoyancy. In air, the buoyant force is not strong enough to support the weight of the ice cube, so it will not float.
I would expect the mechanism inside to get damaged - it might rust.
A chunk of ice will float higher in water than an ice cube only if the ice chunk is larger than the ice cube.
The relative density of a plastic cube is the ratio of the density of the plastic cube to the density of water. To calculate it, you would divide the density of the plastic cube by the density of water (usually 1 g/cm^3). If the relative density is less than 1, the cube will float in water, and if it's greater than 1, the cube will sink.
The number of ping pong balls needed to get a steel cube to float would depend on the mass of the steel cube.
An ice cube with a density of 0.92 g/mL would float on water because the density of ice (0.92 g/mL) is less than the density of water (1.0 g/mL). This is due to the fact that ice is less dense than liquid water, causing it to float on the surface rather than sink.