An aluminum cube doesn’t have a fixed density, it depends on its weight and volume. The density of a cube can be found out by measuring the object’s weight and volume and then by dividing the mass by volume. If the mass and volume of aluminum’s cube are 37.3 and 13.8, its density will be 2.7g/cm cube.
If it was solid, no it would not float in water since it would displace less water than its weight. In other words, the density of aluminium is higher than the density of water, and denser objects will sink. If it were a hollow sphere and displaced more weight in water than its own weight, it could float - but that would not be by virtue of the density of aluminum, it would be because it was hollow.
The density is(mass of the cube)/(15.625)
Because the overall density of a can is less than the density of water, a solid aluminium pole has a density greater than water
This substance has density of 18 g/cm3
The conversion between m cube and kg cannot be converted to each other .On finding the relation we get as follows . Density = kg/cubic m.
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.
The density of solid aluminum is 2.7 gm/cm3. It has absolutely nothing to do with the size of the sample. It can be a 2 cm cube or a block the size of the starship Enterprise. Makes no difference. Still 2.7 .
An aluminum cube typically has more mass than a plastic cube of the same size, as aluminum is a denser material compared to plastics. Density is a key factor in determining the mass of an object.
No. Each piece of the cube would have the same density.
To find the density of the cube material, divide the mass of the cube by its volume. You would first need to know the volume of the cube to calculate its density accurately. If the volume of the cube is 8cm³, then the density would be 96g/8cm³ = 12g/cm³.
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.
Cannot be answered without knowing the size of the cube!If the cube were 1 cm on a side the density would be 60.If the cube were 10 cm on a side the density would be 0.06...We cannot determine the answer because we are not given the volume.Density= mass/volumeVolume of a cube=L3 ; where L = side length
3 kg of aluminum has greater density because density is a function of mass and volume, and in this case, both samples are made of the same material, so the higher mass sample will have a higher density.
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The density of the cube is calculated by dividing the mass of the cube by the volume of the cube. The volume of a cube is given by the formula side length cubed, so the density of the cube would be mass (g) divided by side length (cm) cubed.
Steel typically has higher density compared to aluminum. Steel has a density of around 7.85 g/cm3, while aluminum has a density of about 2.70 g/cm3. This means that steel is heavier for the same volume compared to aluminum.
Molecular Weight: 26.98The density of industrial qualities of aluminum lies around 2.7A cube 10cm each edge weighs 2700 grams