Want this question answered?
Density = mass/volume let us say the mass of the steel ball and the ship are same. but the steel ball is fully enclosed, a tight spherical volume, where as the ship is a hollow, occupies more volume (multiple times) as that of the spherical ball. Considering the first equation, u know well the density of steel ball is much higher than the steel ship.
If you know the dimensions of the slab, assuming that the slab is solid and in the shape of a rectangle, box, or square, you can calculate the volume with the formula: LxWxH which is length times width times height. This will give you the volume of the slab in cubic units (meters, feet, inches, whatever). Depending on the type of steel, you will have a different density ratio which can be used to calculate the weight of the slab. The density of low grade steel is something on the order of: 7850 kg/m3 so you would multiply your volume by the density ratio to get kilograms. If you know the weight of the slab and the type of steel, you can calculate the volume by dividing the weight by the density ratio. I hope this helps, perhaps you could provide more details on the type of steel and the exact property of the slab that you need (volume, weight, density.
density = mass/volume mass = density x volume volume = mass/density
d=m/v density= mass/ volume
density equals mass/volume, volume equals mass/density, and mass equals density times volume.
volume of a cube = (length)3 therefore volume = 23 = 8 cm3. Mass = Density * Volume = 8 * 8 = 64 g.
Density = mass/volume let us say the mass of the steel ball and the ship are same. but the steel ball is fully enclosed, a tight spherical volume, where as the ship is a hollow, occupies more volume (multiple times) as that of the spherical ball. Considering the first equation, u know well the density of steel ball is much higher than the steel ship.
The steel has a density greater than water; but the ship does not. To calculate density, you divide mass by volume. This includes the mass - and the volume - of any air trapped inside the ship.
Volume is how much room something takes up. Density is the mass per volume. In everyday terms, how fluffy is a substance. Feathers are rather fluffy, and have a low density. A steel bar is not very fluffy, and has a high density.
volume of the billet * density of d material i.e for steel density is aprox 7.8*10^-6 . volume * 7.8*10^-6.
Volume is how much room something takes up. Density is the mass per volume. In everyday terms, how fluffy is a substance. Feathers are rather fluffy, and have a low density. A steel bar is not very fluffy, and has a high density.
Density = mass / volume = 28.5 / 3.62 = 7.87 g / cu cm, iron or steel has that density.
weight of all steel can be calculated by multiplying unit volume with density.
The density of the entire ship is much less than the density of a ship-sized block of steel. That's accomplished by flattening the block of steel into a giant sheet, and then rounding the sheet on the bottom, so that it displaces much more water than the original solid block would. The final structure still has the same mass as the block of steel, but it has much more volume ... the volume of the steel, plus the additional volume of the cargo holds, the engine room, the galleys, the passenger cabins, the radio room, etc. So the original mass divided by the much greater volume winds up being a much smaller density than steel has. In fact, it winds up being smaller than the density of water.
steel density = 7850 kg per cubic metre volume = 0.6 * 1.2 * 0.003 = 0.00216 cu m mass = volume * density = 0.00216 * 7850 = 16.956 kg ( 37.3816 pounds )
The density of the VOLUME of the ship is less than the density of the water it displaces (pushes out of the way). While the steel of a steel hulled ship is denser than water, the steel plus the air enclosed by the steel is less dense.
Mass = Density x Volume Density = Mass/Volume Volume = Mass/Density