Cast Steel: 7.85 g/cm3 490 lb/cuft Rolled Steel 7.93 g/cm3 495 lb/cuft
7.48-8.0, depending on what grade of steel is in question
Specific gravity of steel is 7.8 times that of water
Water weighs 1000 Kg/m3
Therefore (depending on the grade) acubic meter of steel would weigh 7800 kg
The density of steel is 490 pounds per cubic foot
or 7.85 g/cm3
The specific gravity of iron is 7.894 That means a cubic inch or cm or whatever of iron is 7.894 times heavier than the same volume of water.
It depends on the grade of the steel but it will be around 8000 Kg/m3
Hi as a general answer: 6800 - 7800 kg/m3
sg (relative density) of steel = 7.85
7,2
specific gravity of acetone is 0.79
The specific gravity of a product can be found on the material
The specific gravity of a substance is the ration of its density to some standard, almost always water for liquids or solids. In this case, Feldspar has a specific gravity of about 2.6.
There is a very great relationship between density and specific gravity. Density contributes to the weight of a substance under specific gravity.
Almost, but not quite. 'Specific gravity' is the density of a substancecompared to water.Numerically . . .Specific gravity of a substance = Density of the substance/Density of water.
The specific gravity of iron ore is 2.5
Perhaps you mean "specific gravity". That refers to an object's density, compared to the density of a reference subtance (usually water). For example, if iron has 8 times the density of water, then its specific gravity is said to be 8.
The specific gravity of a substance (as an example, I'll take iron) is the density of iron divided by the density of water. Or some other reference substance - but usually the comparison is with water.
Specific gravity is the ratio of a substance's density to the density of a reference substance, usually water for liquids, or air for gas. For example, since the density of iron is about 8 times as much as that of water, that means that its specific gravity is 8.
Cast iron mainly includes grey cast iron, ductile cast iron and malleable cast iron. As for ductile iron, it has very wide application, such as Pressure pipes and fittings, Automotive applications, Agriculture, road and construction applications, General engineering applications. As for the specific application of ductile iron, grey iron and malleable cast iron, please refer to the links below.
Perhaps you mean "specific gravity". That refers to an object's density, compared to the density of a reference subtance (usually water). For example, if iron has 8 times the density of water, then its specific gravity is said to be 8.
Specific gravity of iron is approximately 7.85 3.2 kg divided by 7.85 = 0.4076 litre or 407.6 millilitres
The specific gravity of diamond is 3.5, which is 'above average'.
specific gravity = relative density , datum is water density @ 1 000kg/m^3 say iron at 8000kg/m^3, specific gravity (relative density)= 8000/1000 = 8 imagine see saw with 1 cubic metre iron 1 metre left of fulcrum , to balance put 1 cubic metre of water 8 metres right of fulcrum
There is no such thing as a specific gravity for any element.
Aluminum has no specific gravity, at least by the current definition of gravity.
helium doesn't have a specific gravity