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Nothing can have a volume of 3.2 m. If the volume were 3.2 cubic metres, the density would be 5/3.2 = 1.5625 kg per m3
6 mL = 6 cc (cubic centimetres). Density = Mass/Volume = 57/6 = 9.5 g/cc
That's not geometry: look up the density of the metal then calculate (if it's not quoted in cu. in.).
It depends on the density of the metal.
Different metals have different densities, so to find the density either the type of metal or both the size and mass of the cube must be provided. Density is mass divided by volume.
They're heavier than water is. The density of the metal is greater than water. The density is the weight per volume. Any material that has a greater density of 62.5 pounds per cubic feet (1000 kg per cubic meter) will sink.
1 cubic inch = 16,387 06 cm3 The density of uranium is ca. 19,05 g/cm3 312,173 493 grams is the mass of a cubic inch of pure U metal at room temperature.
You cannot. You need information on density of the metal.
None. The most dense metal is osmium and its density is 1.3 oz per cubic inch.
The answer will depend on the metal. Lithium has a density of 0.53 tonnes per cubic metre while osmium has a density of 22.5 tonnes per cubic metre (more than 40 times as much).
Nickel as a metal has a density of 8.908 grams per cubic cm.
Tantalum is a chemical element with the atomic number of 73. It is a transition metal with the solid density of 16.69 grams per cubic centimeter and a liquid density of 15 grams per cubic centimeter.
Yes, density and volume are related. Let's look at the two and sort things out. Volume is the term we apply to the amount of space something takes up. If we use the example of a block of lead that is one foot on each edge, we have a cubic foot of lead. The lead has a volume of one cubic foot, and it is taking up one cubic foot of 3-dimensional space. That's volume. Density is the amount (mass) of a substance for a given volume of that substance. In the case of lead, that cubic foot of the metal will weigh a bit over 700 pounds. As we have a mass of lead (the approximately 700 pounds) and a volume of lead (the cubic foot), we can say that the density of lead is about 700 pounds per cubic foot. Certainly this is an approximation, and we have to be a lot more accurate when we head off into the chemistry lab. But the example using the cubic foot of lead is a fairly graphic one and is pretty easy to visualize.
A metal density of 810.0(gram) / 90(m3) = 9.0 g.m-3 is impossible for solids, it looks more like a gaseous density.However, if 90.0 is not in cubic meter but in cubic centimeter, then this metal has a calculated density of 810.0(gram) / 90(cm3) = 9.0 g.cm-3 which is close to (pure) copper's: 8.96 gram per cubic centimeter
The density of the shiny, gold-colored bar of metal is 12.19 grams over cubic centimeters. The density of a Gold(Au) is 19.3 grams over cubic centimeters. These means that the gold-colored bar of metal is not pure gold.
It is a metal in powdered form.
This element is chromium; density=mass/volume. Density of chromium is 7,15 g/cm3.