Want this question answered?
Density = Mass/Volume = 150/6 = 25 grams per cm3.
5.02 g/cm3
Density = Mass/Volume = 4.2 units of mass/2units of volume = 2.1 units of mass per unit of volume.
density = mass/volume = 41.2 g / 8.2 units³ ≈ 5.02 g/unit³
Zircon has a average specific gravity of 4.65. (given by the density of the sand divided by the avg density of water) So, by re-arranging: the density is aprox 4,650 kg/m3 multiplying by g (avg) 4650 * 9.8 = 45,570N
5.7g/cm cubed
most likely it is quartz
Density = Mass/Volume = 150/6 = 25 grams per cm3.
We find that 3.53 is the spee gee (specific gravity) of our mineral. Specific gravity is a measure of the density of a substance compared to the density of water. The density of water is 1 g/ml and we just need to do some simple math. Since water is 1g/ml, we just need to find out the density of our sample in g/ml and drop the units. Note that specific gravity has no units associated with it. It is a number. Our mineral sample weighs 1066 grams, and its volume is 300 ml. 1066 / 300 = 3.53333....
Mineral density should know. Weight / density = volume
A cartridge is NOT a mineral.
Each mineral has a characteristic density (or range of densities), so if the measured density is a close match to a mineral you know, it MAY be that mineral; if it doesn't match, it is something different.
Its density is: 3.19
Specific gravity.
Nagyagite is the only mineral with a density of 7.5
No, it doesn't.
A mineral's density increases as its mass per unit volume increases. If a mineral has a small mass and large unit volume, its density is smaller. Whereas, if a mineral has a large mass and a small unit volume, its density is greater.