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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.
The density of the mineral compared to the density of water will determine if it floats or sinks. If the mineral has a lower density than water, it will float; if it has a higher density, it will sink.
Mineral density should know. Weight / density = volume
A cartridge is NOT a mineral.
Density can help identify a mineral by comparing its density to known values of common minerals. By measuring the mass and volume of a mineral sample, its density can be calculated and compared to established density values of minerals. This can help narrow down the possibilities of the mineral's identity based on its unique density.
Its density is: 3.19
Nagyagite is the only mineral with a density of 7.5
No, it doesn't.
The density of a mineral sample is a measure of its mass per unit volume. It can be calculated by dividing the mass of the sample by its volume. The density of a mineral sample is a characteristic property that can help in identifying the mineral.
The density of a mineral is determined by its chemical composition and packing of atoms in its crystal structure. Specific gravity, which is the ratio of a mineral's density to the density of water, is a measure of how heavy a mineral is compared to an equal volume of water. Both properties can provide information about a mineral's identity and help distinguish it from other minerals.