The density of silver is 10.49 g/cm³. Silver is a malleable, shiny and soft chemical element. It is a rare organic type material to obtain in the crust or surface of planet Earth. It can be extracted from the manipulation and extraction of the work that mining does. This element can also be found in nature in a hybrid form, that is, with other elements or metals that can also be found on the mining surface.
Its level of oxidation is low, in fact, it requires complex and complicated processes to be degraded. Reacts readily to sulphur. The metal contains a high degree of purity, in fact, it reflects almost all the light reflected from the element.
Silver does not react directly to heat, or at least not easily. But if it can be chemically manipulated to create oxides and other compounds. Likewise, the density is 10.5 greater than that of water, if an adjacent magnitude measurement is used that compares the densities of the element and water, however, this magnitude may also be subject to change.
Silver Density Characteristics
One of the factors that can easily alter an accurate measurement of the quantity known as density, is the level of impurities or air bubbles, whether they are liquids or substances with viscosity. Therefore, the mass could easily present differences in the measuring instrument, which in this case is the balance.
This of course depends on the quality of the material. To measure the purity of silver, the pure parts of the metal are expressed per 1000 parts of the total metal or element.
Although, as mentioned above in the characteristics of silver, it does not react so easily to heat or temperature rises, when oxidation processes are carried out and the material is subjected to temperature levels high, to create inorganic chemical compounds.
What happens is that the vibration levels increase when the temperature also increases, therefore the atoms tend to separate and in this way the mass expands, even though the volume is the same. In this way, the density reduces its value. The same thing happens in the opposite case, when the atoms contract and the mass/volume ratio increases considerably.
Because density or the relationship between mass and volume is very sensitive to changes in matter. When subjected to pressure, the density of matter increases dramatically.
This variable which affects the density has a greater place when studies of behavior change are carried out on the metal, in this case silver. Because the variable size can be modified. In fact, although this factor may go less unnoticed in gases, in solids and liquids, this character also influences.