The element is present in the igneous rocks of Earth’s crust to the extent of about 0.001 percent, which is scarce but not rare; its abundance is of the same order of magnitude as such technically useful elements as cobalt, nickel, copper, cerium, and lead, and it is essentially equal to the abundance of nitrogen. Group Name: none. Materials: Density of Tin (Sn) [& g/cm3, kg/m3, Uses, Sources ... Density of Tin (Sn) [& g/cm3, kg/m3, Uses, Sources ... https://1.bp.blogspot.com/-ceMfdF8c-jg/XVg3JTYq0vI/AAAAAAAAlcc/h5TJ_46_T4Q1fRfR45INdYiQsaQ2owUDgCLcBGAs/s320/density-of-tin.webp, https://1.bp.blogspot.com/-ceMfdF8c-jg/XVg3JTYq0vI/AAAAAAAAlcc/h5TJ_46_T4Q1fRfR45INdYiQsaQ2owUDgCLcBGAs/s72-c/density-of-tin.webp, https://materials.gelsonluz.com/2019/08/density-of-tin-sn-gcm3-kgm3-uses-sources.html. Density (g cm −3) Density is the mass of a substance that would fill 1 cm 3 at room temperature. Tin exists in two oxidation states, +4 and +2. Tin oxide, in which tin is in the +4 oxidation state, is useful in making ceramic bodies opaque, as a mild abrasive, and as a weighting agent for fabrics. (Si), germanium (Ge), tin (Sn), lead (Pb), and flerovium (Fl).…, The Liberal victory was also closely associated with a basic shift in the Altiplano mining economy. The chemical symbol for Tin is Sn. Organic tin compounds act as stabilizers in certain plastics and as wood preservatives. The major sources are alluvial deposits, averaging about 0.01 percent tin. Lode deposits, containing up to 4 percent, are found in Bolivia and Cornwall. The relationships among the allotropic modifications of tin can be represented as transformations from one crystal type to another at specific temperatures: (The double arrows signify that the transformation occurs in both directions, as tin is heated or as it is cooled.). The typical density of common metals can be found listed in the table below. Tin has 10 stable isotopes, occurring in the following percentages in natural tin: tin-112, 0.97; tin-114, 0.65; tin-115, 0.36; tin-116, 14.53; tin-117, 7.68; tin-118, 24.22; tin-119, 8.58; tin-120, 32.59; tin-122, 4.63; and tin-124, 5.79. Sheet Metal Density Table (Common Materials) Metals & Materials / 1 minute … Tin's atomic symbol comes from the Latin word for tin, stannum. Tin exists in two different forms, or allotropes: the familiar form, white (or beta) tin, and gray (or alpha) tin, which is powdery and of little use. The latter site, on the border between the Czech Republic and eastern Germany, was one of the rare instances of close…. In the cosmos there are 1.33 atoms of tin per 1 × 106 atoms of silicon, an abundance roughly equal to that of niobium, ruthenium, neodymium, or platinum. No high-grade deposits are known. Organotin stabilizers are used to prevent changes in polyvinyl chloride upon exposure to light and heat. Relative atomic mass The mass of an atom relative to that of carbon-12. Tin Data Tin Density g/cm³ 7.30 g/cm³ kg/m³ 7300 kg/m³ State at 20 °C Solid Uses Used as a coating for steel cans since it is nontoxic and noncorrosive. A number of organotin compounds are major ingredients in biocides and fungicides. Tin occurs in grains of the native metal but chiefly as stannic oxide, SnO2, in the mineral cassiterite, the only tin mineral of commercial significance. White tin has a body-centred tetragonal crystal structure, and gray tin has a face-centred cubic structure. Tin The symbol for Tin is Sn and its density g/cm 3 is 7.26. Phase at Room Temperature: Solid. The colour of pure tin is retained during exposure because a thin, invisible, protective film of stannic oxide is formed spontaneously by reaction with the oxygen of the air. ASTM,171,Atomic-Mass,327,Atomic-Number,436,Atomic-Radius,86,Atomic-Symbol,329,Atomic-Volume,94,Boiling-Point,94,Chemical-Elements,100,Chemical-Symbol,217,Coefficient-of-Thermal-Expansion,85,Covalent-Radius,87,Crystal-Structure,109,Density,309,Elastic-Modulus,30,Electrical-Conductivity,79,Electro-Affinity,87,Electron-Configuration,109,Electronegativity,102,Electrons-per-Shell,112,Enthalpy-of-Fusion,93,Enthalpy-of-Vaporization,95,Group-Number,218,Heat-of-Fusion,87,Heat-of-Vaporization,85,Ionic-Radius,78,Ionization-Energy,102,Ionization-Potential,101,Melting-Point,96,Oxidation-States,104,Period-Number,107,Properties,40,Site,2,Specific-Gravity,83,Specific-Heat,92,Specific-Weight,1,Tests,2,Thermal-Conductivity,105,Valence-Electrons,98.