Beryllium Lesbek Mariya Group: XK-51
Beryllium was first discovered in 1794 by french chemists Nicholas Vauquelin. The name beryllium comes from the name of beryl mineral.
Beryllium the first member of group 2 A. Beryllium is a chemical element with symbol Be and atomic number 4. It’s electron configuration is +4 Be 1 s² 2 s²
Beryllium is a steel gray and hard metal that is brittle at room temperature and has a close -packed hexagonal crystal structure. It melts at 1258ºC, boils at 2970ºC and has a density of 1, 848 g/cm³. It is has one stable isotop: 9 Be
Occurence The Sun has a concentration of 0. 1 parts per billion of beryllium. Beryllium has a concentration of 2 to 6 parts per million in the Earth's crust. Beryllium is found in over 100 minerals, but most are uncommon to rare. The more common beryllium containing minerals include: bertrandite (Be 4 Si 2 O 7(OH)2) beryl (Al 2 [Be 3(Si 6 O 18)] chrysoberyl (Al 2 Be. O 4) phenakite (Be 2 Si. O 4).
Minerals of Beryllium Red Beryl Aquamarine Emerald White beryl
Morganite Phenakit Heliodorous
Preparation Friedrich Wöhler and Antoine Bussy independently isolated beryllium in 1828 by the chemical reaction of metallic potassium with beryllium chloride, as follows: Be. Cl 2 + 2 K → 2 KCl + Be At the present time beryllium is obtained by reducing beryllium fluoride with magnesium: Be. F 2+Mg → Be + Mg. F 2
Chemical properties The chemical properties of beryllium are very similar to aluminium. It has only +2 oxidation number in it’s compounds. Metallic beryllium is relatively little reactive at room temperature. In a compact form it doesn’t react with water.
Beryllium reacts with diluted H 2 SO 4 and HNO 3 solutions. Be+ H 2 SO 4 (dil) →Be. SO 4+H 2↑ 3 Be+ 8 HNO 3 (dil) → 3 Be(NO 3)2 + 4 H 2 O+2 NO Beryllium also can be affected by concentrated H 2 SO 4 and HNO 3 Be+2 H 2 SO 4 (conc) →Be. SO 4+2 H 2 O+SO 2 Be +4 HNO 3 (conc) →Be(NO 3)2+2 H 2 O+2 NO 2
Beryllium reacts with nonmetals and several compounds at high temperature: 2 Be+O 2 → 2 Be. O Be+N 2 650º C →Be 3 N 2 Beryllium forms binary compounds with many nonmetals. Anhydrous halides are known for F, Cl, Br and I: Be+F 2 → Be. F 2 Be+Cl 2 → Be. Cl 2 Be+Br 2 → Be. Br 2 Be+I 2 → Be. J 2
Since beryllium is an amphoteric metal it also reacts with strong bases and liberates H 2 gas Be+Na. OH → Na 2 Be. O 2+H 2 ↑ Be +2 Na. OH+2 H 2 O → Na[Be(OH)4] +H 2 ↑
Compounds Beryllium oxide, Be. O, is a white refractory solid, which has the wurtzite crystal structure and a thermal conductivity as high as in some metals. Be. O is amphoteric. Be. O+ 2 HCl (conc) → Be. Cl 2+H 2 O Be. O+ 2 Na. OH (conc) +H 2 O →Na 2[(Be. OH)4]
Beryllium hydroxide, Be(OH)2, is an amphoteric hydroxide, dissolving in both acids and alkalis. Industrially, it is produced as a by-product in the extraction of beryllium metal from the ores beryl and bertrandite. With alkalis it dissolves to form the tetrahydroxidoberyllate anion. With sodium hydroxide solution: 2 Na. OH(aq) + Be(OH)2(s) → Na 2 Be(OH)4(aq) With acids, beryllium salts are formed. For example, with sulfuric acid, H 2 SO 4, beryllium sulfate is formed: Be(OH)2 + H 2 SO 4 → Be. SO 4 + 2 H 2 O Beryllium hydroxide dehydrates at 400 °C to form the soluble white powder, beryllium oxide: Be(OH)2 → Be. O + H 2 O
With acids, beryllium salts are formed. [For example, with sulfuric acid, H 2 SO 4, beryllium sulfate is formed: Be(OH)2 + H 2 SO 4 → Be. SO 4 + 2 H 2 O Beryllium hydroxide dehydrates at 400 °C to form the soluble white powder, beryllium oxide: Be(OH)2 → Be. O + H 2 O
Beryllium sulphide is a chemical compound with the formula Be. S. It is a white crystalline substance. Beryllium sulphide is slowly hydrolyzed by cold water, in hot water the reaction proceeds quickly: Be. S+H 2 O → Be(OH)2+H 2 S Diluted acids decompose beryllium sulfide with the release of hydrogen sulfide: Be. S+H 2 Cl →Be. Cl 2 + H 2 S Be. S+H 2 SO 4 → Be. SO 4 +H 2 S
Beryllium sulphide reacts with hot solutions of alkali and alkali metal carbonates: Be. S+4 Na. OH →Na 2(Be. OH)4 +Na 2 S Be. S +2 Na 2 CO 3+H 2 O →Na 2(Be. OH)6+NA 2 S+CO 2 Halogens, with the exception of iodine (which does not react with beryllium sulphide) form halides in the interaction with Be. S: Be. S+Cl 2 → Be. Cl 2+S
Application in roentgen technology in nuclear power as a retarder of netrons in laser technology for the manufacture of radiators in aerospace engineering in the manufacture of thermal screens as a refractory material
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