chemicallibrary Fe2(SO4)3, commonly known as Iron (III) Sulfate, is an inorganic chemical compound. It contains two Iron atoms, three Sulfur atoms, and twelve Oxygen atoms per molecule. Therefore, the molecular weight of Fe2(SO4)3 is 399.92 g/mol. In Fe2(SO4)3, Iron forms the Fe3+ ion and sulfate forms the SO4 2- ion. Fe2(SO4)3 appears as reddish-brown crystals or … Read more
Definition of BrF7 BrF7, also known as Bromine heptafluoride, is a complex chemical compound consisting of a central bromine atom surrounded by seven fluorine atoms. It is one of the few chemical compounds that exist with more than 8 bonds. The molecular weight of BrF7 is 199.894 g/mol. Properties of BrF7 2.1 Physical properties of … Read more
Detailed information about the 2ZnCO3 -> 2ZnO + 2CO2 equation: The chemical equation above indicates the decomposition reaction of Zinc carbonate (ZnCO3) to produce Zinc oxide (ZnO) and Carbon dioxide (CO2). In terms of mole ratio, 2 moles of Zinc carbonate will yield 2 moles of Zinc oxide and 2 moles of Carbon dioxide. Reaction … Read more
Fe2(SO3)3, also known as iron(III) sulfite, is a compound of iron and sulfite. This compound has a molecular weight of 399.88 g/mol. Fe2(SO3)3 is formed from two iron atoms and three sulfite atoms. It has a distinctive block structure with the main ions being Fe3+ and (SO3)2-. Fe2(SO3)3 is a colorless and odorless solid. Its … Read more
Detailed information about the equation HgCO3 -> HgO + CO2: The chemical equation above describes the thermodynamic decomposition process of the compound mercuric carbonate (HgCO3) to form mercuric oxide (HgO) and carbon dioxide (CO2). Reaction conditions: This reaction process occurs when HgCO3 is heated. Reaction process: When heated, HgCO3 will decompose into HgO and CO2. … Read more
Definition of BrF5 BrF5, or Bromine pentafluoride, is a colorless compound that resembles a sphere with 7 electrons in the outermost layer. It is linked by 5 fluorine atoms with 5 sigma bonds and has 1 bridge bond. BrF5 belongs to the group of halogen pentafluoride compounds. 1.1 Names 1.1.1 Common name: Bromine pentafluoride 1.1.2 … Read more
Detailed information about the equation CuCO3 -> CuO + CO2: The chemical equation above illustrates the decomposition process of copper(II) carbonate (CuCO3) when the temperature increases. The result of this process is the formation of copper(II) oxide (CuO) and carbon dioxide gas (CO2). Reaction conditions: For the reaction to occur, copper(II) carbonate needs to be … Read more
Regrettably, based on basic principles of chemistry, BrF17 does not exist. Each Bromine (Br) atom only has 7 electrons in the outermost layer, thus it can only connect with a maximum of 7 other atoms through covalent bonds. In this case, if Bromine connects with Fluorine (F), we can only have BrF7, not BrF17. Conversely, … Read more
I’m sorry, but it seems you’ve misunderstood about BrF15. This is a chemical formula that does not exist. Chemistry is a very serious field of science and a molecule with 15 fluorine atoms attached to a bromine atom cannot exist. Bromine atoms can only form a maximum of 1 covalent bond with fluorine. This is … Read more
Unfortunately, there is no chemical substance with the formula BrF13 that exists in reality. Bromine (Br) can only form compounds with Fluorine (F) with the formula BrF, BrF3, and BrF5. These compounds are formed because bromine has a valency from 1 to 7 and fluorine only has a valency of 1. We can’t make a … Read more