Definitely INORGANIC, because it does NOT contain any carbon atoms in the molecule.
The chemical formula for tin(II) sulfate is SnSO4.
When lead (IV) sulfate reacts with tin (II) chlorate, the lead (IV) cation (Pb^4+) will combine with the chlorate anion (ClO3^-) to form lead (IV) chlorate, Pb(ClO3)4. The tin (II) cation (Sn^2+) will combine with the sulfate anion (SO4^2-) to form tin (II) sulfate, SnSO4.
In this reaction, sulfuric acid reacts with tin (II) chloride to form tin (II) sulfate and hydrogen chloride gas. The balanced chemical equation is: H2SO4 + SnCl2 -> SnSO4 + 2HCl.
When sulfuric acid reacts with tin, hydrogen gas is produced along with tin(II) sulfate as a product. The chemical reaction can be represented as: H2SO4 + Sn -> SnSO4 + H2
When tin reacts with sulfuric acid, it forms tin(II) sulfate and hydrogen gas is released. The chemical equation for the reaction is: Sn + H2SO4 -> SnSO4 + H2
Tin(II) sulfate
The chemical formula for tin(II) sulfate is SnSO4.
When lead (IV) sulfate reacts with tin (II) chlorate, the lead (IV) cation (Pb^4+) will combine with the chlorate anion (ClO3^-) to form lead (IV) chlorate, Pb(ClO3)4. The tin (II) cation (Sn^2+) will combine with the sulfate anion (SO4^2-) to form tin (II) sulfate, SnSO4.
Lead sulfate is not soluble in water.
It is considered to be organic.
The class of Tin II Fluoride is an inorganic compound. It is a metal fluoride containing tin in the +2 oxidation state.
Cobalt(II) sulfate, or CoSO4, is not an organic compound; it is an inorganic compound. Organic compounds typically contain carbon-hydrogen (C-H) bonds, while CoSO4 consists of cobalt, sulfur, and oxygen without any carbon. It is often found in hydrated forms, such as CoSO4·7H2O, which is commonly known as cobalt(II) sulfate heptahydrate.
Lead sulfate is not soluble in water.
In this reaction, sulfuric acid reacts with tin (II) chloride to form tin (II) sulfate and hydrogen chloride gas. The balanced chemical equation is: H2SO4 + SnCl2 -> SnSO4 + 2HCl.
When sulfuric acid reacts with tin, hydrogen gas is produced along with tin(II) sulfate as a product. The chemical reaction can be represented as: H2SO4 + Sn -> SnSO4 + H2
When tin reacts with sulfuric acid, it forms tin(II) sulfate and hydrogen gas is released. The chemical equation for the reaction is: Sn + H2SO4 -> SnSO4 + H2
SnCrO4 is the chemical formula for tin(II) chromate, a compound composed of tin, chromium, and oxygen. It is commonly used as a pigment in ceramics and inorganic chemistry experiments.