The chemical formula for Sodium Oxide is Na2O.
The chemical formula for Barium ion (Ba2+) is simply Ba2+ and the chemical formula for Nitrate ion (NO3-) is NO3β. To represent the compound formed by Barium ion and Nitrate ion, write Ba(NO3)2.
The formula unit for sodium iodide is NaI, where Na represents sodium and I represents iodine. This formula indicates that each unit of sodium iodide contains one sodium ion and one iodide ion.
The chemical formula of dilithium carbonate is Li2CO3.
The chemical formula for calcium chloride is CaCl2.
The chemical formula for Sodium Oxide is Na2O.
Na2SO4
The chemical formula for silver nitrate is AgNO3. To write it, you would denote the symbol "Ag" for silver and "NO3" for the nitrate ion, with the charge balanced to reflect a neutral compound.
The chemical formula for silver nitrate is AgNO3. It consists of one silver atom (Ag), one nitrogen atom (N), and three oxygen atoms (O) in each molecule.
The chemical formula for sodium is Na and for potassium is K. Sodium and potassium are both alkali metals and are represented by their respective elemental symbols in chemical formulas.
The correct chemical formula for aluminum nitrate is Al(NO3)3. It consists of one aluminum (Al) atom and three nitrate (NO3) ions.
The chemical formula for Barium ion (Ba2+) is simply Ba2+ and the chemical formula for Nitrate ion (NO3-) is NO3β. To represent the compound formed by Barium ion and Nitrate ion, write Ba(NO3)2.
The chemical equation for the formation of sodium hydrogen sulfite can be written as: SO2 + NaOH β NaHSO3
There is no reaction between lead nitrate and sodium nitrate, because both compounds contain the same anion (nitrate). The reaction, if written, would look like this...Pb(NO3)2 + NaNO3 ==> NaNO3 + Pb(NO3)2
The chemical formula for aluminum nitrate is Al(NO3)3.
The formula for lead (II) nitrate is Pb(NO3)2.
The chemical formula for sodium sulfate is Na2SO4. It consists of two sodium atoms, one sulfur atom, and four oxygen atoms. The subscript numbers indicate the number of each type of atom present in the compound.