The name phosphite is according to IUPAC reserved for PO33- ion, so Cesium phosphite would be Cs3PO3
However no compounds containing PO33- are known to exist. Hypothetical compounds containing it are often used in naming exercises by teachers/colleges/web sites. Phosphite in common use refers to HPO32- ion (IUPAC name phosphonate) and this is the formula taught in some parts of the world, cesium phosphite would therefore be Cs2HPO3
The name of the ionic compound Cu3PO3 is copper(I) phosphite.
The ionic compound CsHCO3 is cesium hydrogen carbonate.
When cesium and fluorine react, they form the ionic compound cesium fluoride (CsF).
The ionic compound Zn3(PO2)2 is named zinc phosphite.
No, cesium chloride is an ionic compound, not covalent. It is composed of cesium cations (Cs+) and chloride anions (Cl-) held together by ionic bonds.
Trirubidium phosphite is the name for the compound Rb3PO3.
The name of the ionic compound Cu3PO3 is copper(I) phosphite.
The ionic compound CsHCO3 is cesium hydrogen carbonate.
When cesium and fluorine react, they form the ionic compound cesium fluoride (CsF).
Formula: Cs3PO3
The ionic compound Zn3(PO2)2 is named zinc phosphite.
No, cesium chloride is an ionic compound, not covalent. It is composed of cesium cations (Cs+) and chloride anions (Cl-) held together by ionic bonds.
Cesium chromate is the ionic compound with the formula Cs2CrO4. It is composed of cesium ions (Cs+) and chromate ions (CrO42-), which are held together by ionic bonds.
The ionic compound formed when cesium reacts with oxygen is cesium oxide (Cs2O). In this compound, cesium, a group 1 metal, donates its outer electron to oxygen, a group 16 nonmetal, to form a stable ionic bond.
Yes, sulfur and cesium can form an ionic compound. Cesium, being a metal, can donate an electron to sulfur, a non-metal, resulting in the formation of an ionic bond between them. The resulting compound would be cesium sulfide (Cs2S).
Phosphite has an ionic charge of -3.
Cesium fluoride