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Ca2 + p3- have a lowest common multiple of 6(2X3 = 6). Therefore, the formula would require three Ca2+ ions and tow p3- ions to form the neutral compound Ca3P2. If one carefully examines the magnitude of the ion charges, those values indicate the number of atoms of the opposite ion needed. The formula produces a neutral (zero charge) compound and the least common multiple is used. the answer is Ca3P2
The compound is aluminium phosphide and the chemical formula is AlP.
Rb3P.
calcium phosphide
Be3P2 Is an ionic compound made up of the group II metal beryllium, a cation is this compound and the nonmetal phosphorus, an anion is this compound. Be 2+ and P 3- combine ionicly to form Be3P2
Ca2 + p3- have a lowest common multiple of 6(2X3 = 6). Therefore, the formula would require three Ca2+ ions and tow p3- ions to form the neutral compound Ca3P2. If one carefully examines the magnitude of the ion charges, those values indicate the number of atoms of the opposite ion needed. The formula produces a neutral (zero charge) compound and the least common multiple is used. the answer is Ca3P2
The compound is aluminium phosphide and the chemical formula is AlP.
Rb3P.
calcium phosphide
Be3P2 Is an ionic compound made up of the group II metal beryllium, a cation is this compound and the nonmetal phosphorus, an anion is this compound. Be 2+ and P 3- combine ionicly to form Be3P2
This formula is for silver phosphide.
The chemical compound P2O2 does not exist. IF it could it would almost certainly be covalently bonded.
ionic = metal + nonmetal covalent = nonmetal + nonmetal So your compound is covalent because P (Phosphorus) is a nonmetal and O (oxygen) is a nonmetal.
P4O4 is not a chemical compound. P4O10 is a covalent compound. P and O always form covalent bonds.
The chemical formula of aluminium phosphide is AlP.
P2O5 is covalent compound as the difference in electronegativity between P and O is below 1.7
K and Br are most likely to form a chemical compound.