The compound is aluminium phosphide and the chemical formula is AlP.
The binary ionic compound for Scandium (Sc) and Phosphorus (P) is Scandium Phosphide with the formula Sc3P2.
The name for the ionic compound Ag3P is silver phosphide.
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 ionic compound of Ba3P2 is barium phosphide. It is formed by the combination of barium (Ba) cations with a 3+ charge and phosphorus (P) anions with a 2- charge, resulting in the formula Ba3P2.
The ionic compound formed by copper (Cu) and phosphorus (P) would be copper (I) phosphide with the chemical formula Cu3P. This compound consists of Cu+ cations and P3- anions, resulting in a 1:3 ratio of copper to phosphorus ions.
The ionic compound formed between Al and P is aluminum phosphate, with the formula AlPO₄. This compound is formed by the transfer of electrons from aluminum to phosphorus atoms, resulting in the formation of Al³⁺ cations and PO₄³⁻ anions.
The name for the ionic compound Ag3P is silver phosphide.
The binary ionic compound for Scandium (Sc) and Phosphorus (P) is Scandium Phosphide with the formula Sc3P2.
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 ionic compound of Ba3P2 is barium phosphide. It is formed by the combination of barium (Ba) cations with a 3+ charge and phosphorus (P) anions with a 2- charge, resulting in the formula Ba3P2.
The ionic compound formed by copper (Cu) and phosphorus (P) would be copper (I) phosphide with the chemical formula Cu3P. This compound consists of Cu+ cations and P3- anions, resulting in a 1:3 ratio of copper to phosphorus ions.
The chemical formula for beryllium phosphide is Be3P2. It is an ionic compound formed by the combination of beryllium (Be) and phosphorus (P), where beryllium donates 2 electrons to phosphorus to form a stable ionic bond.
The ionic compound formed between an atom P with 2 valence electrons and an atom Q with 5 valence electrons would be represented as P2Q5, following the rule of balancing charges in ionic compounds. The formula reflects the transfer of electrons from P to Q to achieve stability through the formation of ionic bonds.
AlP is a solid and it is not molecular. The difference in electronegativity is only 0.58. The bonding is It is best described as polar covalent . There are many compounds that are not molecular but are covalent giant molecules.
The ionic formula for sodium phosphide is Na3P. This compound is formed by the combination of sodium (Na⁺) and phosphide ions (P³⁻) in a 3:1 ratio to balance the charges.
The formula for the ionic compound formed between rubidium (Rb) and phosphorus (P) is Rb3P, because rubidium is a group 1 metal with a +1 charge and phosphorus is a group 15 nonmetal with a -3 charge. To balance the charges, you need three rubidium atoms for every one phosphorus atom.
The chemical formula Ba3P2 corresponds to barium phosphide. It is an ionic compound composed of barium cations (Ba^2+) and phosphide anions (P^3-).