Phosphorus pentachloride.
P7Cl3 is a molecular compound. It consists of nonmetals (phosphorus and chlorine), which typically form covalent bonds rather than ionic bonds. The compound is formed by sharing electrons between the phosphorus and chlorine atoms, indicating its molecular nature.
The compound PCl don't exist; all phosphorous chlorides are binary compounds.
P4Cl7 is a chemical compound consisting of phosphorus and chlorine. It contains four phosphorus atoms and seven chlorine atoms, indicating it is a molecular compound. P4Cl7 is typically a yellowish solid that can be formed through the reaction of phosphorus trichloride (PCl3) with phosphorus (P4). It is of interest in various chemical applications, particularly in the study of phosphorus-chlorine chemistry.
Phosphorus is a chemical element, not a compound.
The name for the molecular compound PCl5 is phosphorus pentachloride.
It is Bromine Br and Phosphorus P, and also known as Phosphorus Pentabromide.
Phosphorus pentachloride.
The compound PCI3 is named phosphorus trichloride. It is a chemical compound composed of phosphorus and chlorine atoms, with a molecular formula of PCl3.
Phosphorus trichloride is a molecular compound. It is made up of nonmetals (phosphorus and chlorine) which form covalent bonds by sharing electrons.
Phosphorus triiodide is a covalent/molecular compound. It is composed of phosphorus and iodine atoms that are bonded together through covalent bonds, sharing electrons.
It is a molecular (covalent) compound. Present day text books refer to a covalent compound as a molecular compound, as opposed to an ionic one.
Phosphorus trioxide (P2O3) is a molecular compound. It consists of covalent bonds formed between the atoms of phosphorus and oxygen in the molecule.
The formula for phosphorus trichloride is PCl3.
PF3 is a molecular compound. It consists of a covalent bond between phosphorus and fluorine atoms.
P2O5 is a molecular compound, composed of two phosphorus atoms and five oxygen atoms bonded covalently. When it dissolves in water, it forms phosphoric acid (H3PO4) through an acid-base reaction, indicating its molecular nature.
P2O5 is a covalent compound. It is a molecular compound made up of nonmetal elements phosphorus and oxygen.