Yes
No, P4 is not an ionic compound. P4 refers to phosphorus in its elemental form, which exists as a covalent molecular compound composed of phosphorus atoms bonded covalently to each other. Ionic compounds are composed of ions held together by electrostatic forces.
Yes, fluorine and phosphorus are likely to form an ionic compound due to the large difference in their electronegativities. Fluorine is very electronegative and will likely gain an electron while phosphorus will likely lose electrons, resulting in the formation of an ionic compound.
Li3P is an ionic compound. Li (lithium) is a metal and P (phosphorus) is a nonmetal, so they form an ionic bond where lithium donates electrons to phosphorus to achieve stability.
Phosphorus trichloride is a molecular compound. It is made up of nonmetals (phosphorus and chlorine) which form covalent bonds by sharing electrons.
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.
No, P4 is not an ionic compound. P4 refers to phosphorus in its elemental form, which exists as a covalent molecular compound composed of phosphorus atoms bonded covalently to each other. Ionic compounds are composed of ions held together by electrostatic forces.
Yes, fluorine and phosphorus are likely to form an ionic compound due to the large difference in their electronegativities. Fluorine is very electronegative and will likely gain an electron while phosphorus will likely lose electrons, resulting in the formation of an ionic compound.
Li3P is an ionic compound. Li (lithium) is a metal and P (phosphorus) is a nonmetal, so they form an ionic bond where lithium donates electrons to phosphorus to achieve stability.
Phosphorus trichloride is a molecular compound. It is made up of nonmetals (phosphorus and chlorine) which form covalent bonds by sharing electrons.
Bromine and phosphorus can form an ionic bond because bromine is more electronegative than phosphorus, causing it to attract and accept electrons from phosphorus to form a stable compound.
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.
Cu3P is an ionic compound. Copper (Cu) typically forms cations with a charge of +2, while phosphorus (P) forms anions with a charge of -3. In Cu3P, the copper cations and phosphorus anions form an ionic bond due to the transfer of electrons.
Yes, Li3P is an ionic compound. It consists of lithium (Li) which is a metal, and phosphorus (P) which is a non-metal. In the compound, lithium loses electrons to form positively charged ions (Li+), while phosphorus gains electrons to form negatively charged ions (P3-).
The compound is aluminium phosphide and the chemical formula is AlP.
I think it's covalent as the the two elements are both nonmetallic.
Sn3P2 is an ionic compound. It is made up of tin (Sn) and phosphorus (P), and when they combine, tin tends to lose its electrons to form cations while phosphorus tends to gain electrons to form anions, resulting in an ionic bond between them.
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.