PF3 is a molecular compound. It consists of a covalent bond between phosphorus and fluorine atoms.
Cr2O3 is an ionic compound. It consists of chromium ions (Cr3+) and oxide ions (O2-) held together by ionic bonds.
Glucose is a molecular compound, not ionic. It consists of covalent bonds between its carbon, hydrogen, and oxygen atoms.
HCIO4 is an ionic compound.
The strongest intermolecular force in PF3 is dipole-dipole interaction, which occurs between the partial positive and negative charges on the molecule. This is because PF3 is a polar molecule due to the differences in electronegativity between phosphorus and the fluorine atoms.
NO is a molecular compound, not an ionic compound. It is made up of individual atoms of nitrogen and oxygen that are covalently bonded together.
The electron geometry ("Electronic Domain Geometry") for PF3 is tetrahedral. The molecular geometry, on the other hand, is Trigonal Pyramidal.
Yes. It is Phosphorus Trifluoride. Uh, no. Phosphorus and fluoride are both nonmetals and both form anions. Thus, PF3 is a molecular compound. Also, that PF3 is called phosphorus TRIfluoride should indicate to you that it is a molecular compound, because only molecular compounds have prefixes.
Ionic Molecular
Phosphorus trifluoride (PF3) is not significantly soluble in water. Its molecular structure and polar characteristics do not favor strong interactions with water molecules, leading to low solubility. Generally, PF3 is better dissolved in organic solvents rather than in polar solvents like water.
PtO2 is ionic
Molecular
molecular
Sodium Chloride is an ionically bonded molecule. Na^(+) + Cl^(-) = NaCl(s).
ionic
it is ionic
It is molecular
You misunderstand. !!!! Magnesium is an ELEMENT. As an element it exists as atoms in a metallic lattice. When combined with another element e.g. oxygen as magnesium oxide, (MgO), then it is an ionically bonded molecular compound. Mg^(2+) + O^(2-) = MgO(s)