Yes.
Yes, it generally requires more energy to melt one mole of an ionic compound compared to a molecular compound because ionic compounds have stronger electrostatic forces between ions that need to be overcome in order to melt them, while molecular compounds typically have weaker forces like dispersion forces or hydrogen bonding.
HCIO4 is an ionic compound.
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.
No, MgcI is not a molecular covalent compound. It is likely an ionic compound formed from a metal (Mg) and a nonmetal (I) through ionic bonding.
Sodium chloride is an ionic compound. It is composed of sodium cations (Na+) and chloride anions (Cl-) held together by ionic bonds.
AgNO3 is an ionic compound, not a molecular compound. It is made up of ions formed from the metal silver (Ag) and the nonmetal nitrogen and oxygen (NO3).
Molecular compound
The melting and boiling points of molecular compounds are generally quite low compared to those of ionic compounds. This is because the energy required to disrupt the inter molecular forces between molecules is far less than the energy required to break the ionic bonds in a crystalline ionic compound.
Ionic Molecular
Iron(III) bromide is an ionic compound.
Ionic because Ionic has metals or metal and non metals and for it to be molecular it can not contain metal
molecular, since it is an organic compound
molecular
Fluorine is molecular, but it is an element, not a compound.
Nickel manganate is an ionic compound.
It's molecular
A molecular covalent compound
Barium phosphide is an ionic compound because it is formed from the transfer of electrons between the barium cation (Ba^2+) and the phosphide anion (P^3-). This results in the formation of a compound with an overall neutral charge.