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Polar compounds have stronger attractions between molecules.
they form temporary, weak dipole attractions between molecules
The attractions between the solute and solvent molecules must be greater than the attractions keeping the solute together and the attractions keeping the solvent together.
The amount of chemical energy a substance has is determined by the types and arrangement of atoms and molecules in that substance. The energy is stored within the chemical bonds between these atoms and molecules. The strength of these bonds and the potential energy stored in them determine the amount of chemical energy.
composed of an extended structure composed of individual atoms or diatomic molecules high melting point low melting point strong attractions between particles weak attractions between particles
Polar compounds have stronger attractions between molecules.
The bond strength between the ions and the molecules in the solvents determines the solublity of ions in a particular solvent.
The attraction between polar molecules.
A volatile liquid is easy to vaporize because there are weak intermolecular attractions between its molecules. A nonvolatile liquid is difficult to vaporize because there are strong intermolecular attractions between its molecules.
Compounds differ because of differences in attractions between their molecules.
compounds differ because of differences in attractions between their molecules.
Compounds differ because of differences in attractions between their molecules.
Compounds differ because of differences in attractions between their molecules.
Hydrogen bonds.
"van der waals" forces.
In solids, molecules have the greatest attractions for one another. That is why molecules in a solid barely move around or switch positions. In gases, the molecules move around quickly and freely, so their attractions are weak. Liquids are in between. So, to answer: solid.
extra strong intermolecular attractions between polar molecules -apex