Ionic compounds are good electrical conductors in the liquid state.
Ionic compounds have good electrical conductivity in the liquid state because the ions are free to move and carry an electric charge. In the liquid state, the ions are not held in fixed positions like in the solid state, allowing them to flow and conduct electricity.
Ionic compounds are typically good conductors when dissolved in water or molten state due to the presence of free ions that can carry electrical charge. However, in their solid state, ionic compounds are usually non-conductive as the ions are locked in a lattice structure and unable to move to conduct electricity.
Ionic compounds are typically good conductors of electricity in their molten or dissolved state, where their ions are free to move and carry charge. However, in their solid state, ionic compounds are typically poor conductors of electricity because the ions are held in fixed positions within the crystal lattice and cannot move freely.
Molecular compounds don't tend to have any free electrons (delocalised electrons) therefore they cannot conduct electricity and cannot carry the energy around the compound. This is also the case as a liquid because the outer shell still hasn't lost any electrons ready to be free and although the bonds have been broken there is no delocalised electrons.
Ionic compounds conduct electricity in their molten or aqueous state because the ions are free to move and carry an electric charge. In the solid state, however, ionic compounds are poor conductors since the ions are fixed in their positions and cannot move to carry a current.
There are free ions in the liquid state of ionic compound, hence the are good conductors of electricity.
Molecular compounds are composed of neutral molecules, their electrical conductivity is generally quite poor, whether in the solid or liquid state.
Ionic compounds have good electrical conductivity in the liquid state because the ions are free to move and carry an electric charge. In the liquid state, the ions are not held in fixed positions like in the solid state, allowing them to flow and conduct electricity.
Ionic compounds are typically good conductors when dissolved in water or molten state due to the presence of free ions that can carry electrical charge. However, in their solid state, ionic compounds are usually non-conductive as the ions are locked in a lattice structure and unable to move to conduct electricity.
Ionic compounds are typically good conductors of electricity in their molten or dissolved state, where their ions are free to move and carry charge. However, in their solid state, ionic compounds are typically poor conductors of electricity because the ions are held in fixed positions within the crystal lattice and cannot move freely.
BaF2 would be the best conductor in the pure liquid or molten state due to its ionic nature and ability to dissociate into ions. Other compounds listed are covalent in nature and do not dissociate into ions easily in the liquid or molten state, resulting in poor conductivity.
In solution (an electrolyte is formed) and in liquid state (melted).
Compounds do not get a new name when they change physical state. Carbon dioxide's name in the liquid state in just "liquid carbon dioxide"
Molecular compounds don't tend to have any free electrons (delocalised electrons) therefore they cannot conduct electricity and cannot carry the energy around the compound. This is also the case as a liquid because the outer shell still hasn't lost any electrons ready to be free and although the bonds have been broken there is no delocalised electrons.
Ionic compounds conduct electricity in their molten or aqueous state because the ions are free to move and carry an electric charge. In the solid state, however, ionic compounds are poor conductors since the ions are fixed in their positions and cannot move to carry a current.
Liquid is one of the 3 (or 4) states of matter: Gas, liquid, and solid. Being a liquid really has nothing to do with its conductivity. Example: Pure water is not a good conductor. Pure mercury in liquid form is a really good conductor. The Fourth state of matter is considered to be Plasma.
Ionic compounds typically have low electrical conductivity in the solid state because the ions are tightly held in a fixed lattice structure. However, when ionic compounds are melted or dissolved in water, the ions are free to move and conduct electricity.