Ag (silver) because it is a metal and metals conduct electricity no matter in solid or liquid phase.
If your talking about state, like as in states of matter, then electricity has none. Electricity is not matter, so it can not have a state.
A substance that carries electricity under certain circumstances but not under others is called a semiconductor. Semiconductors have properties that allow them to conduct electricity under specific conditions, such as when they are doped with impurities or when they are subjected to heat or light. Common examples include silicon and germanium, which are widely used in electronic devices. Their ability to switch between conducting and non-conducting states makes them essential for modern electronics.
Water is a substance that can exist in all three states of matter: solid (ice), liquid (water), and gas (water vapor).
Hydroelectric power plants generate about 7% of the electricity in the United States.
When a substance melts, it changes from a solid state to a liquid state. This transition occurs when the substance absorbs enough heat energy to break free from its fixed, ordered solid structure and allows its molecules to move freely in a less structured liquid state.
Yes, sodium conducts electricity. It is a metal that can easily lose its outer electron to form a positive ion, allowing it to conduct electricity in both solid and molten states.
Not all but many of the substances conduct electricity in the molten form. Those substances which are insulators do not conduct electricity in any state, but subs. like ionic compounds start conducting electricity in the molten state.
First, you should keep in mind that for a substance to conduct electricity, it must have free-moving electric charges, such as ions and electrons. In the solid state, the ions in Sodium Chloride are fixed in position by strong ionic bonds. Therefore, it does not conduct electricity in the solid state. In solution or molten states, the ions are free moving, and thus they can conduct electricity.
An ionic compound can conduct electricity when it is in a molten state or when it is dissolved in water, allowing the ions to move freely and carry an electric charge. In these states, the ions are able to flow and transmit electric current.
Bromine, as the element is called on its own is a nonmetal, and is a poor conductor of electricity. Bromide salts conduct electricity if dissolved in water or molten, but not in their normal solid states.
In solid form, ionic compounds have their ions locked in a rigid lattice structure, making them unable to conduct electricity. When melted, the ions are free to move and conduct electricity because they are now mobile and can carry an electric charge.
A substance fitting this description is a non-metal, such as sulfur or phosphorus. These elements have properties like poor thermal and electrical conductivity, brittleness, waxy or gaseous states, and inability to be hammered into thin sheets.
Yes, copper chloride does conduct electricity when dissolved in water or in molten form. In these states, the copper ions and chloride ions are free to move and carry electric charge.
Yes, ionically bonded materials conduct electricity when they are in a molten state or when they are dissolved in water. In these states, the ions are free to move and carry electric charge. But in their solid state, ionically bonded materials are generally insulators because the ions are locked in a fixed position and cannot conduct electricity.
Ionic compounds conduct electricity when they are in their molten state or when they are dissolved in water, as this allows their ions to freely move and carry electric charge. In these states, the ions are mobile and can carry an electric current.
If your talking about state, like as in states of matter, then electricity has none. Electricity is not matter, so it can not have a state.
Because of strong electrostatic force of attraction, the ions in the solid are unable to move. So they are poor form of electricity. But in molten or in liquid state the ions in solid are free to move. So they are capable of producing electricity.