ngek. scihi ka sah?haha
I didn't know electricity had a molten state...
Yes, nickel chloride can conduct electricity in its molten state or when dissolved in water. In these forms, the ions are free to move and can carry an electric current. However, solid nickel chloride is an insulator and does not conduct electricity.
Calcium can conduct electricity in both its solid and molten state because it has mobile charge carriers. In its solid state, calcium atoms are arranged in a lattice structure and the movement of electrons within the lattice allows for electrical conductivity. In its molten state, the calcium ions are free to move throughout the liquid, facilitating the flow of electric current.
Not in its usual solid state. But like other ionic compounds calcium chloride will conduct electricity if molten or dissolved in water.
Some materials that can conduct electricity include metals such as copper, silver, and aluminum, as well as carbon in the form of graphite. Conductivity is based on the availability of free electrons within the material to carry electric current.
Molten sulfur consists of S8 molecules that do not have free-moving charge carriers, so they cannot conduct electricity. On the other hand, molten copper chloride dissociates into Cu+ and Cl- ions, which are free to move and carry electrical charge, making it capable of conducting electricity.
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.
Copper and molten sodium chloride are electrical conductors.
As copper and chlorine are bonded by ionic bonding , they are placed in a crystal lattice and there is no free moving ions to conduct electricity at the solid state. In molten state, the ions are free to move about.
Yes, molten copper can conduct electricity because the free-moving electrons in the molten state allow for the flow of electric current. When copper is molten, the atomic structure is disrupted, allowing for the easy movement of charged particles and thus conductivity.
Yes. Molten copper is just in the liquid phase but the mobile elctrons that compose the metallic bonds are still there hence it will still be a conductor.
Molten lead can conduct electricity because in the molten state, the lead atoms are free to move and carry electric charge. This allows electric current to flow through the molten lead, making it a conductor of electricity.
Yes, potassium bromide does conduct electricity when in a molten state. This is because the ions in the molten potassium bromide are free to move and carry electric charge, allowing it to conduct electricity.
Yes, molten sugar can conduct electricity. When sugar is melted, it breaks down into its constituent molecules, which can carry an electric charge and allow for the flow of electricity. However, molten sugar is not a strong conductor of electricity compared to metals or other materials.
Yes, giant covalent structures can conduct electricity when molten because the atoms are free to move and carry charge. This allows for the formation of a continuous pathway for the flow of electricity. Examples of giant covalent structures that can conduct electricity when molten include graphite and silicon.
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.
Yes, sodium bromide conducts electricity in the molten state because the ions are free to move and carry electric charge.