Calcium is a metal.
Calcium Hydroxide cannot conduct electricity when it is in solid state but it can conduct electricity in aqueous solution state or molten state. This is because it is an ionic compound. Ionic compounds are made of charged ions which are held tightly in solid state but become mobile in molten or aqueous solution state. The movement of these mobile ions between electrodes helps in conducting electricity.
I didn't know electricity had a molten state...
Not in its usual solid state. But like other ionic compounds calcium chloride will conduct electricity if molten or dissolved in water.
NaCl can conduct electricity in the molten state, and when dissociated into its constituent ions in water, Na2+ and Cl-.
yes
No, like most ionic compounds it does not.
Do_ionic_compounds_conduct_electricitycompounds conduct electricity when they are either dissolved in water of they are molten. If they remain a solid then they will not conduct electricity
molten metals are liquids that conduct electricity (mercury is molten at room temperature)electrolytes are liquids that conduct electricity (acids, salts, or bases either dissolved in water or molten)ionized gases conduct electricity (unless ionized gases are excellent insulators)
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.
I didn't know electricity had a molten state...
Calcium Hydroxide cannot conduct electricity when it is in solid state but it can conduct electricity in aqueous solution state or molten state. This is because it is an ionic compound. Ionic compounds are made of charged ions which are held tightly in solid state but become mobile in molten or aqueous solution state. The movement of these mobile ions between electrodes helps in conducting electricity.
Molten calcium chloride conducts electricity because it contains free-moving ions (positively charged Ca2+ and negatively charged Cl-) that can carry an electric current. This is because in the molten state, the ions are not fixed in a lattice structure and are able to move freely to carry charge.
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.
The mobility of ions in a molten salt allows the two types of ions present to move in opposite directions in an electric field and thereby conduct electricity, whereas in solid salts, the barriers to migration of the ions are too great.
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, 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.
In the solid state, calcium chloride ions are held in a fixed position within the crystal lattice and cannot move freely to carry an electric charge, making it a poor conductor of electricity. Only when dissolved in water or in a molten state can calcium chloride dissociate into ions that are free to move and conduct electricity.