yes
Copper sulphate can conduct electricity. However, this will only happen when it is in liquid or gaseous state but not in solid form.
Copper sulfate dissociates into ions in water, allowing the ions to move and carry an electric current. Ethanol does not dissociate into ions as easily as water, so it is not able to conduct electricity as effectively.
Yes, copper sulfate crystals can conduct electricity when dissolved in water because the ions present in the solution are free to carry the electric current. However, solid copper sulfate crystals do not conduct electricity as well because the ions are not free to move.
Distilled water plus copper sulfate becomes a good conductor because copper ions from copper sulfate can dissociate in water to conduct electricity. However, distilled water alone is a poor conductor due to the lack of ions. Adding copper sulfate introduces ions, allowing the solution to conduct electricity effectively.
Solid copper sulfate does not conduct electricity because the ions are not free to move and carry an electric charge. However, when copper sulfate is dissolved in water, it dissociates into copper ions and sulfate ions, both of which are free to move and conduct electricity. This movement of charged particles allows for the flow of electric current through the solution.
Copper sulphate can conduct electricity. However, this will only happen when it is in liquid or gaseous state but not in solid form.
Copper sulfate dissociates into ions in water, allowing the ions to move and carry an electric current. Ethanol does not dissociate into ions as easily as water, so it is not able to conduct electricity as effectively.
When copper sulfate is dissolved in water, it dissociates into copper ions (Cu2+) and sulfate ions (SO4 2-). This forms a blue-colored solution due to the presence of copper ions in the water. The solution can conduct electricity due to the presence of free ions.
Yes, copper sulfate crystals can conduct electricity when dissolved in water because the ions present in the solution are free to carry the electric current. However, solid copper sulfate crystals do not conduct electricity as well because the ions are not free to move.
Distilled water plus copper sulfate becomes a good conductor because copper ions from copper sulfate can dissociate in water to conduct electricity. However, distilled water alone is a poor conductor due to the lack of ions. Adding copper sulfate introduces ions, allowing the solution to conduct electricity effectively.
Solid copper sulfate does not conduct electricity because the ions are not free to move and carry an electric charge. However, when copper sulfate is dissolved in water, it dissociates into copper ions and sulfate ions, both of which are free to move and conduct electricity. This movement of charged particles allows for the flow of electric current through the solution.
No, copper is not an electrolyte. Electrolytes are substances that conduct electricity when dissolved in water, while copper is a metal that does not conduct electricity in the same way.
Yes if it's molten or dissolved in water as the ions (charged particles) can move. No when in solid state as the ions can't move out of position so there is/are no charge/ no free electrons.
Copper atoms have mobile electrons that can flow freely to conduct electricity in solid or liquid form. In copper(II) sulfate, the copper atoms are already bonded to sulfate ions, limiting the movement of electrons. When the compound is melted or dissolved in water, the copper atoms can dissociate from the sulfate ions, allowing for the flow of charged particles and therefore 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 sulphate gets hydrated in water and thus is diffusible.
Yes, copper sulphate can dissolve in water. When added to water, copper sulphate dissociates into copper ions (Cu2+) and sulphate ions (SO4 2-), forming a blue-colored solution.