Aqueous solution of sodium chloride conducts electricity because it is a soluble ionic compound, which when dissolved in water, it dissociates into Na + and Cl -
ions. These ions are mobile charge carriers which can accept and transfer electrons in solution, and therefore facilitate the conduction of electricity.
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Sulfur does not conduct electricity in aqueous solution. This is because sulfur in its elemental form is a non-metal and is a poor conductor of electricity. In aqueous solution, sulfur does not exist as an ionic or free electron-carrying species that would allow it to conduct electricity.
The light bulb would not light up when placed in a solid sodium chloride because the solid does not conduct electricity. However, in an aqueous solution of sodium chloride, the solution is able to conduct electricity due to the presence of free ions, allowing the light bulb to light up.
Hydrogen Chloride will ionize in water completely, since it's a strong acid, to give H+ and Cl- ions. The pH will be low...acidic. But the molecules of Sucrose in water will still remain molecules. They will not ionize or "dissociate" into separately moving ions. That's because HCl is ionic but Sucrose is molecular.
A covalent compound with no free ions, such as nonpolar molecules like oil or sugar, would not conduct electricity in aqueous solution or in the molten state. Ionic compounds like table salt or potassium chloride, which dissociate into ions in solution or molten form, can conduct electricity due to the presence of free ions.
Copper II chloride (CuCl2) is an ionic compound because copper is a metal and chloride is a non-metal. Like all ionic compounds in aqueous solutions (i.e., dissolved in water), it conducts electricity.
Yes, sodium chloride (table salt) conducts electricity when it is dissolved in water. This is because it dissociates into ions (sodium and chloride ions) in solution, which are able to carry electrical charge and allow the flow of electricity.
Potassium chloride dissociates into ions (K+ and Cl-) in aqueous solution, allowing for the movement of charged particles. This movement of ions enables the flow of electricity, making potassium chloride a conductor in aqueous solution.
Aqueous sodium chloride contains dissociated ions which are free to move and conduct electricity. Dry sodium chloride does not conduct electricity because the ions are not free to move in a solid state.
Sulfur does not conduct electricity in aqueous solution. This is because sulfur in its elemental form is a non-metal and is a poor conductor of electricity. In aqueous solution, sulfur does not exist as an ionic or free electron-carrying species that would allow it to conduct electricity.
The light bulb would not light up when placed in a solid sodium chloride because the solid does not conduct electricity. However, in an aqueous solution of sodium chloride, the solution is able to conduct electricity due to the presence of free ions, allowing the light bulb to light up.
For a substance to conduct electricity, it must either have free electrons or have mobile ions. Since in solution NaCl dissociates into Na+ and Cl- ions, it is capable of conducting electricity. In other words, aqueous NaCl conducts electricity. Molten sodium chloride is also a good conductor.
Yes, aqueous sodium chloride solution is a good conductor of electricity. Since, it is an ionic salt, when dissolved in water it dissociates into ions and thus the free ions conduct electricity.
In order to conduct electricity, sodium chloride has to separate into its ionic forms (sodium ions and chloride ions). It does this in a water (aqueous) solution and also when in molten form, which is when heated above 801 °C.
Sodium chloride conduct electricity only when is as an electrolyte: in water solution or melted.
Hydrogen Chloride will ionize in water completely, since it's a strong acid, to give H+ and Cl- ions. The pH will be low...acidic. But the molecules of Sucrose in water will still remain molecules. They will not ionize or "dissociate" into separately moving ions. That's because HCl is ionic but Sucrose is molecular.
Hydrogen iodide is dissociated in water.
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.