When sodium chloride dissolves in water, chlorine and sodium atoms separate as a result of the water molecules' action. They may freely travel as positively and negatively charged ions in the water. The solution can conduct electricity due to this charge separation.
Explanation:
This is due to the fact that saltwater effectively conducts electricity, making ocean water a source of clean energy. Chloride ions and sodium ions combine to form salt molecules.
When sodium chloride dissolves in water, chlorine and sodium atoms separate as a result of the water molecules' action. They may freely travel as positively and negatively charged ions in the water. The solution can conduct electricity due to this charge separation.
The sodium and chloride separate when an electrical charge is applied to a salt (NaCl) solution. Due to its negative charge, chloride is drawn to electrical charges on the positive side, where it forms bonds with water's oxygen and hydrogen.
Answers & Comments
Answer:
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Answer:
When sodium chloride dissolves in water, chlorine and sodium atoms separate as a result of the water molecules' action. They may freely travel as positively and negatively charged ions in the water. The solution can conduct electricity due to this charge separation.
Explanation:
This is due to the fact that saltwater effectively conducts electricity, making ocean water a source of clean energy. Chloride ions and sodium ions combine to form salt molecules.
When sodium chloride dissolves in water, chlorine and sodium atoms separate as a result of the water molecules' action. They may freely travel as positively and negatively charged ions in the water. The solution can conduct electricity due to this charge separation.
The sodium and chloride separate when an electrical charge is applied to a salt (NaCl) solution. Due to its negative charge, chloride is drawn to electrical charges on the positive side, where it forms bonds with water's oxygen and hydrogen.
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