The electrolyte in a lead storage battery is a solution of sulfuric acid and water.
This solution is not an electrolyte.
Salt in water (if this is for apex) Explanation: because salt is made of two elements, sodium and chlorine, which easily dissolve into water into ions, they create an electrolyte solution. Remember that an electrolyte solution is a solution that generally contains ions, atoms or molecules that have lost or gained electrons, and is electrically conductive (from Google). Hope this helps!
Protons are not usually involved as current carriers, except in a solution that contains hydrogen ions (i.e., protons).Protons are not usually involved as current carriers, except in a solution that contains hydrogen ions (i.e., protons).Protons are not usually involved as current carriers, except in a solution that contains hydrogen ions (i.e., protons).Protons are not usually involved as current carriers, except in a solution that contains hydrogen ions (i.e., protons).
Clorox is a household bleach product that typically contains sodium hypochlorite as its active ingredient. Sodium hypochlorite is an electrolyte, as it dissociates into ions in solution, conducting electricity.
The electrolyte in a lead storage battery is a solution of sulfuric acid and water.
Yes. Sulfuric acid is a strong electrolyte.
In water, it is a weak electrolyte since it does not completely dissolve.
Electrolysis can be used to produce hydrogen by passing an electric current through water, splitting it into hydrogen and oxygen gases. This process involves using an electrolyzer, which contains electrodes and an electrolyte solution, to separate the hydrogen and oxygen molecules.
An electrolyte is a liquid or gel that contains ions and can be decomposed by electrolysis.Water will act as an electrolyte when there are ions (from acids, bases or salts) present in water.
sodium chloride (in aqueous solution or in molten state) is an electrolyte.
This solution is not an electrolyte.
In a car battery, the acid solution is called electrolyte. It is typically a mixture of sulfuric acid and water that helps facilitate the flow of electrical current between the battery's positive and negative terminals.
Mg + H2SO4 --> MgSO4 + H2 It would appear that this bubbling is hydrogen gas rising to the surface of the solution.
Because copper isn't reactive enough to displace hydrogen if the solution is cool or cold. It becomes easier for copper to replace the hydrogen when the solution is warm.
Formic acid is a weak electrolyte. In solution, it partially dissociates into hydrogen ions and formate ions. This means it produces a small concentration of ions compared to a strong electrolyte.
Diluting sulfuric acid decreases the hydrogen ion concentration because the concentration of sulfuric acid molecules in the solution decreases. As a result, the overall hydrogen ion concentration decreases in the diluted solution.