No, this is a weak organic acid the does not disassociate in solution more that 1% to 3%; the proton is not donated often.
No, glacial acetic acid (pure acetic acid) is a weak electrolyte. It dissociates partially into ions in solution, resulting in a low conductivity compared to strong electrolytes like hydrochloric acid.
Using citric acid as an electrolyte in a hydrogen generator can work but may not be as efficient as other electrolytes like sulfuric acid. Citric acid is a weak acid, so it may not provide the same conductivity as stronger acids. However, it can still participate in the electrolysis process to generate hydrogen gas. Be cautious with the concentration of citric acid used to ensure optimal performance and safety.
A. sulfuric acid. It completely dissociates in water to produce ions, making it a strong electrolyte. The other acids listed only partially dissociate in water, so they are considered weak electrolytes.
Yes, formic acid is a weak electrolyte in water, meaning it partially dissociates into ions. However, its conductivity is relatively low compared to strong electrolytes like salts.
no its a strong electrolyte no its a strong electrolyte
No, glacial acetic acid (pure acetic acid) is a weak electrolyte. It dissociates partially into ions in solution, resulting in a low conductivity compared to strong electrolytes like hydrochloric acid.
Using citric acid as an electrolyte in a hydrogen generator can work but may not be as efficient as other electrolytes like sulfuric acid. Citric acid is a weak acid, so it may not provide the same conductivity as stronger acids. However, it can still participate in the electrolysis process to generate hydrogen gas. Be cautious with the concentration of citric acid used to ensure optimal performance and safety.
A. sulfuric acid. It completely dissociates in water to produce ions, making it a strong electrolyte. The other acids listed only partially dissociate in water, so they are considered weak electrolytes.
Yes, formic acid is a weak electrolyte in water, meaning it partially dissociates into ions. However, its conductivity is relatively low compared to strong electrolytes like salts.
no its a strong electrolyte no its a strong electrolyte
Sulfuric acid dissociates more completely into ions in solution, yielding a higher concentration of charge carriers to conduct electricity compared to citric acid which dissociates less. Additionally, sulfuric acid is a strong acid with higher acidity and better conductivity compared to citric acid which is a weak acid with lower conductivity.
Hydrogen bromide is a strong electrolyte.
Sulfuric acid is a strong electrolyte that dissociates into ions in water, increasing the conductivity of the solution. This means that sulfuric acid can conduct electricity well due to the presence of charged particles.
No, HCIO is not a strong electrolyte. It is considered a weak electrolyte. This means that it does not dissociate completely within a solution.
A weak acid is a weak electrolyte because it partially ionizes in solution, producing only a small number of ions. This results in a low electrical conductivity compared to strong electrolytes, which fully ionize and have a high conductivity.
yes, hydrochloric acid is a strong acid, so it is a strong electrolyte.
Yes, phosphoric acid is a weak acid and a weak electrolyte. It partially dissociates in water to release hydrogen ions.