it decreases
No, it is considered an electrolyte because charged ions are present, dissolved in solution (H3O+ and HSO4-). Any acidic aqueous solution is an electrolyte due to the presence of H3O+ in solution (similarly, any basic aqueous solution is also).
We can not answer this question with out more " the following".
Hydronium ion (H3O+) form in aqueous solution because the water molecule, H2O can accept a proton which is donated from an acid. Thus, the proton (H+) reacts with H2O to produce H3O+, the hydronium ion.
2 x 10-14 M pH = 13.7
No, it is considered an electrolyte because charged ions are present, dissolved in solution (H3O+ and HSO4-). Any acidic aqueous solution is an electrolyte due to the presence of H3O+ in solution (similarly, any basic aqueous solution is also).
No, it is considered an electrolyte because charged ions are present, dissolved in solution (H3O+ and HSO4-). Any acidic aqueous solution is an electrolyte due to the presence of H3O+ in solution (similarly, any basic aqueous solution is also).
In an aqueous solution, the concentration of H3O+ is the same as the concentration of H+. If you know the pH of the solution, then that's equal to 10^(-pH).
No, it is considered an electrolyte because charged ions are present, dissolved in solution (H3O+ and HSO4-). Any acidic aqueous solution is an electrolyte due to the presence of H3O+ in solution (similarly, any basic aqueous solution is also).
We can not answer this question with out more " the following".
An acid gives its properties to an aqueous solution by making free its (acidical) H+ ions (protons) and donating this to the solvent molecules: water, so H3O+ is formed.
When an acid is placed in water, the hydronium ion (H3O^+) is formed.
Hydronium ion (H3O+) form in aqueous solution because the water molecule, H2O can accept a proton which is donated from an acid. Thus, the proton (H+) reacts with H2O to produce H3O+, the hydronium ion.
Examples are: Na+, Cl-, H+, OH-, [H3O]+.
2 x 10-14 M pH = 13.7
The pH of a substance tells if it's an acid, neutral, or a base. With all deference to the asker and to the previous answerer, technically substances don't have pH's. Aqueous solutions have pH's, and the pH tells you (on a logarithmic scale) the concentration of H+ (or more precisely H3O+) in that solution. A substance is an acid if it lowers the pH of a solution when it is dissolved. It does this by donating protons (H+'s) to water molecules to create more H3O+. A substance is a base if it increases the pH of a solution by accepting a proton from water molecules to form OH-. H3O+ and OH- are in equilibrium with each other in solution, so the more OH- you create, the less H3O+ will be in solution and the higher the pH. So a better answer to the question is that "The pH of a solution tells you if its an acidic, neutral, or basic solution."
p = -log[H+] = 12.4
10 -5.5= 3.2 X 10 -6 M hydronium=================