What I can tell you is that H30 is formed when an acid comes into contact with water and all acids have a hydrogen proton ion so when it combines h20 becomes h30 so H30 and OH would be H302 well that's all hoped i helped.
10^-14
The concentration of hydronium ions in pure water can be thought of as the concentration of H+ ions in water. Since the pH of pure water is 7 and pH is -log(concentration of H+ ions). This means that there are 10^-7 M of H3O+ ions in pure water.
The conjugate base for the hydronium ion (H3O+) is indeed water
The pure water has the pH=7; the concentrations of OH- and H3O + are equivalent.
h3o is a carbonates
10^-14
.5M
The concentration of hydronium ions in pure water can be thought of as the concentration of H+ ions in water. Since the pH of pure water is 7 and pH is -log(concentration of H+ ions). This means that there are 10^-7 M of H3O+ ions in pure water.
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).
The conjugate base for the hydronium ion (H3O+) is indeed water
The pure water has the pH=7; the concentrations of OH- and H3O + are equivalent.
h3o is a carbonates
Cu+ H2O [OH + H3O= 2H2O]Copper plus more than one water = [CuOH + H3O]
If the PH of lemon juice at 298 k is found to be 2.32, the concentration of H3O plus ions in the solution would be 0.5 M.
Hydronium is the protonated water molecule: H3O+It is found in pure water formed by autoprotolysis, at concentration of 1.0*10-7 mol/L:H2O + H2O
The pH is a measure of the concentration of H3O+ in a solution. The lower the pH, the higher the concentration of H3O+. This is because of the way it is defined:pH = - log10 [H3O+]or in other words, the pH is the negative logarithm (in base 10) of the concentration of H3O+.Water, and water-based solutions have a special property: if you multiply the concentration of H3O+ and the concentration of OH-, you always get a constant number, no matter what. Mathematically, that is:[H3O+] * [OH-] = 1 x 10-14This also says the the two concentrations are inverselyproportional. So when one is high, the other has to be low.So, getting back to your question, we know the pH of each solution. From that we know the concentration of H3O+. Again, lower the pH, the higher the concentration of H3O+. And since the concentrations of H3O+ and OH- are inversely proportional, when H3O+ is high, the OH- concentration is low. So which solution has the lowest amount of H3O+? That's the one that has the highest pH, and that will also have the highest concentration of OH-.See the Related Questions for more information about pH, acids and bases.
H3O+ (or just H+)