No, it is not.
H3O is Hydronium....
Depends if you have a Hydroxide [OH^-] or a Hydronium [H3O^+] solution.The Ph of an acid or base is determined by the concentration of the Hydronium [H30^+]. So just find out [H30^+], then use the equation "-log10[H30^+]. Should be between 1-14.7= neutral. lower than 7 = acid. higher than 7= base.If you have a hydroxide to begin with. Ie. NaOH. Then you will have the concentration for the OH, which is = to NaOH. If you get something like Ca(OH)2 then you just multiply your concentration of Ca(OH)2 by 2 to get (concentration)[OH^-].Then use the equation 10^14M/ [OH^-] to find out [H30^+].Once you have the [H30^+] just use the -log10[H30^+]
H30 is not a specific chemical or term. It may have been a typographical error for the chemical formula H3O, which represents a hydronium ion. This ion forms when a water molecule gains a proton (H+) and is commonly found in acidic solutions.
becomes H30+
H30+
-log [h30+]
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.
By equilibrium only in water:Ionconcentration product = KW ,meaning:[H30+] * [OH-] = 1.0*10-14 (at 25oC)H30+(aq) + OH-(aq) > H2O(l)
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.
I think it is (HSO4)- H30+
It's on Friday at 6 h30