At a perfect pH of 7, water would contain neither.
Hydronium and hydroxide ions
[H3O+] = 1x10^-7 M = hydronium ion concentration[OH-] = 1x10^-7 M = hydroxide ion concnetration
false
Completely pure water contains only the ions H+ and OH-.The first answerer had it right for the most part (Hydrogen ions do not exist by themselves in water, but rather as Hydronium ions, or H3O+)Water goes through the reversible process of self-ionization:2 H2O H3O+ + OH-This is why water has a neutral pH; water has equal amounts of Hydroxide and Hydronium ions, unless an acid or base is added to shift the equilibrium.
2H2O H3O^+1 + OH^-1at 25 deg C, [H3O+] = [OH-] = 1x10^-7 mol/LH3O^+1 = hydronium ionOH^-1 = hydroxide ion
Hydronium and hydroxide ions
no
its 7
[H3O+] = 1x10^-7 M = hydronium ion concentration[OH-] = 1x10^-7 M = hydroxide ion concnetration
1.0x10^7M
false
Absolutely pure water is not even that. Water dissociates itself into dissolved hydroxide and hydrogen ions, the latter forming hydronium. It is thus a solution of both of these ions.
Absolutely pure water is not even that. Water dissociates itself into dissolved hydroxide and hydrogen ions, the latter forming hydronium. It is thus a solution of both of these ions.
no, because pure water has an even number of H+ ions and OH- ions that have all bonded to form H2O.
If the water is pure, it will contain H3O+ ions and OH- ions. They are hydronium ions and hydroxyl ions.
Completely pure water contains only the ions H+ and OH-.The first answerer had it right for the most part (Hydrogen ions do not exist by themselves in water, but rather as Hydronium ions, or H3O+)Water goes through the reversible process of self-ionization:2 H2O H3O+ + OH-This is why water has a neutral pH; water has equal amounts of Hydroxide and Hydronium ions, unless an acid or base is added to shift the equilibrium.
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