Water , This is a poorly written chemical equation for the formation/dissociation of water. H^(+) + OH^(-) H2O(l)
(OH- is a base) (H+ is an acid) Therefore by adding water to HSO3, the OH- ion is produced therefore it is an Arrhenius base.
Na+ plus OH- plus H+ equals H2O plus Na+ plus Cl-
solution with [OH-] = 2.5 x 10-9 , A solution with [H+] = 1.2 x 10-4, A solution with pH = 4.5
[H+] = Kw / [OH-] = 1.0*10-14 / 2.5*10-4 = 4.0*10-11 mol/L
H+ or a proton.
The concentration of OH- decreases as the concentration of H+ increases. This is beacause there is an equilibrium H2O <-> H+ + OH- and therefore the [H+][OH-] is a constant
The net ionic equation for the given reaction is H+ (aq) + OH- (aq) β H2O (l)
The representation H2O H plus plus OH signifies the dissociation of water molecules into hydronium ions (H+) and hydroxide ions (OH-) in aqueous solution. This is the auto-ionization of water where some water molecules act as both acids (donating H+ ions) and bases (accepting H+ ions). The concentration of H+ and OH- ions in pure water is equal at 10^-7 M.
Water , This is a poorly written chemical equation for the formation/dissociation of water. H^(+) + OH^(-) H2O(l)
That depends what h and k stand for.
Hydrochloric acid and sodium hydroxide yield salt and water H+ + Cl- + Na+ + OH- --> Na+ + Cl- + H2OComment:In solutions you better leave unchanged ions ( Cl- and Na+) out of the balanced equation: called to be 'tribune ions' (people on the tribune don't take part in the 'match'):H+ + OH- --> H2O This looks simpler than: H+ + Cl - + Na + + OH- --> Na + + Cl - + H2O
Endpoint
The ion H+ is neutralized adding a ionic substance containing the in OH-.
Yes, it is correct.
Dihydrogen monoxide
An arrhenius acid is, by definition, a solution with a higher concentration of H+ ion than OH-.