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Amphiprotic (1 Viewer)
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wizzkids
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No.
The amount of OH- and H3O+ ions present is very small, approximately 10-7 M.L-1. These equations are describing how the pH of water will be altered by the presence of this ion (not by much it would seem, because this ion is amphiprotic)
These equations are describing equilibrium.
The amount of OH- and H3O+ ions present is very small, approximately 10-7 M.L-1. These equations are describing how the pH of water will be altered by the presence of this ion (not by much it would seem, because this ion is amphiprotic)
These equations are describing equilibrium.
wizzkids
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Good question. This ion has the ability to be both a proton donor and a proton acceptor. That tells us something about how this ion is going to behave in water. If you try to lower the pH of the solution by adding more H3O+, it will react with them, and if you try to raise the pH of the solution by adding OH- it will react with them too. So the pH can't move very far away from neutral which is 7 or -log[H+], and we know that from the Ka of water. That is how we can deduce that the concentrations of H3O+ and OH- must be small.