The conjugate base differs ONE proton (less) than the acid.H3O+ --> H2O + H+so H2O is the conjugate base of H3O+
Its conjugate acid is H3O+
The conjugate base for the hydronium ion (H3O+) is indeed water
The conjugate base for H2O is the hydroxide ion, OH-. When the hydroxide ion reacts with another water molecule, a hydrogen ion may be transferred, resulting in a water molecule and a hydroxide ion. Therefore, the conjugate base of water is OH-
The conjugate acid of H2O is H3O+
The conjugate base differs ONE proton (less) than the acid.H3O+ --> H2O + H+so H2O is the conjugate base of H3O+
Its conjugate acid is H3O+
The conjugate base for the hydronium ion (H3O+) is indeed water
It is H2O
The conjugate base for H2O is the hydroxide ion, OH-. When the hydroxide ion reacts with another water molecule, a hydrogen ion may be transferred, resulting in a water molecule and a hydroxide ion. Therefore, the conjugate base of water is OH-
The conjugate acid of H2O is H3O+
In this reaction H3O+ is the conjugate acid. The original acid in this reaction is H3PO4
S-
This is a Bronsted question. Hs- is the acid in this which makes H2O a base. Therefore S-2 is the conjugate base and the H3O+ hydronium ion is the conjugate acid.
Yes, hydroxonium ions do have an accepted proton. Its conjugate acid is the water molecule.
An acid base pair which differ from each other by a single proton(H+ ion) is called a conjugate pair. Eg. Acid Base HCl Cl- NH3 NH4+ H2O H3O+
You will get a solution of hydrodium ions (H3O+) with the conjugate base of the acid. For instance, you add hydrochloric acid (HCl) to water, you get: HCl + H2O --> H3O+ + Cl-