yes
conjugate acid
In the Bronstedâ??Lowry theory, a conjugate base is formed by the removal of a proton from an acid. The conjugate base of H2S is HS.
a proton
remains after an acid has given up a proton
A conjugate acid is formed when a base gains a positive hydrogen Ion (H+), and thus, having the ability to lose this ion becomes a weak acid. The opposite is true when forming a conjugate base, an acid loses a H+ ion and therefore is a base, as it is able to steal ions.
conjugate acid
In the Bronstedâ??Lowry theory, a conjugate base is formed by the removal of a proton from an acid. The conjugate base of H2S is HS.
Conjugate acid
a proton
Because water is amphoteric and acts like a Bronsted-Lowry base when mixed with an acid, it will gain a proton and produce hydronium. This is just as a base gains a proton and forms a conjugate acid.
remains after an acid has given up a proton
A conjugate acid is formed when a base gains a positive hydrogen Ion (H+), and thus, having the ability to lose this ion becomes a weak acid. The opposite is true when forming a conjugate base, an acid loses a H+ ion and therefore is a base, as it is able to steal ions.
A conjugate acid is formed when a base gains a positive hydrogen Ion (H+), and thus, having the ability to lose this ion becomes a weak acid. The opposite is true when forming a conjugate base, an acid loses a H+ ion and therefore is a base, as it is able to steal ions.
The presence of a proton.
'Conjugate' means ONE proton more (acid) or less (base) than the described acid or base respectively:So the conjugate acid of ammonia (NH3) is the ammonium cation NH4+.
They are the products of an acid-base reaction (by the Bronsted-Lowry definition). A conjugate base is what is left when an acid loses a proton (H+), for example the conjugate base of sulfuric acid (H2SO4) is the bisulfate ion (HSO4-). A conjugate acid is the product of a base gaining a proton, for example the conjugate acid of ammonia (NH3) is the ammonium ion (NH4+).
The acid formed when a base gains an H+