# Why Is Nh4+ An Acid Or Base S In Ionic Equilibria, Why Is Nh3 A Base While Nh4 An Acid

Ammonium, \$ce{NH_4^+}\$, is the conjugate acid of ammonia, \$ce{NH_3}\$. I have searched the Internet and so many different answers pop up. The rule of thumb that I read was that a strong acid has a weak conjugate counterpart.

For example, a strong acid has a weak conjugate base. Is ammonium a strong or weak acid? Is ammonia a strong or weak base? Is there something to the rule of thumb that I mentioned?

Both ammonia is a weak base and ammonium ion is a weak acid. Many, even most, acid/base conjugate pairs are like that. We should be using comparative instead of absolute adjectives in the rule about conjugate acid-base strengths:

A weaker acid has a stronger conjugate base, not necessarily a totally strong one.

Đang xem: Is nh4+ an acid or base

A weaker base has a stronger conjugate acid, not necessarily a totally strong one.

Consider these reactions: egin{equation}ce{HA + H2O A- + H3O+} ag{1}end{equation}egin{equation}ce{A- + H2O HA + OH-} ag{2}end{equation}

The equilibrium constant for reaction (1) is called “acid dissociation constant”, \$K_{
m a}\$, and the second is “base association constant”, \$K_{
m b}\$. (Note that the names are there for historical reasons, they”re not correct, strictly speaking) We can factor out the water”s concentration to a good approximation in dilute solutions. Consider that

egin{equation}K_{
m a} imes K_{
m b} = frac{ce{}}{ce{}} imes frac{ce{}}{ce{}} = ce{} = K_{
m w} ag{3}end{equation}

\$K_{
m w}\$ is constant in constant temperature, hence \$K_{
m a}\$ and \$K_{
m b}\$ are inversely proportional to each other. Again, to a good approximation, we have

egin{equation}-log{K_{
m a}} + (-log{K_
m b})=-log{K_
m w}: Longrightarrow {
m p}K_{
m a} + {
m p}K_{
m b} = 14 ag{4}end{equation}

p\$K_{
m a}\$s between -1.7 (\$ce{H3O+}\$/\$ce{H2O}\$) and 15.7 (\$ce{H2O}\$/\$ce{OH-}\$) are said to be those of weak acids in water. Acids with \$K_{
m a}\$s in this range do not dissociate fully in water, and named weak acids (and weak bases, for that matter1) in water.

Now, think of it like this: \$x+y=14\$. If \$x\$ is 5, \$y\$ is 9, and if \$x\$ is -5, \$y\$ is 19. (4) is where your rule of thumb originates from. So

A weak acid like acetic acid with a p\$K_{
m a}\$ of 4.76 will have a weak conjugate base with a p\$K_{
m b}\$ of \$14-4.76=9.24\$.A strong acid like \$ce{HCl}\$ with a p\$K_{
m a}\$ of -7 will have a conjugate base with a p\$K_{
m b}\$ of \$14-(-7)=21\$.

Thus as Oscar”s answer points out, it”s inaccurate the way your guideline is phrased, but it”s naturally following if we use comparatives for phrasing. I”d dare say most conjugate bases of weak acids mentioned in textbooks are weak ones.

1: As the comment points out, the weak base range is p\$K_{
m b}\$>1. That slipped.

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