For the reaction $NH_4HS_((s)) rightleftharpoons NH_(3(g)) + H_2S_((g))$, $K_c = 1.2*10^(-4)$ at 491K. What concentration of $NH_3$ will be present at equilibrium if a sample of $NH_4HS$ is placed in a vessel at 491K?

Md Ariful Islam

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Md Ariful Islam

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The equilibrium concentration of ammonia will be equqal to $1.1 * 10^(-2)"M"$.

Even before doing any calculations, you can look at the magnitude of the , $K_c$, and predict what's going to happen when you place the ammonium hydrosulfide in the vessel.

The first important thing to notice is that ammonium hydrosulfide is actually a solid. This means that its concentration is assumed to be constant during the reaction.

This is why the problem doesn't provide an initial concentration for the ammonium hydrosulfide.

Moreover, since $K_c$ is smaller than 1, the equilibrium will lie to the left, favoring the reactant. This means that you can expect smaller equilibrium concentrations, compared with that of the reactant, which will remain unchanged, for both products.

Use an ICE table to help you determine what the equilibrium concentrations of the two products will be

$" "NH_4SH_((s)) rightleftharpoons NH_(3(g)) + H_2S_((g))$
I.........$-$........................0...............0
C.......$-$.......................(+x)............(+x)
E.......$-$.........................x................x

The expression of the will look like this

$K_c = [NH_3] * [H_2S] = x * x = x^2$

This means that $x$ will be equal to

$x = sqrt(K_c) = sqrt (1.2 * 10^(-4)) = 0.01095$

Rounded to two , the equilibrium concentration of ammonia will thus be

$[NH_3] = color(green)(1.1 * 10^(-2)"M")$

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