The equilibrium constant, K_p, for the following reaction is 55.6at 698 K:

H₂(g) + I₂(g) 2HI(g)

Calculate the equilibrium partial pressures of all species when H₂ and I₂, each at an intitial partial pressure of 1.33 atm, are introduced into an evacuated vessel at 698 K.

PH2	=	atm
PI2	=	atm
PHI	=	atm

 

The equilibrium constant, K_p, for the following reaction is 1.80×10^-2 at 698 K:

2HI(g) H₂(g) + I₂(g)

Calculate the equilibrium partial pressures of all species when HI(g) is introduced into an evacuated flask at a pressure of 1.64 atm at 698 K.

PHI	=           atm
PH2	=            atm
PI2	=           atm

 

A student ran the following reaction in the laboratory at 297 K:

2NOBr(g) 2NO(g) + Br₂(g)

When he introduced NOBr(g) at a pressure of 0.292 atm into a 1.00 L evacuated container, he found the equilibrium partial pressure of Br₂(g) to be 8.43×10^-2 atm.

Calculate the equilibrium constant, K_p, he obtained for this reaction.

K_p = 

 

A student ran the following reaction in the laboratory at 304 K:

2NO(g) + Br₂(g) 2NOBr(g)

When she introduced NO(g) and Br₂(g) into a 1.00 L evacuated container, so that the initial partial pressure of NO was 1.15 atm and the initial partial pressure of Br₂ was 0.531 atm, she found that the equilibrium partial pressure of Br₂ was 0.228 atm.

Calculate the equilibrium constant, K_p, she obtained for this reaction.

K_p = 

 

Carbon tetrachloride can be produced by the following reaction:

CS₂(g) + 3 Cl₂(g) ⇄ S₂Cl₂(g) + CCl₄(g)

In an experiment, 0.120 mol of CS₂ and 0.360 mol of Cl₂ were placed in a 1.00-L flask at a particular temperature. After equilibrium has been achieved, the mixture contains 0.030 mol CCl₄. Calculate the value of K under the experimental conditions.

K =

 

The equilibrium constant, K_p , for the following reaction is 0.110at 298 K.

NH₄HS(s) NH₃(g) + H₂S(g)

If an equilibrium mixture of the three compounds in a 4.64 L container at 298 K contains 2.15 mol of NH₄HS(s) and 0.120mol of NH₃(g), the partial pressure of H₂S(g) is          atm.

 

 

 

The equilibrium constant, K_p , for the following reaction is 0.215at 673 K.

NH₄I(s) NH₃(g) + HI(g)

If an equilibrium mixture of the three compounds in a 5.71 L container at 673 K contains 1.55 mol of NH₄I(s) and 0.266mol of NH₃(g), the partial pressure of HI(g) is           atm.