Respuesta :
Answer: The pressure equilibrium constant for the reaction is [tex]4.5\times 10^0[/tex]
Explanation:
We are given:
Initial partial pressure of methane = 0.60 atm
Initial partial pressure of water vapor = 2.6 atm
Equilibrium partial pressure of hydrogen gas = 1.4 atm
The chemical equation for the reaction of methane gas and water vapor follows:
[tex]CH_4+H_2O\rightleftharpoons CO+3H_2[/tex]
Initial: 0.60 2.6
At eqllm: 0.60-x 2.6-x x 3x
Evaluating the value of 'x':
[tex]\Rightarrow 3x=1.4\\\\x=0.467[/tex]
So, equilibrium partial pressure of methane gas = (0.60 - x) = [0.60 - 0.467] = 0.133 atm
Equilibrium partial pressure of water vapor = (2.6 - x) = [2.6 - 0.467] = 2.133 atm
Equilibrium partial pressure of carbon monoxide gas = x = 0.467 atm
The expression of [tex]K_p[/tex] for above equation follows:
[tex]K_p=\frac{p_{CO}\times (p_{H_2})^3}{p_{CH_4}\times p_{H_2O}}[/tex]
Putting values in above equation, we get:
[tex]K_p=\frac{0.467\times (1.4)^3}{0.133\times 2.133}\\\\K_p=4.517\times 10^0[/tex]
Hence, the pressure equilibrium constant for the reaction is [tex]4.5\times 10^0[/tex]
