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प्रश्न
At 700 K, the equilibrium constant for the reaction
\[\ce{H_{2(g)} + I_{2(g)} ↔ 2HI_{(g)}}\]
is 54.8. If 0.5 molL–1 of HI(g) is present at equilibrium at 700 K, what are the concentration of H2(g) and I2(g) assuming that we initially started with HI(g) and allowed it to reach equilibrium at 700 K?
उत्तर
It is given that equilibrium constant `"K"_"C"` for the reaction
\[\ce{H_{2(g)} + I_{2(g)} ↔ 2HI_{(g)}}\] is 54.8.
Therefore, at equilibrium, the equilibrium constant `"K'"_"C"` for the reaction
\[\ce{2HI_{(g)} ↔ H_{2(g)} + I_{2(g)}}\] will be `1/54.8`
[HI] = 0.5 `" mol L"^(-1)`
Let the concentrations of hydrogen and iodine at equilibrium be x mol L–1
`["H"_2] = ["I"_2] = x " mol" " L"^(-1)`
Therefore, `(["H"_2]["I"_2])/["HI"]^2 = "K'"_"C"`
`=> (x xx x)/(0.5)^2 = 1/54.8`
`=> x^2 = 0.25/54.8`
`=> x = 0.06754`
x = 0.068 `" mol L"^(-1)` (approximatley)
Hence, at equilibrium, `["H"_2] = ["I"_2] = 0.068 " mol L"^(-1)`
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