At 100°C and 2 bar pressure, the degree of dissociation of phosgene is 6.30 x 10$. Calculate the equilibrium constants Kp, Kc and Kx for the dissociation COCI2 (g) = CO (g) + C12 (g) [8.05 x 10-9 bar; 2.59 x 10-10 mol dm³; 3.97 x 10°]

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At 100°C and 2 bar pressure, the degree of dissociation of phosgene is 6.30 x 10$. Calculate the
equilibrium constants Kp, Kc and Kx for the dissociation
COCI2 (g) = CO (g) + Cl2 (g)
[8.05 x 10-9 bar; 2.59 x 10-10 mol dm³; 3.97 x 10°]
At 2257 K and 1 atm total pressure, water is 1.77 % dissociated at equilibrium by the reaction
2 H2O = 2H2(g) +O2(g)
Calculate (a) K; (b) AG°at this temperature. [2.85 x 106; + 239.6 kJ mol·']
Transcribed Image Text:At 100°C and 2 bar pressure, the degree of dissociation of phosgene is 6.30 x 10$. Calculate the equilibrium constants Kp, Kc and Kx for the dissociation COCI2 (g) = CO (g) + Cl2 (g) [8.05 x 10-9 bar; 2.59 x 10-10 mol dm³; 3.97 x 10°] At 2257 K and 1 atm total pressure, water is 1.77 % dissociated at equilibrium by the reaction 2 H2O = 2H2(g) +O2(g) Calculate (a) K; (b) AG°at this temperature. [2.85 x 106; + 239.6 kJ mol·']
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