(b) The following reaction reaches equilibrium at 650 °C K and 1 bar. CH₂CH:CH2 (g) + H₂ → C6H5.C₂H5 (g) (g) If the system initially contains 1.5 mol H2 for each mole of C6H5CH:CH2, assuming that the standard heat of reaction is constant in the temperature range 25 °C to 650 °C. Take R = 8.314 J/mol.K, Calculate: (i) The equilibrium constant for the reaction at 650 °C. (i) The composition of the system at equilibrium.

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(b) The following reaction reaches equilibrium at 650 °C K and 1 bar.
CH₂CH:CH2 (g) + H₂ → C6H5.C₂H5 (g)
(g)
If the system initially contains 1.5 mol H2 for each mole of C6H5CH:CH2, assuming
that the standard heat of reaction is constant in the temperature range 25 °C to 650 °C.
Take R = 8.314 J/mol.K, Calculate:
(i) The equilibrium constant for the reaction at 650 °C.
(i) The composition of the system at equilibrium.
Transcribed Image Text:(b) The following reaction reaches equilibrium at 650 °C K and 1 bar. CH₂CH:CH2 (g) + H₂ → C6H5.C₂H5 (g) (g) If the system initially contains 1.5 mol H2 for each mole of C6H5CH:CH2, assuming that the standard heat of reaction is constant in the temperature range 25 °C to 650 °C. Take R = 8.314 J/mol.K, Calculate: (i) The equilibrium constant for the reaction at 650 °C. (i) The composition of the system at equilibrium.
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