At 1,000 K in the reaction CO(2) (g) + C...

At 1,000 K in the reaction `CO_(2) (g) + C(s) rarr 2CO(g)`
The value of `P_(CO_(2)) =0.48" bar and" P_(CO) = 0 `bar. Pure graphite is present. The equilibrium partial pressures of CO and `CO_(2)` are 0.66 bar and 0.15 bar respectively. Calculate `K_(P)` of the reaction.

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To calculate the equilibrium constant \( K_p \) for the reaction \[ \text{CO}_2 (g) + C(s) \rightleftharpoons 2\text{CO}(g) \] we will follow these steps: ...

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At 1,000 K in the reaction `CO_(2) (g) + C(s) rarr 2CO(g)`The value of `P_(CO_(2)) =0.48" bar and" P_(CO) = 0 `bar. Pure graphite is present. The equilibrium partial pressures of CO and `CO_(2)` are 0.66 bar and 0.15 bar respectively. Calculate `K_(P)` of the reaction.

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At 1,000 K in the reaction `CO_(2) (g) + C(s) rarr 2CO(g)`
The value of `P_(CO_(2)) =0.48" bar and" P_(CO) = 0 `bar. Pure graphite is present. The equilibrium partial pressures of CO and `CO_(2)` are 0.66 bar and 0.15 bar respectively. Calculate `K_(P)` of the reaction.