For the reaction CO(g)+2H(2)(g) hArr C...

For the reaction
`CO(g)+2H_(2)(g) hArr CH_(3)OH(g)`
hydrogen gas is introduced into a `5-L` flask at `327^(@)C` containing `0.2` mol of `CO(g)` and a catalyst, untill the pressure is `4.92` atm. At this point, `0.1` mol of `CH_(3)OH(g)` is formed. Calculate the equilibrium constant `K_(p)` and `K_(c)`.

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For the reaction CO(g)+2H_(2)(g)hArrCH_(3)OH(g) Hydrogen gas is introduced into a five-litre flask at 327^(@)C , containing 0.2 mol of CO(g) and a catalyst, untill the pressure is 4.92 atm . At this point, 0.1 mol of CH_(3)OH(g) is formed. Calculate the equilibrium constants K_(p) and K_(c ) .

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The reaction, CO(g)+3H_(2)(g) hArr CH_(4)(g)+H_(2)O(g) is at equilibrium at 1300 K in a 1 L flask. It also contains 0.30 mol of CO, 0.10 mol of H_(2) and 0.02 mol of H_(2)O and an unknown amount of CH_(4) in the flask. Determine the concentration of CH_(4) in the mixture. The equilibrium constant K_(c ) for the reaction at the given temperature us 3.90 .

When 0.15 mol of CO taken in a 2.5 L flask is maintained at 750 K along with a catalyst, the following reaction takes place CO(g)+2H_(2)(g) hArr CH_(3)OH(g) Hydrogen is introduced unit the total pressure of the system is 8.5 atm at equilibrium and 0.08 mol of methanol is formed. Calculate a. K_(p) and K_(c) b. The final pressure, if the same amount of CO and H_(2) as before are used, but with no catalyst so that the reaction does not take place.

0.25 mol of CO taken in a 1.5 L flask is maintained at 500 K along with a catalyst so that the following reaction can take place: CO(g)+H_(2)(g)hArrCH_(3)OH(g) . Hydrogen is introduced until the total pressure of the system is 8.2 atm , at equilibrium, and 0.1 mol of methanol is formed. Calculate a. K_(p) and K_(c ) b. The final pressure if the same amount of CO and H_(2) as before are used but no catalyst so that the reaction does take place.

The value of K_(c ) for the reaction N_(2)(g)+3H_(2)(g)hArr2NH_(3)(g) is 0.50 at 400^(@)C . Find the value of K_(p) at 400^(@)C when concentrations are expressed in mol L^(-1) and pressure in atm.

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