The reaction : <center> CO(g)+3H2(g)hAr...

The reaction :
`CO(g)+3H_2(g)hArr CH_4(g) +H_2O(g)`
is at equilibrium at `1300` K in a one litre flask. The gaseous equilibrium mixture contains `0.30` mol of `CO`, `0.10` mol of `H_2` and `0.020` mol of `H_2O` 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 given temperature is `3.90`.

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To determine the concentration of \( CH_4 \) in the equilibrium mixture, we will follow these steps: ### Step 1: Write the balanced chemical equation The balanced equation for the reaction is: \[ CO(g) + 3H_2(g) \rightleftharpoons CH_4(g) + H_2O(g) \] ...

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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 .

For the reaction CO(g)+H_2O(g) hArr CO_2(g)+H_2(g) at a given temperature the equilibrium amount of CO_2 (g) can be increased by :

For the reaction CO(g) +H_(2)O(g) hArr CO_(2)(g)+H_(2)(g) at a given temperature the equilibrium amount of CO_(2) (g) can be increased by

An equilibrium mixture CO(g) + H_(2) O (g) hArr CO_(2) (g) + H_(2) (g) present in a vessel of one litre capacity at 1000 K was found to contain 0*4 mole of CO, 0*3 mole of H_(2)O, 0*2 mole of CO_(2) and 0*6 mole of H_(2) . If it is desired to increase the concentration of CO to 0*6 mole by adding CO_(2) into the vessel , how many moles of it must be added into equilibrium mixture at constant temperature in order to get this change ?

For the reaction CO(g)+H_(2)O(g) hArr CO_(2)(g)+H_(2)(g) at a given temperature, the equilibrium amount of CO_(2)(g) can be increased by

An equilibrium mixture CO(g)+H_(2)O(g) hArr CO_(2)(g)+H_(2)(g) present in a vessel of one litre capacity at 815^(@)C was found by analysis to contain 0.4 mol of CO, 0.3 mol of H_(2)O, 0.2 mol of CO_(2) and 0.6 mol of H_(2) . a. Calculate K_(c) b. If it is derived to increase the concentration of CO to 0.6 mol by adding CO_(2) to the vessel, how many moles must be addes into equilibrium mixture at constant temperature in order to get this change?

MODERN PUBLICATION-EQUILIBRIUM-Unit Practice Test

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