Consider the reaction 2SO(2(g)) + O2(g...

Consider the reaction `2SO_(2(g)) + O_2(g) harr 2SO_(3(g))` for which `K_c = 278 M^(-1) 0.001` mole of cash of the reagents `SO_(2(g))`, `O_2(g)` and `SO_3(g)` are mixed in a 1.0`l` flask. Determine the reaction quotient of the system and the spontaneous direction of the system.

`Q_c = 1000`, the equilibrium shifts to the right

`Q_c = 1000`, the equilibrium shifts to the left

`Q_c = 0.001`, the equilibrium shifts to the left

`Q_c = 0.001`, the equilibrium shifts to the right

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The correct Answer is:

`Q_(c)=([SO_(3)]^(2))/([SO_(2)]^(2)[O_(2)])=((0.001)^(2))/((0.001)^(2)(0.001))=1000`

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Consider the reaction `2SO_(2(g)) + O_2(g) harr 2SO_(3(g))` for which `K_c = 278 M^(-1) 0.001` mole of cash of the reagents `SO_(2(g))`, `O_2(g)` and `SO_3(g)` are mixed in a 1.0`l` flask. Determine the reaction quotient of the system and the spontaneous direction of the system.

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