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At `445^(@)C,K_(c)` for the following reaction is `0.020`. `2HI(g)H_(2)(g)+l_(2)(g)` A mixture of `H_(2),I_(2)` and `HI` in a vessel at `445^(@)C` has

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At `445^(@)C,K_(c)` for the following reaction is `0.020`.
`2HI(g)H_(2)(g)+l_(2)(g)`
A mixture of `H_(2),I_(2)` and `HI` in a vessel at `445^(@)C` has the following concentration: ltbgt `[HI]=2.0M,[H_(2)]=0.50M` and `[I_(2)]=0.10M`. The statement that is true concerning the reaction quotient, `Q_(c)` is:
A. `Q_(c)K_(c),` the system is at equilibrium
B. `Q_(c)` less than `K_(c),` more `H_(2) "and" I_(2)` will be produced
C. `Q_(c)` less than `K_(c),` more `HI` will be produced
D. `Q_(c)` is greater than `K_(c),` more `H_(2) "and" I_(2)` will be produced
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Correct Answer - B
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