In the equilibrium, 2A(g)hArr2B(g)+C(2...

In the equilibrium,
`2A(g)hArr2B(g)+C_(2)(g)`
the equilibrium concentrations of A, B and `C_(2)` at 400 K are `1xx10^(-4)M,2.0xx10^(-3)M, 1.5xx10^(-4)M` respectively. The value of `K_(C)` for the equilibrium at 400 K is

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`2A(g)hArr 2B(g)+C_(2)(g)`,
equilibrium concentrations
`[A] = 1xx10^(-4)M`
`[B] = 2.0xx10^(-3)M`
`[C_(2)]=1.5xx10^(-4)M`
`K_(C )=([B]^(2)[C_(2)])/([A]^(2))`
`K_(C )=([2.0xx10^(-3)]^(2)[1.5xx10^(-4)])/([1xx10^(-4)]^(2))`
`K_(C )=6xx10^(-2)`

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In the equilibrium, `2A(g)hArr2B(g)+C_(2)(g)` the equilibrium concentrations of A, B and `C_(2)` at 400 K are `1xx10^(-4)M,2.0xx10^(-3)M, 1.5xx10^(-4)M` respectively. The value of `K_(C)` for the equilibrium at 400 K is

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SURA PUBLICATION-GOVT. MODEL QUESTION PAPER - II -PART - IV

In the equilibrium,
`2A(g)hArr2B(g)+C_(2)(g)`
the equilibrium concentrations of A, B and `C_(2)` at 400 K are `1xx10^(-4)M,2.0xx10^(-3)M, 1.5xx10^(-4)M` respectively. The value of `K_(C)` for the equilibrium at 400 K is