If two gases AB(2) and B(2)C are mixed, ...

If two gases `AB_(2)` and `B_(2)C` are mixed, following equilibria are readily established:
`AB_(2)(g)+B_(2)C(g)rarr AB_(3)(g)+BC(g)`,
`BC(g)+B_(2)C(g) rarr B_(3)C_(2)(g)`
If the reaction is started only with `AB_(2)` with `B_(2)C`, then which of the following us necessarily true at equilibrium?

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If two gases AB_(2) and B_(2)C are mixed, following equilibria are readily established: AB_(2)(g)+B_(2)C(g)rarr AB_(3)(g)+BC(g) , BC(g)+B_(2)C(g) rarr B_(3)C_(2)(g) If the reaction started only with AB_(2) with B_(2)C , then which of the following is necessarily true at equilibrium?

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When A_(2) and B_(2) are allowed to react, the equilibrium constant of the reaction at 27^(@)C is found (K_(C)=4).A_(2)(g)+B_(2)(g)hArr 2AB(g) What will be the equilibrium concentration of AB?

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If two gases `AB_(2)` and `B_(2)C` are mixed, following equilibria are readily established: `AB_(2)(g)+B_(2)C(g)rarr AB_(3)(g)+BC(g)`, `BC(g)+B_(2)C(g) rarr B_(3)C_(2)(g)` If the reaction is started only with `AB_(2)` with `B_(2)C`, then which of the following us necessarily true at equilibrium?

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If two gases `AB_(2)` and `B_(2)C` are mixed, following equilibria are readily established:
`AB_(2)(g)+B_(2)C(g)rarr AB_(3)(g)+BC(g)`,
`BC(g)+B_(2)C(g) rarr B_(3)C_(2)(g)`
If the reaction is started only with `AB_(2)` with `B_(2)C`, then which of the following us necessarily true at equilibrium?