For the following equilibrium, K(c )=6.3...

For the following equilibrium, `K_(c )=6.3xx10^(14) at 1000 K`
`NO(g)+O_(3)(g) hArr NO_(2)(g)+O_(2)(g)`
Both the forward and reverse reactions in the equilibrium are elementary bimolecular reactions. What is `K_(c )`, for the reverse reaction?

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For the following equilibrium, K_(c)=6.3xx10^(14) at 1000K NO(g)+O_(3)(g)hArrNO_(2)(g)+O_(2)(g) Both the forward and reverse reaction in the equilibrium are elementary bimolecular reactions. What is K_(c) , for the reverse reaction?

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For the following equilibrium, `K_(c )=6.3xx10^(14) at 1000 K` `NO(g)+O_(3)(g) hArr NO_(2)(g)+O_(2)(g)` Both the forward and reverse reactions in the equilibrium are elementary bimolecular reactions. What is `K_(c )`, for the reverse reaction?

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For the following equilibrium, `K_(c )=6.3xx10^(14) at 1000 K`
`NO(g)+O_(3)(g) hArr NO_(2)(g)+O_(2)(g)`
Both the forward and reverse reactions in the equilibrium are elementary bimolecular reactions. What is `K_(c )`, for the reverse reaction?