For the reversible reaction N(2)(g)+3H...

For the reversible reaction
`N_(2)(g)+3H_(2)(g) hArr 2NH_(3)(g)`
at `500^(@)C`, the value of `K_(p)` is `1.44xx10^(-5)` when the partial pressure is measured in atmosphere. The corresponding value of `K_(c)` with concentration in mol `L^(-1)` is

`1.44 xx 10^(-5)//(0.082 xx 500)^(-2)`

`1.44 xx 10^(-5)//(8.314xx773)^(-2)`

`1.44 xx 10^(-5)//(0.082xx773)^2`

`1.44 xx 10^(-5)//(0.082 xx 773)^(-2)`

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Verified by Experts

The correct Answer is:

`N_(2) +3H_(2) hArr 2NH_3`
`Deltan = 2-4=-2`
`K_p =K_c(RT)^(Deltan_g) , K_p =K_c[RT]^(-2)`
`K_c=(K_p)/([RT]^(-2))=(1.44xx10^(-5))/([0.082xx773]^(-2))`

For the reversible reaction
`N_(2)(g)+3H_(2)(g) hArr 2NH_(3)(g)`
at `500^(@)C`, the value of `K_(p)` is `1.44xx10^(-5)` when the partial pressure is measured in atmosphere. The corresponding value of `K_(c)` with concentration in mol `L^(-1)` is

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For the reversible reaction `N_(2)(g)+3H_(2)(g) hArr 2NH_(3)(g)` at `500^(@)C`, the value of `K_(p)` is `1.44xx10^(-5)` when the partial pressure is measured in atmosphere. The corresponding value of `K_(c)` with concentration in mol `L^(-1)` is

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For the reversible reaction
`N_(2)(g)+3H_(2)(g) hArr 2NH_(3)(g)`
at `500^(@)C`, the value of `K_(p)` is `1.44xx10^(-5)` when the partial pressure is measured in atmosphere. The corresponding value of `K_(c)` with concentration in mol `L^(-1)` is