The decomposition of N(2)O(4) to NO(2) i...

The decomposition of `N_(2)O_(4)` to `NO_(2)` is carried out at `280^(@)C` in chloroform. When equilibrium is reached, `0.2` mol of `N_(2)O_(4)` and `2xx10^(-3)` mol of `NO_(2)` are present in a `2L` solution. The equilibrium constant for the reaction
`N_(2)O_(4) hArr 2NO_(2)` is

`1xx10^(-2)`

`2xx10^(-3)`

`1xx10^(-5)`

`2xx10^(-5)`

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The decomposition of N_(2)O_(4) to NO_(2) is carried out at 280^(@)C . When equilibrium is reached, 0.2 mol of N_(2)O_(4) and 2xx10^(-3)" mol of "NO_(2) are present in 2 litres solution. The K_(C) for the reaction N_(2)O_(4)hArr 2NO_(2) is

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The decomposition of `N_(2)O_(4)` to `NO_(2)` is carried out at `280^(@)C` in chloroform. When equilibrium is reached, `0.2` mol of `N_(2)O_(4)` and `2xx10^(-3)` mol of `NO_(2)` are present in a `2L` solution. The equilibrium constant for the reaction `N_(2)O_(4) hArr 2NO_(2)` is

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The decomposition of `N_(2)O_(4)` to `NO_(2)` is carried out at `280^(@)C` in chloroform. When equilibrium is reached, `0.2` mol of `N_(2)O_(4)` and `2xx10^(-3)` mol of `NO_(2)` are present in a `2L` solution. The equilibrium constant for the reaction
`N_(2)O_(4) hArr 2NO_(2)` is