Consider folllowing reaction at 300 K :
`N_(2)O_(5)(g)hArrN_(2)O_(5)(g)+O_(2)(g)` `K_(c)=5`
`N_(2)O_(5)(g)hArrN_(2)O(g)+O_(2)(g)` If 4 moles `N_(2)O_(5)` is kept in 1 L, Container to attain equilibrium and at equilibrium 5 moles of `O_(2)` are produced, then at equilibrium 5 moles of `O_(2)` are produced, then at equilibrium moles of `N_(2)O_(3)` will be :

For the first order reaction 2N_(2)O_(5)(g) rarr 4NO_(2)(g) + O_(2)(g)

For a reaction, 2N_(2)O_(5)(g) to 4NO_(2)(g) + O_(2)(g) rate of reaction is:

When N_(2)O_(5) is heated at certain temperature, it dissociates as N_(2)O_(5)(g)hArrN_(2)O_(3)(g)+O_(2)(g),K_(c)=2.5 At the same time N_(2)O_(3) also decomposes as : N_(2)O_(3)(g)hArrN_(2)O(g)+O_(2)(g). "If initially" 4.0 moles of N_(2)O_(5) "are taken in" 1.0 litre flask and alowed to dissociate. Concentration of O_(2) at equilibrium is 2.5 M. "Equilibrium concentratio of " N_(2)O_(5) is :

For the reaction 2NO_(2(g))hArrN_(2)O_(4(g)),K_(p)//K_(c) is equal to