`N_(2)O_(3)` is an unstable oxide of nitrogen and it decomposes into NO (g) and `NO_(2)(g)`where `NO_(2)(g)` is further dimerise dimerise into `N_(2)O_(4)` as `N_(2)O_(3)(g)hArrNO_(2)(g)+NO(g)" ",K_(p_(1)=2.5` bar `2NO_(2)(g)hArrN_(2)O_(4)(g)" ": K_(P2)` A flask is initially filled with pure `N_(2)O_(3)(g)` having pressure `2` bar and equilibria was established. At equilibrium partial pressure of NO (g) was found to be `1.5` ber. The value of `K_(P2)` is
A
`0.16 "bar"^(-1)`
B
`0.32 "bar"^(-1)`
C
`0.48 "bar"^(-1)`
D
`0.64 "bar"^(-1)`
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N_(2)O_(3) is an unstable oxide of nitrogen and it decomposes into NO (g) and NO_(2)(g) where NO_(2)(g) is further dimerise dimerise into N_(2)O_(4) as N_(2)O_(3)(g)hArrNO_(2)(g)+NO(g)" ",K_(p_(1)=2.5 bar 2NO_(2)(g)hArrN_(2)O_(4)(g)" ": K_(P2) A flask is initially filled with pure N_(2)O_(3)(g) having pressure 2 bar and equilibria was established. At equilibrium partial pressure of NO (g) was found to be 1.5 ber. The equilibrium partial pressure of N_(2)O_(3)(g) is :
N_(2)O_(3) is an unstable oxide of nitrogen and it decomposes into NO (g) and NO_(2)(g) where NO_(2)(g) is further dimerise dimerise into N_(2)O_(4) as N_(2)O_(3)(g)hArrNO_(2)(g)+NO(g)" ",K_(p_(1)=2.5 bar 2NO_(2)(g)hArrN_(2)O_(4)(g)" ": K_(P2) A flask is initially filled with pure N_(2)O_(3)(g) having pressure 2 bar and equilibria was established. At equilibrium partial pressure of NO (g) was found to be 1.5 ber. The equilibrium partial presure of NO_(2)(g) is:
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