At equilibrium, the concentrations of N(...

At equilibrium, the concentrations of `N_(2)=3.0xx10^(-3)M, O_(2)=4.2xx10^(-3) M,` and `NO=2.8xx10^(-3) M` in a sealed vessel at `800K`. What will be `K_(c)` for the reaction
`N_(2)(g)+O_(2)(g)N_(2)(g)+O_(2)(g)hArr2NO(g)2NO(g)`

Similar Questions

Explore conceptually related problems

At equilibrium , the concentrations of N_(2)=3.0xx10^(-3)M , O_(2)=4.2xx10^(-3)M and NO=2.8xx10^(-3)M in a sealed vessel at 800K . What will be K_(c) for the reaction N_(2)(g)+O_(2)(g)hArr2NO(g)

At equilibrium, the concentrations of N_2 = 3.0 xx 10^-3M, O_2 - 4.2 xx 10^-3M and NO = 2.8 xx 10^-3M in a sealed vessel at 800K. What will be K_c for the reaction N_2(g) +O_2(g) iff 2NO(g)

At equilibrium the concentration of N2 =3.0×10 −3 M,O2 =4.2×10 −3 M and NO=2.8×10 −3 M in a sealed vessel at 800 K. What will be K c for the reaction N2 +O 2 →2NO.

At 800 K in a sealed vessel for the equilibrium N_(2)(g) + O_(2) (g) hArr 2NO(g), the equilibrium concentrations of N_(2) (g), O_(2)(g) and NO(g) are respectively 0.36xx10^(-3) M, 4.41 xx 10^(-3) M and 1.4 xx 10^(-3) M. Calculate the value of K_(c) for the reaction NO(g) hArr 1//2 N_(2)(g) +1//2 O_(2) (g) at 800 K is :

Given the reaction between 2 gases represented by A_(2) and B_(2) to given the compound AB(g). A_(2)(g) + B_(2)(g)hArr 2AB(g) At equilibrium, the concentrtation of A_(2) = 3.0xx10^(-3) M of B_(2) = 4.2xx10^(-3) M of AB = 2.8xx10^(-3) M If the reaction takes place in a sealed vessel at 527^(@)C . then the value of K_(c) will be

At equilibrium, the concentrations of `N_(2)=3.0xx10^(-3)M, O_(2)=4.2xx10^(-3) M,` and `NO=2.8xx10^(-3) M` in a sealed vessel at `800K`. What will be `K_(c)` for the reaction `N_(2)(g)+O_(2)(g)N_(2)(g)+O_(2)(g)hArr2NO(g)2NO(g)`

Similar Questions

Recommended Questions

At equilibrium, the concentrations of `N_(2)=3.0xx10^(-3)M, O_(2)=4.2xx10^(-3) M,` and `NO=2.8xx10^(-3) M` in a sealed vessel at `800K`. What will be `K_(c)` for the reaction
`N_(2)(g)+O_(2)(g)N_(2)(g)+O_(2)(g)hArr2NO(g)2NO(g)`