For the reaction `A(g)+2B(g) rarr C(g)+D(g)" " (dx)/(dt)=k[A][B]^(2)`
Initial pressure of A and B are respectively `0.60 atm` and `0.80 atm`. At a time when pressure of `C` is `0.20 atm`. Rate of the reaction, relative to the initial value is `:`

The reaction A(g) + 2B(g) to C(g) is an elementary reaction. In an experiment involving this reaction, the initial pressures of A and B are ​ P_A = 0.40 atm and P_B = 1.0 atm respectively. When P_C =0.3 atm, the rate of the reaction relative to the initial rate is:-

For the reaction A_(2)(g) + 2B_(2)hArr2C_(2)(g) the partial pressure of A_(2) and B_(2) at equilibrium are 0.80 atm and 0.40 atm respectively. The pressure of the system is 2.80 atm. The equilibrium constant K_(p) will be

The reaction A(g) + 2B(g) rarr C(g) + D(g) is an elementary process. In an experiment involvig this reaction, the initial partial pressure of A and B are p_(A) = 0.60 atm and p_(B) = 0.80 atm , respectively. When p_(C ) = 0.20 atm , the rate of reaction relative to the initial rate is

The reaction A(g) + 2B(g) rarr C(g) + D(g) is an elementary process. In an experiment involvig this reaction, the initial partial pressure of A and B are p_(A) = 0.60 atm and p_(B) = 0.80 atm , respectively. When p_(C ) = 0.20 atm , the rate of reaction relative to the initial rate is

In an elementary reaction A(g)+2B(g) to C(g) the initial pressure of A and B are P_(A)=0.40 atm and P_(B) =0.60 atm respectively. After time T, if pressure of C is observed 0.1 atm, then find the value of (r_(i) (" initial rate of reaction"))/(r_(t)(" rate of reaction after time t")) .

For the reaction, N_(2)(g)+3H_(2)(g) hArr 2NH_(3)(g) the partial pressure of N_(2) and H_(2) are 0.80 and 0.40 atmosphere, respectively, at equilibrium. The total pressure of the system is 2.80 atm. What is K_(p) for the above reaction?

For the reaction AB_(2)(g) rarr AB(g) + B(g) , the initial pressure of AB_(2)(g) was 6 atm and at equilibrium, total pressure was found to be 8 atm at 300 K. The equilibrium constant of the reaction at 300 K is……

For the reaction C(s)+CO_(2)(g) hArr 2CO(g) , the partial pressure of CO_(2) and CO is 4.0atm amd 8.0 atm, respectively, at equilibrium. The K_(p) of the reaction is

For the reaction C(s)+CO_(2)(g) hArr 2CO(g) , the partial pressure of CO_(2) and CO is 2.0 and 4.0 atm, respectively, at equilibrium. The K_(p) of the reaction is

K_p for the equation A(s)⇋ B(g) + C(g) + D(s) is 9 atm^2 . Then the total pressure at equilibrium will be