Partial pressure of A, B, C, and D on the basis of gaseous system `A + 2B hArr` C + 3D are `A = 0.02, B = 0.10, C = 0.30` and `D = 0.05` atm. The numerical value of equilibrium constant is

For a system of gases A, B, C, and D at equilibrium A+2B hArr C+3D , the partial pressures are found to be A=2.0, B=2.0, C=3.0, and D=5.0 atm. The value of equilibrium constant is ………….

In a reaction A + B hArrC + D , the concentration of A, B, C and D (in moles/litre) are 0.5, 0.8, 0.4 and 1.0 respectively. The equilibrium constant is

In the reversible reaction A + B hArr C + D, the concentration of each C and D at equilobrium was 0.8 mole/litre, then the equilibrium constant K_(c) will be

In a reaction A+Bharr C+D the concentrations of A,B,C and D in (moles/litre) are 0.5, 0.8, 0.4 and 1.0 respectively. The equillibrium constant 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)rarrC(g)+D(g) is an elementary process. In an experimetn, the initial partial pressure of A and B are P_(A)= 0.60 and P_(B)= 0.80 atm . When P_(C )=0.2 atm , the rate of reaction relative to the initial rate is

2% of 2=? a.0.04 b.0.4 c.0.02 d.0.004