In the following gaseous phase first order reaction
`A(g) rarr 2B(g)+C(g)`
initial pressure was found to be 400 mm of Hg and it changed to 1000 mm of Hg after 20min. Then

For the first order reaction 2N_(2)O_(5(g))to4NO_(2(g))+O_(2(g))

AB_(2(g)) dissociates as AB_(2(g)) harr AB_(2(g))+B_((g)) . The initial pressure of AB_2 is 600 mm Hg and equilibrium pressure of the mixture of gases is 800 mm Hg. Then

For a gaseous phase reaction A_((g)) + 3 B_((g)) hArr 2 C_((g)) , initial pressure is 600 mm at 1 : 3 molar ratio of A and B . If the equilibrium pressure of A is 100 mm , that of B & C respectively are (in mm)

In a gaseous phase reaction A_(2)(g)toB(t)+1(1//2)C(g) , the increase in pressure from 100 mm to 120 mm is noticed in 5 minute.The rate of disappearance of A_(2) in mm "min"^(-1) is

The enthalpy change for the reaction C_(2)H_(6(g)) rarr 2C_((g)) + 6H_((g)) is x kJ. The bond energy of C-H bond is:

Find the mass of 450cm^3 of N_2 gas at 32^@C and 750mm of Hg pressure.

For 2A(g) B(g) +3C(g) , Pressure of A at t = 0 is 500 mm, then total pressure of A, B & C at t = 10 min is( in mm)