For a first order gas phase reaction :
`" "A(g)rarr2B(g)+C(g)`
`P_(0)` be initial pressure of A and `P_(t)` the total pressure at time 't' . Integrated rate equation is -

For a first order gas phase reaction : A_((g)) to 2B_((g)) +C_((g)) P_(0) be initial pressure of A and P_(t) the total pressure at time 't'. Integrated rate equation is :

For a first order gas phase reaction : A_((g)) to 2B_((g)) +C_((g)) P_(0) be initial pressure of A and P_(t) the total pressure at time 't'. Integrated rate equation is :

For the first order reaction A(g) rarr 2B(g) + C(g) , the initial pressure is P_(A) = 90 m Hg , the pressure after 10 minutes is found to be 180 mm Hg . The rate constant of the reaction is

For a first order homogenous gaseous reaction, Ato2B+C then initial pressure was P_(i) while total pressure after time 't' was P_(t) . The right expression for the rate constants k in terms of P_(i),P_(t) and t is :

For a first order homogenous gaseous reaction, Ato2B+C then initial pressure was P_(i) while total pressure after time 't' was P_(t) . The right expression for the rate constants k in terms of P_(i),P_(t) and t is :

In the first order reaction A(g)rarrB(g)+C(g) , the initial pressure of A is 11200 Pa and the total pressure at the end of 16 minutes is 14667 Pa. Calculate the half life period of reaction.

For a first order homogenous gaseous reaction, Ato2B+C then initial pressure was P_(i) while total pressure after time 't' was P_(t) . The right expression for the rate constants k in terms of P_(i),P_(t) and t is : a) k=(2.303)/(t)"log"((2P_(i))/(3P_(i)-P_(t))) b) k=(2.303)/(t)"log"((2P_(i))/(2P_(t)-P_(i))) c) k=(2.303)/(t)"log"((P_(i))/(P_(i)-P_(t))) d) None of these