For a first order homogeneous gaseous reaction
`Ato 2B+C`
if the total pressure after time t was `P_(1)` and after long time `(t to infty)` was `P_(infty)` then K in terms of `P_(t_(1))` `P_(infty)` t is

For the homogenous gaseous reaction Ato3B , if pressure after time t was P_(t) and after completion of reaction, pressure was P_(oo) then select correct relation

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 a homogenous reaction A rarr B+C+D the initial pressure was P_(0) and after time t it was P. Expression for rate constant k in terms of P_(0) , P and t will be

For a homogeneous gaseous reaction A rarr B + C + D , the initial pressure was P_0 white pressure after time 't' was P. if (P gt P_0) The expression for the constant K is

In homogenous reaction A_((g))rarr B_((g})+C_((g)) initial pressure was P_(0) and after time "t" it was "P" .Then correct expression is

For a homogeneous gaseous phase reaction 2Ararr 3B+C , the initial pressure was P^(@) while pressure at time 't' was P . Find the pressure after time 2t . Assume first-order reaction.

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 :

Consider a first order gas phase decompostion reaction gives below A(g) to B(g) to C(g) The initial pressure of the system before decomposition of A p_(i) . After lapse of time 't' total pressure of the system increased by x units and became p_(t) . The rate constant K for the reaction is given as....... .