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

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 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 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 a homogeneous chemical reaction, K_(p)=K_(c) when

Azoisopropane decomposes acording to the reaction: (CH_(3))_(2)CHN = NCH(CH_(3))_(2)(g) overset(250-290^(@)C)rarr N_(2)(g) + C_(6)H_(14)(g) It is found to be a first order reaction. If the initial pressure is P_(0) and pressure of the mixture at time t is (P_(t)) , then the rate constant (k) would be

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 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 gaseous reaction 2B rarr A , the equilibrium constant K_(p) is ……… to // than K_(c) .

V = k((P)/(T))^(0.33) where k is constant. It is an,

For a first order reaction A(g)rarr2B(g)+C(g) at constant volume and 300 K, the total pressure at the beginning (t=0) and at time t ae P_(0) and P_(t) respectively. Initially, only A is present with concentration [A]_(0) and t_(1//3) is the time required for the partial pressure of A to reach 1/3rd of its initial value. The correct options (s) is (are) : (Assume that all these behave as ideal gases)