Derive integrated rate law for the first order gas phase reaction: `A_(g) rarr B_(g)+C_(g)` in terms of pressure.

Derive the integrated rate law for zero order reaction.

The integrated rate equation for first order reaction Ararr products is given by

DeltaH for the reaction 2H_(g) rarr H_2(g) will be

Derive the integrated rate law for first order reaction: A products OR Derive the rate equation for first order reaction.

Consider a first order gas phase decomposition reaction given below: A(g) rarr B(g)+C(g) The initial pressure of the system before decomposition of A was 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.

Explain the exponential rate law expression for the first order reaction.

The elementary reaction O_3(g) + O(g) rarr 2 O_2(g) is

Derive the relation between half-life and rate constant of the first-order reaction.

Write molecularity of the following reaction: 2NO_(g)+O_(2(g))rarr2NO_(g)

Dihydrogen gas used in Haber's process is produced by reacting methane form natural gas with high temperature steam..The first stange reaction involves the formation of CO and H_2 .In second stage , CO formed in first stage,CO formed in first stage is reacted with more steam ion water gas shift reaction, CO(g)+ h_2o(g) hArr CO_2(g) +H_2(g) If a reaction vessel at 400^@C is charged with a n equimolar mixture of CO and steam such that P_(co) =P_(H_2O) = 4.0 bar what will be the partial pressure of H_2 at equilibrium? k_p =0.1