Chapter 7 – Chemical Kinetics and Nuclear Chemistry (Level 1 and Level 2)

The reaction of A2 and B2 follows the equation A2(g)+B2(g)→2AB(g) The following data were observed The reaction of A2 and B2 follows the equation A2(g)+B2(g)→2AB(g) The following data were observed June 3, 2021 Category: Chapter 7 - Chemical Kinetics and Nuclear Chemistry (Level 1 and Level 2) , N Awasthi Physical Chemistry ,

A reaction A → B follows a second order kinetic. Doubling the concentration of A will increase the rate of formation of B by a factor of: A reaction A → B follows a second order kinetic. Doubling the concentration of A will increase the rate of formation of B by a factor of: June [...]

For A(w)+B(w)→C(w),rate=k[A]1/2[B]^2, if initial concentration of A and B are increased by factors 4 and 2 respectively, then the initial rate is changed by the factor: For A(w)+B(w)→C(w) if initial concentration of A and B are increased by factors 4 and 2 respectively rate=k[A]1/2[B]^2 then the initial rate is changed by the factor: June 3, [...]

For a reaction initial rate is given as : R0=k[A0]^2[B0]. By what factor, the initial rate of reaction will increase if initial concentration is taken 1.5 times and B is tripled? For a reaction initial rate is given as : R0=k[A0]^2[B0]. By what factor the initial rate of reaction will increase if initial concentration is [...]

A2 + B2 gives 2AB; R.O.R = k(A2)^a (B2)^b Order of reaction with respect to A2 and B2 are respectively : A2 + B2 gives 2AB; R.O.R = k(A2)^a (B2)^b Order of reaction with respect to A2 and B2 are respectively : June 3, 2021 Category: Chapter 7 - Chemical Kinetics and Nuclear Chemistry (Level [...]

For the ideal gaseous reaction, the rate is generally expressed in terms of dP/dt instead of dC/dt or dn/dt (where C=n/V is concentration and n the no. of moles). What is the relation among these three expressions if T and V are constant? For a zero order reaction For the ideal gaseous reaction the plot [...]

A graph between logt12 and log a (abscissa), a being the initial concentration of A in the reaction For reaction A→Product, the rate law is : a being the initial concentration of A in the reaction For reaction A→Product A graph between logt12 and log a (abscissa) the rate law is : June 3, 2021 [...]

For the reaction A→B, for which graph between half life `(t_(1//2)) and initial concentration (a) of the reactant is given below Hence graph between −d[A]/dt and time will be: For the reaction A→B for which graph between half life `(t_(1//2)) and initial concentration (a) of the reactant is given below Hence graph between −d[A]/dt and [...]

What will be the order of reaction for a chemical change having logt1/2 vs log a? ( where a = initial concentration of reactant, t1/2 =half life). t1/2 =half life). What will be the order of reaction for a chemical change having logt1/2 vs log a? ( where a = initial concentration of reactant June [...]

For a zero order reaction, the plot of conc.(a-x) vs time is linear with For a zero order reaction the plot of conc.(a-x) vs time is linear with June 2, 2021 Category: Chapter 7 - Chemical Kinetics and Nuclear Chemistry (Level 1 and Level 2) , N Awasthi Physical Chemistry ,