At `407 K`, the rate constant of a chemical reaction is `9.5xx10^(-5)s^(-1)` and at `420 K`, the rate constant is `1.9xx10^(-4)s^(-1)`. Calculate the Arrhenius parameter of the reaction.

The rate constant of a reaction is k=3.28 × 10^(-4) s^-1 . Find the order of the reaction.

The rate constant of a reaction is 1.5 xx 10^(7)s^(-1) at 50^(@)C and 4.5 xx 10^(7) s^(-1) at 100^(@)C . Evaluate the Arrhenius parameters A and E_(a) .

The rate constant of a reaction is 1.5 xx 10^(7)s^(-1) at 50^(@)C and 4.5 xx 10^(7) s^(-1) at 100^(@)C . Evaluate the Arrhenius parameters A and E_(a) .

The rate constant of a reaction is 1.2 xx10^(-3) s^(-1) at 30^@C and 2.1xx10^(-3)s^(-1) at 40^@C . Calculate the energy of activation of the reaction.

The activation energy of a reaction is 94.14 kJ mol^(-1) and the value of rate constant at 313 K is 18 xx 10^(-5) s^(-1) . Calculate the frequency factor or pre-exponential factor, A .

The rate constant for an isomerization reaction, A rarr B is 4.5 xx 10^(-3) min^(-1) . If the initial concentration of A is 1 M , calculate the rate of the reaction after 1 h .

The rate constant for an isomerization reaction, A rarr B is 4.5 xx 10^(-3) min^(-1) . If the initial concentration of A is 1 M , calculate the rate of the reaction after 1 h .

At 290K the rate constant of a reaction is 3.2 times 10^-3 . Its value at 310K will be approximately:

The rate constant of a reaction is 1.5 xx 10^(7)s^(-1) at 50^(@) C and 4.5 xx 10^(7)s^(-1) at 100^(@) C. Calculate the value of activation energy for the reaction (R=8.314 J K^(-1)mol^(-1))

The rate constant of a reaction is 1.5xx10^(-4)s^(-1)" at "27^(@)C and 3xx10^(-4)s^(-1)" at "127^(@)C . The Ea is